TY  - CONF
AU  - Brdarić, Emilija
AU  - Soković Bajić, Svetlana
AU  - Popović, Dušanka
AU  - Kulaš, Jelena
AU  - Popov Aleksandrov, Aleksandra
AU  - Mirkov, Ivana
AU  - Živković, Milica
PY  - 2023
UR  - https://www.microbiota-site.com/
UR  - https://imagine.imgge.bg.ac.rs/handle/123456789/2186
AB  - Introduction: Exopolysaccharides (EPS) are carbohydrate polymers with important biological activities such 
as immunomodulatory, antioxidative and antitumor (1). How EPS affect the gut microbiota, which plays an 
important role in maintaining homeostasis in the organism, is poorly understood to date. Therefore, the aim 
of this study was to investigate how EPS-AN8, derived from Lactiplantibacillus plantarum BGAN8, affects part 
of the gut microbiota in the duodenum of healthy Dark Agouti rats (DA).
Materials and Methods: EPS-AN8 was administered to male DA at low (0.1 mg/mL) and high (1 mg/mL) 
dose over a 15-day period. Total duodenal DNA was isolated and PCR amplicon for 16SrRNA was sequenced 
on Illumina NovaSeq paired-end platform. Furthermore, we tracked key parameters of oxidative stress and 
inflammation in duodenal homogenates.
Results: The higher dose of EPS-AN8 resulted in an increased Shannon's diversity index. The most 
significant differences were observed in the increased relative abundance of the genera Ruminococcus, 
Dubosiella, Enterohabdus, and Adlercreutzia. At the same time, we demonstrated that neither dosage caused 
negative side effects such as inflammation and oxidative stress.
Conclusion: Considering the existing trend to market foods with additional health benefits, our results 
suggest that EPS-AN8 could be a good candidate for functional food supplementation.
C3  - 10th ISM World Congress on  Targeting Microbiota
T1  - CONSUMPTION OF EXOPOLYSACCHARIDES FROM LACTIPLANTIBACILLUS PLANTARUM  BGAN8 ALTERS THE GUT MICROBIOTA OF DA RAT
EP  - 61
SP  - 61
UR  - https://hdl.handle.net/21.15107/rcub_imagine_2186
ER  - 

@conference{
author = "Brdarić, Emilija and Soković Bajić, Svetlana and Popović, Dušanka and Kulaš, Jelena and Popov Aleksandrov, Aleksandra and Mirkov, Ivana and Živković, Milica",
year = "2023",
abstract = "Introduction: Exopolysaccharides (EPS) are carbohydrate polymers with important biological activities such 
as immunomodulatory, antioxidative and antitumor (1). How EPS affect the gut microbiota, which plays an 
important role in maintaining homeostasis in the organism, is poorly understood to date. Therefore, the aim 
of this study was to investigate how EPS-AN8, derived from Lactiplantibacillus plantarum BGAN8, affects part 
of the gut microbiota in the duodenum of healthy Dark Agouti rats (DA).
Materials and Methods: EPS-AN8 was administered to male DA at low (0.1 mg/mL) and high (1 mg/mL) 
dose over a 15-day period. Total duodenal DNA was isolated and PCR amplicon for 16SrRNA was sequenced 
on Illumina NovaSeq paired-end platform. Furthermore, we tracked key parameters of oxidative stress and 
inflammation in duodenal homogenates.
Results: The higher dose of EPS-AN8 resulted in an increased Shannon's diversity index. The most 
significant differences were observed in the increased relative abundance of the genera Ruminococcus, 
Dubosiella, Enterohabdus, and Adlercreutzia. At the same time, we demonstrated that neither dosage caused 
negative side effects such as inflammation and oxidative stress.
Conclusion: Considering the existing trend to market foods with additional health benefits, our results 
suggest that EPS-AN8 could be a good candidate for functional food supplementation.",
journal = "10th ISM World Congress on  Targeting Microbiota",
title = "CONSUMPTION OF EXOPOLYSACCHARIDES FROM LACTIPLANTIBACILLUS PLANTARUM  BGAN8 ALTERS THE GUT MICROBIOTA OF DA RAT",
pages = "61-61",
url = "https://hdl.handle.net/21.15107/rcub_imagine_2186"
}

Brdarić, E., Soković Bajić, S., Popović, D., Kulaš, J., Popov Aleksandrov, A., Mirkov, I.,& Živković, M.. (2023). CONSUMPTION OF EXOPOLYSACCHARIDES FROM LACTIPLANTIBACILLUS PLANTARUM  BGAN8 ALTERS THE GUT MICROBIOTA OF DA RAT. in 10th ISM World Congress on  Targeting Microbiota, 61-61.
https://hdl.handle.net/21.15107/rcub_imagine_2186

Brdarić E, Soković Bajić S, Popović D, Kulaš J, Popov Aleksandrov A, Mirkov I, Živković M. CONSUMPTION OF EXOPOLYSACCHARIDES FROM LACTIPLANTIBACILLUS PLANTARUM  BGAN8 ALTERS THE GUT MICROBIOTA OF DA RAT. in 10th ISM World Congress on  Targeting Microbiota. 2023;:61-61.
https://hdl.handle.net/21.15107/rcub_imagine_2186 .

Brdarić, Emilija, Soković Bajić, Svetlana, Popović, Dušanka, Kulaš, Jelena, Popov Aleksandrov, Aleksandra, Mirkov, Ivana, Živković, Milica, "CONSUMPTION OF EXOPOLYSACCHARIDES FROM LACTIPLANTIBACILLUS PLANTARUM  BGAN8 ALTERS THE GUT MICROBIOTA OF DA RAT" in 10th ISM World Congress on  Targeting Microbiota (2023):61-61,
https://hdl.handle.net/21.15107/rcub_imagine_2186 .

TY  - CONF
AU  - Brdarić, Emilija
AU  - Popović, Dušanka
AU  - Soković Bajić, Svetlana
AU  - Tucović, Dina
AU  - Mutić, Jelena
AU  - Čakić-Milošević, Maja
AU  - Đurđić, Slađana
AU  - Tolinački, Maja
AU  - Popov Aleksandrov, Aleksandra
AU  - Golić, Nataša
AU  - Mirkov, Ivana
AU  - Živković, Milica
PY  - 2023
UR  - https://imagine.imgge.bg.ac.rs/handle/123456789/2164
AB  - Кадмијум је глобално присутан токсични метал који изазива бројне штетне ефекте у организму и заузима седмо место на листи приоритетних супстанци од којих је неопходно пронаћи оптималне начине заштите. Наше пређашње студије су показале да егзополисахарид изолован из соја Lactiplantibacillus plantarum BGAN8 (EPS-AN8) показује висок афинитет за везивање јона кадмијума у воденом раствору и остварује значајан ниво in vitro заштите Caco-2 ћелија од његових токсичних ефеката. Имајући у виду да је за општу популацију најзаступљенији унос кадмијума исхраном, у овој студији је праћен паралелни ефекат уноса кадмијума (кроз воду) и EPS-AN8 (кроз храну) у DA пацовима. Након 30 дана третмана, утврђено је да је унос EPS-AN8 допринео сниженом нивоу депонованог метала у бубрезима, јетри и крви, а повећаном садржају у фекалном материјалу. Такође, микрографије дуоденума, бубрега и јетре су указале на ниже степене кадмијумом индукованих оштећења. Праћењем активности ензима који учествују у антиоксидативној заштити (CAT, GST), терминалних производа липидне пероксидације (MDA) и продукције проинфламаторних цитокина (IL-1β, TNFα, IFN-γ) у хомогенатима дуоденума, утврђен је нижи ниво оксидативног стреса и инфламације, што представља додатни показатељ заштите коју остварује EPS-AN8. С обзиром да орални унос кадмијума доводи до значајних промена у цревној микробиоти, изоловали смо тоталну DNK из дуоденума и секвенцирали 16S rDNK ампликон на Illumina NovaSeq платформи. Примећено је да унос EPS-AN8 ублажава појаву промена у релативној заступљености бактеријских родова и врста карактерисичних за излагање кадмијуму, попут пораста броја опортунистичких патогених бактерија и смањења бројности лактобацила. Остварени заштитни ефекти указују на снажан потенцијал примене EPS-AN8 у условима високе контаминације кадмијумом.
AB  - Kadmijum je globalno prisutan toksični metal koji izaziva brojne štetne efekte u organizmu i zauzima sedmo mesto na listi prioritetnih supstanci od kojih je neophodno pronaći optimalne načine zaštite. Naše pređašnje studije su pokazale da egzopolisaharid izolovan iz soja Lactiplantibacillus plantarum BGAN8 (EPS-AN8) pokazuje visok afinitet za vezivanje jona kadmijuma u vodenom rastvoru i ostvaruje značajan nivo in vitro zaštite Caco-2 ćelija od njegovih toksičnih efekata. Imajući u vidu da je za opštu populaciju najzastupljeniji unos kadmijuma ishranom, u ovoj studiji je praćen paralelni efekat unosa kadmijuma (kroz vodu) i EPS-AN8 (kroz hranu) u DA pacovima. Nakon 30 dana tretmana, utvrđeno je da je unos EPS-AN8 doprineo sniženom nivou deponovanog metala u bubrezima, jetri i krvi, a povećanom sadržaju u fekalnom materijalu. Takođe, mikrografije duodenuma, bubrega i jetre su ukazale na niže stepene kadmijumom indukovanih oštećenja. Praćenjem aktivnosti enzima koji učestvuju u antioksidativnoj zaštiti (CAT, GST), terminalnih proizvoda lipidne peroksidacije (MDA) i produkcije proinflamatornih citokina (IL-1β, TNFα, IFN-γ) u homogenatima duodenuma, utvrđen je niži nivo oksidativnog stresa i inflamacije, što predstavlja dodatni pokazatelj zaštite koju ostvaruje EPS-AN8. S obzirom da oralni unos kadmijuma dovodi do značajnih promena u crevnoj mikrobioti, izolovali smo totalnu DNK iz duodenuma i sekvencirali 16S rDNK amplikon na Illumina NovaSeq platformi. Primećeno je da unos EPS-AN8 ublažava pojavu promena u relativnoj zastupljenosti bakterijskih rodova i vrsta karakterističnih za ilaganje kadmijumu, poput porasta broja oportunističkih patogenih bakterija i smanjenja brojnosti laktobacila. Ostvareni zaštitni efekti ukazuju na snažan potencijal primene EPS-AN8 u uslovima visoke kontaminacije kadmijumom.
PB  - Belgrade: Serbian Academy of Sciences and Arts
C3  - Naučni skup Svetski dan imunologije 2023; 2023 Apr 27; Belgrade, Serbia
T1  - Улога EPS-AN8 у заштити DA пацова изложених оралном уносу кадмијума(II)
T1  - Uloga EPS-AN8 u zaštiti DA pacova izloženih oralnom unosu kadmijuma(II)
UR  - https://hdl.handle.net/21.15107/rcub_imagine_2164
ER  - 

@conference{
author = "Brdarić, Emilija and Popović, Dušanka and Soković Bajić, Svetlana and Tucović, Dina and Mutić, Jelena and Čakić-Milošević, Maja and Đurđić, Slađana and Tolinački, Maja and Popov Aleksandrov, Aleksandra and Golić, Nataša and Mirkov, Ivana and Živković, Milica",
year = "2023",
abstract = "Кадмијум је глобално присутан токсични метал који изазива бројне штетне ефекте у организму и заузима седмо место на листи приоритетних супстанци од којих је неопходно пронаћи оптималне начине заштите. Наше пређашње студије су показале да егзополисахарид изолован из соја Lactiplantibacillus plantarum BGAN8 (EPS-AN8) показује висок афинитет за везивање јона кадмијума у воденом раствору и остварује значајан ниво in vitro заштите Caco-2 ћелија од његових токсичних ефеката. Имајући у виду да је за општу популацију најзаступљенији унос кадмијума исхраном, у овој студији је праћен паралелни ефекат уноса кадмијума (кроз воду) и EPS-AN8 (кроз храну) у DA пацовима. Након 30 дана третмана, утврђено је да је унос EPS-AN8 допринео сниженом нивоу депонованог метала у бубрезима, јетри и крви, а повећаном садржају у фекалном материјалу. Такође, микрографије дуоденума, бубрега и јетре су указале на ниже степене кадмијумом индукованих оштећења. Праћењем активности ензима који учествују у антиоксидативној заштити (CAT, GST), терминалних производа липидне пероксидације (MDA) и продукције проинфламаторних цитокина (IL-1β, TNFα, IFN-γ) у хомогенатима дуоденума, утврђен је нижи ниво оксидативног стреса и инфламације, што представља додатни показатељ заштите коју остварује EPS-AN8. С обзиром да орални унос кадмијума доводи до значајних промена у цревној микробиоти, изоловали смо тоталну DNK из дуоденума и секвенцирали 16S rDNK ампликон на Illumina NovaSeq платформи. Примећено је да унос EPS-AN8 ублажава појаву промена у релативној заступљености бактеријских родова и врста карактерисичних за излагање кадмијуму, попут пораста броја опортунистичких патогених бактерија и смањења бројности лактобацила. Остварени заштитни ефекти указују на снажан потенцијал примене EPS-AN8 у условима високе контаминације кадмијумом., Kadmijum je globalno prisutan toksični metal koji izaziva brojne štetne efekte u organizmu i zauzima sedmo mesto na listi prioritetnih supstanci od kojih je neophodno pronaći optimalne načine zaštite. Naše pređašnje studije su pokazale da egzopolisaharid izolovan iz soja Lactiplantibacillus plantarum BGAN8 (EPS-AN8) pokazuje visok afinitet za vezivanje jona kadmijuma u vodenom rastvoru i ostvaruje značajan nivo in vitro zaštite Caco-2 ćelija od njegovih toksičnih efekata. Imajući u vidu da je za opštu populaciju najzastupljeniji unos kadmijuma ishranom, u ovoj studiji je praćen paralelni efekat unosa kadmijuma (kroz vodu) i EPS-AN8 (kroz hranu) u DA pacovima. Nakon 30 dana tretmana, utvrđeno je da je unos EPS-AN8 doprineo sniženom nivou deponovanog metala u bubrezima, jetri i krvi, a povećanom sadržaju u fekalnom materijalu. Takođe, mikrografije duodenuma, bubrega i jetre su ukazale na niže stepene kadmijumom indukovanih oštećenja. Praćenjem aktivnosti enzima koji učestvuju u antioksidativnoj zaštiti (CAT, GST), terminalnih proizvoda lipidne peroksidacije (MDA) i produkcije proinflamatornih citokina (IL-1β, TNFα, IFN-γ) u homogenatima duodenuma, utvrđen je niži nivo oksidativnog stresa i inflamacije, što predstavlja dodatni pokazatelj zaštite koju ostvaruje EPS-AN8. S obzirom da oralni unos kadmijuma dovodi do značajnih promena u crevnoj mikrobioti, izolovali smo totalnu DNK iz duodenuma i sekvencirali 16S rDNK amplikon na Illumina NovaSeq platformi. Primećeno je da unos EPS-AN8 ublažava pojavu promena u relativnoj zastupljenosti bakterijskih rodova i vrsta karakterističnih za ilaganje kadmijumu, poput porasta broja oportunističkih patogenih bakterija i smanjenja brojnosti laktobacila. Ostvareni zaštitni efekti ukazuju na snažan potencijal primene EPS-AN8 u uslovima visoke kontaminacije kadmijumom.",
publisher = "Belgrade: Serbian Academy of Sciences and Arts",
journal = "Naučni skup Svetski dan imunologije 2023; 2023 Apr 27; Belgrade, Serbia",
title = "Улога EPS-AN8 у заштити DA пацова изложених оралном уносу кадмијума(II), Uloga EPS-AN8 u zaštiti DA pacova izloženih oralnom unosu kadmijuma(II)",
url = "https://hdl.handle.net/21.15107/rcub_imagine_2164"
}

Brdarić, E., Popović, D., Soković Bajić, S., Tucović, D., Mutić, J., Čakić-Milošević, M., Đurđić, S., Tolinački, M., Popov Aleksandrov, A., Golić, N., Mirkov, I.,& Živković, M.. (2023). Улога EPS-AN8 у заштити DA пацова изложених оралном уносу кадмијума(II). in Naučni skup Svetski dan imunologije 2023; 2023 Apr 27; Belgrade, Serbia
Belgrade: Serbian Academy of Sciences and Arts..
https://hdl.handle.net/21.15107/rcub_imagine_2164

Brdarić E, Popović D, Soković Bajić S, Tucović D, Mutić J, Čakić-Milošević M, Đurđić S, Tolinački M, Popov Aleksandrov A, Golić N, Mirkov I, Živković M. Улога EPS-AN8 у заштити DA пацова изложених оралном уносу кадмијума(II). in Naučni skup Svetski dan imunologije 2023; 2023 Apr 27; Belgrade, Serbia. 2023;.
https://hdl.handle.net/21.15107/rcub_imagine_2164 .

Brdarić, Emilija, Popović, Dušanka, Soković Bajić, Svetlana, Tucović, Dina, Mutić, Jelena, Čakić-Milošević, Maja, Đurđić, Slađana, Tolinački, Maja, Popov Aleksandrov, Aleksandra, Golić, Nataša, Mirkov, Ivana, Živković, Milica, "Улога EPS-AN8 у заштити DA пацова изложених оралном уносу кадмијума(II)" in Naučni skup Svetski dan imunologije 2023; 2023 Apr 27; Belgrade, Serbia (2023),
https://hdl.handle.net/21.15107/rcub_imagine_2164 .

TY  - JOUR
AU  - Brdarić, Emilija
AU  - Popović, Dušanka
AU  - Soković Bajić, Svetlana
AU  - Tucović, Dina
AU  - Mutić, Jelena
AU  - Čakić-Milošević, Maja
AU  - Đurđić, Slađana
AU  - Tolinački, Maja
AU  - Aleksandrov, Aleksandra Popov
AU  - Golić, Nataša
AU  - Mirkov, Ivana
AU  - Živković, Milica
PY  - 2023
UR  - https://imagine.imgge.bg.ac.rs/handle/123456789/1713
AB  - Cadmium (Cd) is a highly toxic metal that is distributed worldwide. Exposure to it is correlated with a vast number of diseases and organism malfunctions. Exopolysaccharides (EPS) derived from Lactiplantibacillus plantarum BGAN8, EPS-AN8, previously showed great potential for the in vitro protection of intestinal cells from this metal. Here, we investigated the potential of food supplemented with EPS-AN8 to protect rats from the hazardous effects of Cd exposure. After thirty days of exposure to lower (5 ppm) and higher (50 ppm)-Cd doses, the administration of EPS-AN8 led to decreased Cd content in the kidneys, liver, and blood compared to only Cd-treated groups, whereas the fecal Cd content was strongly enriched. In addition, EPS-AN8 reversed Cd-provoked effects on the most significant parameters of oxidative stress (MDA, CAT, GST, and GSH) and inflammation (IL-1β, TNF-α, and IFN-γ) in the duodenum. Moreover, micrographs of the duodenum were in line with these findings. As the gut microbiota has an important role in maintaining homeostasis, we used 16S rRNA amplicon sequencing and investigated the effects of Cd and EPS-AN8 on one part of the microbiota presented in the duodenum. Although Cd decreased the growth of lactobacilli and mostly favored the blooming of opportunistic pathogen bacteria, parallel intake of EPS-AN8 reversed those changes. Therefore, our results imply that EPS-AN8 might be extremely noteworthy in combatting this toxic environmental pollutant.
T2  - International Journal of Molecular Sciences
T2  - International Journal of Molecular Sciences
T1  - Orally Administrated Lactiplantibacillus plantarum BGAN8-Derived EPS-AN8 Ameliorates Cd Hazards in Rats
IS  - 3
SP  - 2845
VL  - 24
DO  - 10.3390/ijms24032845
ER  - 

@article{
author = "Brdarić, Emilija and Popović, Dušanka and Soković Bajić, Svetlana and Tucović, Dina and Mutić, Jelena and Čakić-Milošević, Maja and Đurđić, Slađana and Tolinački, Maja and Aleksandrov, Aleksandra Popov and Golić, Nataša and Mirkov, Ivana and Živković, Milica",
year = "2023",
abstract = "Cadmium (Cd) is a highly toxic metal that is distributed worldwide. Exposure to it is correlated with a vast number of diseases and organism malfunctions. Exopolysaccharides (EPS) derived from Lactiplantibacillus plantarum BGAN8, EPS-AN8, previously showed great potential for the in vitro protection of intestinal cells from this metal. Here, we investigated the potential of food supplemented with EPS-AN8 to protect rats from the hazardous effects of Cd exposure. After thirty days of exposure to lower (5 ppm) and higher (50 ppm)-Cd doses, the administration of EPS-AN8 led to decreased Cd content in the kidneys, liver, and blood compared to only Cd-treated groups, whereas the fecal Cd content was strongly enriched. In addition, EPS-AN8 reversed Cd-provoked effects on the most significant parameters of oxidative stress (MDA, CAT, GST, and GSH) and inflammation (IL-1β, TNF-α, and IFN-γ) in the duodenum. Moreover, micrographs of the duodenum were in line with these findings. As the gut microbiota has an important role in maintaining homeostasis, we used 16S rRNA amplicon sequencing and investigated the effects of Cd and EPS-AN8 on one part of the microbiota presented in the duodenum. Although Cd decreased the growth of lactobacilli and mostly favored the blooming of opportunistic pathogen bacteria, parallel intake of EPS-AN8 reversed those changes. Therefore, our results imply that EPS-AN8 might be extremely noteworthy in combatting this toxic environmental pollutant.",
journal = "International Journal of Molecular Sciences, International Journal of Molecular Sciences",
title = "Orally Administrated Lactiplantibacillus plantarum BGAN8-Derived EPS-AN8 Ameliorates Cd Hazards in Rats",
number = "3",
pages = "2845",
volume = "24",
doi = "10.3390/ijms24032845"
}

Brdarić, E., Popović, D., Soković Bajić, S., Tucović, D., Mutić, J., Čakić-Milošević, M., Đurđić, S., Tolinački, M., Aleksandrov, A. P., Golić, N., Mirkov, I.,& Živković, M.. (2023). Orally Administrated Lactiplantibacillus plantarum BGAN8-Derived EPS-AN8 Ameliorates Cd Hazards in Rats. in International Journal of Molecular Sciences, 24(3), 2845.
https://doi.org/10.3390/ijms24032845

Brdarić E, Popović D, Soković Bajić S, Tucović D, Mutić J, Čakić-Milošević M, Đurđić S, Tolinački M, Aleksandrov AP, Golić N, Mirkov I, Živković M. Orally Administrated Lactiplantibacillus plantarum BGAN8-Derived EPS-AN8 Ameliorates Cd Hazards in Rats. in International Journal of Molecular Sciences. 2023;24(3):2845.
doi:10.3390/ijms24032845 .

Brdarić, Emilija, Popović, Dušanka, Soković Bajić, Svetlana, Tucović, Dina, Mutić, Jelena, Čakić-Milošević, Maja, Đurđić, Slađana, Tolinački, Maja, Aleksandrov, Aleksandra Popov, Golić, Nataša, Mirkov, Ivana, Živković, Milica, "Orally Administrated Lactiplantibacillus plantarum BGAN8-Derived EPS-AN8 Ameliorates Cd Hazards in Rats" in International Journal of Molecular Sciences, 24, no. 3 (2023):2845,
https://doi.org/10.3390/ijms24032845 . .

TY  - JOUR
AU  - Popovic, Dusanka
AU  - Kulas, Jelena
AU  - Tucovic, Dina
AU  - Popov Aleksandrov, Aleksandra
AU  - Malesevic, Anastasija
AU  - Glamoclija, Jasmina
AU  - Brdarić, Emilija
AU  - Soković Bajić, Svetlana
AU  - Golić, Nataša
AU  - Mirkov, Ivana
AU  - Tolinački, Maja
PY  - 2023
UR  - https://journals.asm.org/doi/10.1128/spectrum.01990-23
UR  - https://imagine.imgge.bg.ac.rs/handle/123456789/2095
AB  - While the effect of gut microbiota and/or inflammation on a distant body
site, including the lungs (gut–lung axis), has been well characterized, data about the
influence of lung microbiota and lung inflammation on gut homeostasis (lung–gut
axis) are scarce. Using a well-characterized model of pulmonary infection with the
fungus Aspergillus fumigatus, we investigated alterations in the lung and gut microbiota

by next-generation sequencing of the V3–V4 regions of total bacterial DNA. Pulmo-
nary inflammation due to the fungus A. fumigatus caused bacterial dysbiosis in both

lungs and gut, but with different characteristics. While increased alpha diversity and
unchanged bacterial composition were noted in the lungs, dysbiosis in the gut was
characterized by decreased alpha diversity indices and modified bacterial composition.
The altered homeostasis in the lungs allows the immigration of new bacterial species of
which 41.8% were found in the feces, indicating that some degree of bacterial migration
from the gut to the lungs occurs. On the contrary, the dysbiosis occurring in the gut
during pulmonary infection was a consequence of the local activity of the immune
system. In addition, the alteration of gut microbiota in response to pulmonary infection
depends on the bacterial composition before infection, as no changes in gut bacterial
microbiota were detected in a rat strain with diverse gut bacteria. The data presented
support the existence of the lung–gut axis and provide additional insight into this
mechanism.
IMPORTANCE Data regarding the impact of lung inflammation and lung microbiota
on GIT are scarce, and the mechanisms of this interaction are still unknown. Using a
well-characterized model of pulmonary infection caused by the opportunistic fungus
Aspergillus fumigatus, we observed bacterial dysbiosis in both the lungs and gut that
supports the existence of the lung–gut axis.
KEYWORDS fungal lung infection, gastrointestinal microbiota, lung microbiota,
lung-gut axis, rats
B
acteria inhabit every part of the human body, but most of them are found in the gut.
Gut microbiota are responsible for many functions, including nutrient metabolism,
immunomodulation, maintenance of host physiology, and protection against pathogen
overgrowth (1). To date, numerous scientific studies confirm the important role of
gut bacteria in health and disease. This microbial community impacts not only local
immunity but also a distant body site, such as the lungs. Disturbances in gut bacterial
composition have been linked to asthma (2), chronic obstructive pulmonary disease
(3), cystic fibrosis (4), and lung cancer (5). Furthermore, pulmonary involvement was
noted in inflammatory gastrointestinal disease characterized by microbial dysbiosis (6),
Month XXXX Volume 0 Issue 0 10.1128/spectrum.01990-23 1
Editor Agostinho Carvalho, University of Minho,
Braga, Portugal
Address correspondence to Maja Tolinacki,
maja_tolinacki@imgge.bg.ac.rs.
The authors declare no conflict of interest.
See the funding table on p. 15.
Received 11 May 2023
Accepted 25 July 2023
Published 25 August 2023

Copyright © 2023 Popovic et al. This is an open-
access article distributed under the terms of the

Creative Commons Attribution 4.0 International
license. Downloaded from https://journals.asm.org/journal/spectrum on 09 October 2023 by 147.91.199.205.

supporting the existence of a gut–lung axis. The gut bacterial microbiota or some of
their constituents impact the immune response in the lungs against viruses (7–9),
bacteria (10–13), fungi (14), and allergic airway inflammation (15) mainly through the
effect of the gut microbiota (or their metabolites) on the immune cell activity.
While the gut–lung axis is well characterized, the influence of the lung microbiota
as well as lung inflammation on gut homeostasis has attracted much more attention in
recent years. The first indication of the lung–gut axis was a higher prevalence (compared
to healthy subjects) of gastrointestinal symptoms in patients with asthma (16) and
chronic obstructive pulmonary disease (17). The existence of gastrointestinal symptoms

in patients with pulmonary virus infection has also been documented (18). Gastrointesti-
nal symptoms (abdominal pain, nausea, vomiting, and diarrhea) were noted in 11.6%

of children with influenza infection (18), and a later study showed a decrease in alpha
diversity in the feces of influenza-infected patients compared to healthy controls (19).
Fecal bacterial samples from patients with COVID-19 infection were shown to cluster
separately from those in healthy controls as well, but in the majority of these patients,
SARS-Cov-2 could be detected in the feces (20). Experimental studies in mice confirmed
the occurrence of gut dysbiosis following respiratory influenza virus infection (21–25)
and respiratory syncytial virus infection (24), despite the fact that the virus has not
been detected in the gut (21, 22, 24, 25). It has been shown that the alteration of gut
microbiota is a consequence of infection with live virus particles, as administration of an
attenuated influenza vaccine had no effect on the microbiota (24).
Bacterial dysbiosis in the gut also occurs following pulmonary bacterial infection. A
decrease in alpha diversity indices and differential relative abundance of fecal microbiota
were noted in patients with pulmonary tuberculosis (26, 27) and in mice infected with
Mycobacterium tuberculosis (28) and Klebsiella pneumoniae (29). Even administration of

the major component of the outer membrane of Gram-negative bacteria, lipopolysac-
charide, to the lungs caused gut bacteria dysbiosis (30).

In addition to pulmonary infections caused by viruses or bacteria, alteration of the gut
microbiota was noted in mice exposed to hyperoxia (31) and in patients with lung cancer
(compared to healthy individuals) (32) indicating that pulmonary inflammation/injury
affects the gut microbiota regardless of its origin. Despite a growing body of evidence
for interaction between the lungs and gut, there is still a lot of work to be done to
understand this crosstalk. There are virtually no data regarding gut microbiota changes
during pulmonary infection caused by fungi. Our previous study showed an alteration
in immune-mediated homeostasis of the gut in a rat model of sublethal pulmonary
infection with A. fumigatus (33). Using the same experimental model of infection in Dark
Agouti (DA) rat strain, we aimed to investigate changes in the lung and gut microbiota
by next-generation sequencing of the V3–V4 regions of total bacterial DNA in these
two organs. Possible mechanisms of lung–gut communication were also investigated. In
addition, to examine whether gut dysbiosis is a general characteristic during pulmonary
fungal infection, we analyzed feces from infected Albino Oxford (AO) rats, a strain that
develop quantitatively different immune response to fungus A. fumigatus (34) and whose

gut microbiota was previously shown to respond differently to oral cadmium administra-
tion (35) compared to DA rats.
T2  - Microbiology Spectrum
T2  - Microbiology spectrum
T1  - Gut microbial dysbiosis occurring during pulmonary fungal infection in rats is linked to inflammation and depends on healthy microbiota composition
EP  - 23
IS  - n/a
SP  - e01990
VL  - n/a
DO  - 10.1128/spectrum.01990-23
ER  - 

@article{
author = "Popovic, Dusanka and Kulas, Jelena and Tucovic, Dina and Popov Aleksandrov, Aleksandra and Malesevic, Anastasija and Glamoclija, Jasmina and Brdarić, Emilija and Soković Bajić, Svetlana and Golić, Nataša and Mirkov, Ivana and Tolinački, Maja",
year = "2023",
abstract = "While the effect of gut microbiota and/or inflammation on a distant body
site, including the lungs (gut–lung axis), has been well characterized, data about the
influence of lung microbiota and lung inflammation on gut homeostasis (lung–gut
axis) are scarce. Using a well-characterized model of pulmonary infection with the
fungus Aspergillus fumigatus, we investigated alterations in the lung and gut microbiota

by next-generation sequencing of the V3–V4 regions of total bacterial DNA. Pulmo-
nary inflammation due to the fungus A. fumigatus caused bacterial dysbiosis in both

lungs and gut, but with different characteristics. While increased alpha diversity and
unchanged bacterial composition were noted in the lungs, dysbiosis in the gut was
characterized by decreased alpha diversity indices and modified bacterial composition.
The altered homeostasis in the lungs allows the immigration of new bacterial species of
which 41.8% were found in the feces, indicating that some degree of bacterial migration
from the gut to the lungs occurs. On the contrary, the dysbiosis occurring in the gut
during pulmonary infection was a consequence of the local activity of the immune
system. In addition, the alteration of gut microbiota in response to pulmonary infection
depends on the bacterial composition before infection, as no changes in gut bacterial
microbiota were detected in a rat strain with diverse gut bacteria. The data presented
support the existence of the lung–gut axis and provide additional insight into this
mechanism.
IMPORTANCE Data regarding the impact of lung inflammation and lung microbiota
on GIT are scarce, and the mechanisms of this interaction are still unknown. Using a
well-characterized model of pulmonary infection caused by the opportunistic fungus
Aspergillus fumigatus, we observed bacterial dysbiosis in both the lungs and gut that
supports the existence of the lung–gut axis.
KEYWORDS fungal lung infection, gastrointestinal microbiota, lung microbiota,
lung-gut axis, rats
B
acteria inhabit every part of the human body, but most of them are found in the gut.
Gut microbiota are responsible for many functions, including nutrient metabolism,
immunomodulation, maintenance of host physiology, and protection against pathogen
overgrowth (1). To date, numerous scientific studies confirm the important role of
gut bacteria in health and disease. This microbial community impacts not only local
immunity but also a distant body site, such as the lungs. Disturbances in gut bacterial
composition have been linked to asthma (2), chronic obstructive pulmonary disease
(3), cystic fibrosis (4), and lung cancer (5). Furthermore, pulmonary involvement was
noted in inflammatory gastrointestinal disease characterized by microbial dysbiosis (6),
Month XXXX Volume 0 Issue 0 10.1128/spectrum.01990-23 1
Editor Agostinho Carvalho, University of Minho,
Braga, Portugal
Address correspondence to Maja Tolinacki,
maja_tolinacki@imgge.bg.ac.rs.
The authors declare no conflict of interest.
See the funding table on p. 15.
Received 11 May 2023
Accepted 25 July 2023
Published 25 August 2023

Copyright © 2023 Popovic et al. This is an open-
access article distributed under the terms of the

Creative Commons Attribution 4.0 International
license. Downloaded from https://journals.asm.org/journal/spectrum on 09 October 2023 by 147.91.199.205.

supporting the existence of a gut–lung axis. The gut bacterial microbiota or some of
their constituents impact the immune response in the lungs against viruses (7–9),
bacteria (10–13), fungi (14), and allergic airway inflammation (15) mainly through the
effect of the gut microbiota (or their metabolites) on the immune cell activity.
While the gut–lung axis is well characterized, the influence of the lung microbiota
as well as lung inflammation on gut homeostasis has attracted much more attention in
recent years. The first indication of the lung–gut axis was a higher prevalence (compared
to healthy subjects) of gastrointestinal symptoms in patients with asthma (16) and
chronic obstructive pulmonary disease (17). The existence of gastrointestinal symptoms

in patients with pulmonary virus infection has also been documented (18). Gastrointesti-
nal symptoms (abdominal pain, nausea, vomiting, and diarrhea) were noted in 11.6%

of children with influenza infection (18), and a later study showed a decrease in alpha
diversity in the feces of influenza-infected patients compared to healthy controls (19).
Fecal bacterial samples from patients with COVID-19 infection were shown to cluster
separately from those in healthy controls as well, but in the majority of these patients,
SARS-Cov-2 could be detected in the feces (20). Experimental studies in mice confirmed
the occurrence of gut dysbiosis following respiratory influenza virus infection (21–25)
and respiratory syncytial virus infection (24), despite the fact that the virus has not
been detected in the gut (21, 22, 24, 25). It has been shown that the alteration of gut
microbiota is a consequence of infection with live virus particles, as administration of an
attenuated influenza vaccine had no effect on the microbiota (24).
Bacterial dysbiosis in the gut also occurs following pulmonary bacterial infection. A
decrease in alpha diversity indices and differential relative abundance of fecal microbiota
were noted in patients with pulmonary tuberculosis (26, 27) and in mice infected with
Mycobacterium tuberculosis (28) and Klebsiella pneumoniae (29). Even administration of

the major component of the outer membrane of Gram-negative bacteria, lipopolysac-
charide, to the lungs caused gut bacteria dysbiosis (30).

In addition to pulmonary infections caused by viruses or bacteria, alteration of the gut
microbiota was noted in mice exposed to hyperoxia (31) and in patients with lung cancer
(compared to healthy individuals) (32) indicating that pulmonary inflammation/injury
affects the gut microbiota regardless of its origin. Despite a growing body of evidence
for interaction between the lungs and gut, there is still a lot of work to be done to
understand this crosstalk. There are virtually no data regarding gut microbiota changes
during pulmonary infection caused by fungi. Our previous study showed an alteration
in immune-mediated homeostasis of the gut in a rat model of sublethal pulmonary
infection with A. fumigatus (33). Using the same experimental model of infection in Dark
Agouti (DA) rat strain, we aimed to investigate changes in the lung and gut microbiota
by next-generation sequencing of the V3–V4 regions of total bacterial DNA in these
two organs. Possible mechanisms of lung–gut communication were also investigated. In
addition, to examine whether gut dysbiosis is a general characteristic during pulmonary
fungal infection, we analyzed feces from infected Albino Oxford (AO) rats, a strain that
develop quantitatively different immune response to fungus A. fumigatus (34) and whose

gut microbiota was previously shown to respond differently to oral cadmium administra-
tion (35) compared to DA rats.",
journal = "Microbiology Spectrum, Microbiology spectrum",
title = "Gut microbial dysbiosis occurring during pulmonary fungal infection in rats is linked to inflammation and depends on healthy microbiota composition",
pages = "23-e01990",
number = "n/a",
volume = "n/a",
doi = "10.1128/spectrum.01990-23"
}

Popovic, D., Kulas, J., Tucovic, D., Popov Aleksandrov, A., Malesevic, A., Glamoclija, J., Brdarić, E., Soković Bajić, S., Golić, N., Mirkov, I.,& Tolinački, M.. (2023). Gut microbial dysbiosis occurring during pulmonary fungal infection in rats is linked to inflammation and depends on healthy microbiota composition. in Microbiology Spectrum, n/a(n/a), e01990-23.
https://doi.org/10.1128/spectrum.01990-23

Popovic D, Kulas J, Tucovic D, Popov Aleksandrov A, Malesevic A, Glamoclija J, Brdarić E, Soković Bajić S, Golić N, Mirkov I, Tolinački M. Gut microbial dysbiosis occurring during pulmonary fungal infection in rats is linked to inflammation and depends on healthy microbiota composition. in Microbiology Spectrum. 2023;n/a(n/a):e01990-23.
doi:10.1128/spectrum.01990-23 .

Popovic, Dusanka, Kulas, Jelena, Tucovic, Dina, Popov Aleksandrov, Aleksandra, Malesevic, Anastasija, Glamoclija, Jasmina, Brdarić, Emilija, Soković Bajić, Svetlana, Golić, Nataša, Mirkov, Ivana, Tolinački, Maja, "Gut microbial dysbiosis occurring during pulmonary fungal infection in rats is linked to inflammation and depends on healthy microbiota composition" in Microbiology Spectrum, n/a, no. n/a (2023):e01990-23,
https://doi.org/10.1128/spectrum.01990-23 . .

TY  - JOUR
AU  - Popović, Dušanka
AU  - Kulas, Jelena
AU  - Tucovic, Dina
AU  - Popov Aleksandrov, Aleksandra
AU  - Glamoclija, Jasmina
AU  - Sokovic Bajic, Svetlana
AU  - Tolinački, Maja
AU  - Golić, Nataša
AU  - Mirkov, Ivana
PY  - 2023
UR  - https://www.sciencedirect.com/science/article/pii/S1286457923000898
UR  - https://imagine.imgge.bg.ac.rs/handle/123456789/2094
AB  - Since the realization that the lungs are not sterile but are normally inhabited by various bacterial species, studies have been conducted to define healthy lung microbiota and to investigate whether it changes during lung diseases, infections, and inflammation. Using next-generation sequencing, we investigated bacterial microbiota from whole lungs in two rat strains (previously shown to differ in gut microbiota composition) in a healthy state and during pulmonary infection caused by the opportunistic fungus Aspergillus fumigatus. No differences in alpha diversity indices and microbial composition between DA and AO rats before infection were noted. Fungal infection caused dysbiosis in both rat strains, characterized by increased alpha diversity indices and unchanged beta diversity. The relative abundance of genera and species was increased in DA but decreased in AO rats during infection. Changes in lung microbiota coincided with inflammation (in both rat strains) and oxidative stress (in DA rats). Disparate response of lung microbiota in DA and AO rats to pulmonary fungal infection might render these two rat strains differentially susceptible to a subsequent inflammatory insult.
T2  - Microbes and Infection
T2  - Microbes and InfectionMicrobes and Infection
T1  - Lung microbiota changes during pulmonary Aspergillus fumigatus infection in rats
SP  - 105186
DO  - 10.1016/j.micinf.2023.105186
ER  - 

@article{
author = "Popović, Dušanka and Kulas, Jelena and Tucovic, Dina and Popov Aleksandrov, Aleksandra and Glamoclija, Jasmina and Sokovic Bajic, Svetlana and Tolinački, Maja and Golić, Nataša and Mirkov, Ivana",
year = "2023",
abstract = "Since the realization that the lungs are not sterile but are normally inhabited by various bacterial species, studies have been conducted to define healthy lung microbiota and to investigate whether it changes during lung diseases, infections, and inflammation. Using next-generation sequencing, we investigated bacterial microbiota from whole lungs in two rat strains (previously shown to differ in gut microbiota composition) in a healthy state and during pulmonary infection caused by the opportunistic fungus Aspergillus fumigatus. No differences in alpha diversity indices and microbial composition between DA and AO rats before infection were noted. Fungal infection caused dysbiosis in both rat strains, characterized by increased alpha diversity indices and unchanged beta diversity. The relative abundance of genera and species was increased in DA but decreased in AO rats during infection. Changes in lung microbiota coincided with inflammation (in both rat strains) and oxidative stress (in DA rats). Disparate response of lung microbiota in DA and AO rats to pulmonary fungal infection might render these two rat strains differentially susceptible to a subsequent inflammatory insult.",
journal = "Microbes and Infection, Microbes and InfectionMicrobes and Infection",
title = "Lung microbiota changes during pulmonary Aspergillus fumigatus infection in rats",
pages = "105186",
doi = "10.1016/j.micinf.2023.105186"
}

Popović, D., Kulas, J., Tucovic, D., Popov Aleksandrov, A., Glamoclija, J., Sokovic Bajic, S., Tolinački, M., Golić, N.,& Mirkov, I.. (2023). Lung microbiota changes during pulmonary Aspergillus fumigatus infection in rats. in Microbes and Infection, 105186.
https://doi.org/10.1016/j.micinf.2023.105186

Popović D, Kulas J, Tucovic D, Popov Aleksandrov A, Glamoclija J, Sokovic Bajic S, Tolinački M, Golić N, Mirkov I. Lung microbiota changes during pulmonary Aspergillus fumigatus infection in rats. in Microbes and Infection. 2023;:105186.
doi:10.1016/j.micinf.2023.105186 .

Popović, Dušanka, Kulas, Jelena, Tucovic, Dina, Popov Aleksandrov, Aleksandra, Glamoclija, Jasmina, Sokovic Bajic, Svetlana, Tolinački, Maja, Golić, Nataša, Mirkov, Ivana, "Lung microbiota changes during pulmonary Aspergillus fumigatus infection in rats" in Microbes and Infection (2023):105186,
https://doi.org/10.1016/j.micinf.2023.105186 . .

TY  - JOUR
AU  - Mirković, Nemanja
AU  - Kulas, Jelena
AU  - Miloradović, Zorana
AU  - Miljković, Marija
AU  - Tucović, Dina
AU  - Miocinović, Jelena
AU  - Jovčić, Branko
AU  - Mirkov, Ivana
AU  - Kojić, Milan
PY  - 2020
UR  - https://imagine.imgge.bg.ac.rs/handle/123456789/1388
AB  - In last two decades, there has been a strong trend in the application of lactic acid bacteria as adjunctive cultures to control growth of spoilage and pathogenic bacteria in food. One of the most important properties that contribute to the application of these bacteria is the production of antimicrobial molecules. Lactococcus lactis subsp. lactis BGBU1-4, isolated from traditional brined cheese, produces thermostable bacteriocin named lactolisterin BU, with broad spectrum of activity against spoilage bacteria and foodborne pathogens. In this study, effect of strain BGBU1-4, as adjunct culture, on the numbers of Listeria monocytogenes ATCC19111 and Staphylococcus aureus LMM322 in artificially contaminated Quark-type, soft acid coagulated cheese, was examined. In addition, we analyzed influence of BGBU1-4 on chemical and sensory properties of the cheese, as well as immunological response of Albino oxford rats fed with Quark-type of cheese made using BGBU1-4 as adjunct culture. Results of this study revealed antibacterial potential of strain BGBU1-4 against L. monocytogenes ATCC19111 and S. aureus LMM322 in Quark-type cheese during 21 days of storage at 4 degrees C. Also, it was noticed the ability of BGBU1-4 to control the spontaneously grown yeasts and molds. Chemical composition and pH values of cheese containing BGBU1-4 were unchanged in comparison to control. The sensory quality scores showed that there was difference between cheese with and without adjunct culture in terms of flavor and oral texture, while for the odor and appearance no differences between two cheese variants were scored. Results of the immunological response of Albino rats fed with Quark-type cheese containing BGBU1-4 indicate absence of systematic inflammation. However, increased pro-inflammatory cytokines content (IL-1 beta, IL-6, IL-17) in intestine of rats fed with cheese containing BGBU1-4, concomitantly with unchanged anti-inflammatory cytokines suggests disruption of gut homeostasis and inflammation in this tissue. The changes caused by BGBU1-4 are reversible, system returns into homeostasis seven days after cessation of feeding with cheese containing BGBU1-4.
PB  - Elsevier Sci Ltd, Oxford
T2  - Food Control
T1  - Lactolisterin BU-producer Lactococcus lactis subsp. lactis BGBU1-4: Biocontrol of Listeria monocytogenes and Staphylocococcus aureus in fresh soft cheese and effect on immunological response of rats
VL  - 111
DO  - 10.1016/j.foodcont.2019.107076
ER  - 

@article{
author = "Mirković, Nemanja and Kulas, Jelena and Miloradović, Zorana and Miljković, Marija and Tucović, Dina and Miocinović, Jelena and Jovčić, Branko and Mirkov, Ivana and Kojić, Milan",
year = "2020",
abstract = "In last two decades, there has been a strong trend in the application of lactic acid bacteria as adjunctive cultures to control growth of spoilage and pathogenic bacteria in food. One of the most important properties that contribute to the application of these bacteria is the production of antimicrobial molecules. Lactococcus lactis subsp. lactis BGBU1-4, isolated from traditional brined cheese, produces thermostable bacteriocin named lactolisterin BU, with broad spectrum of activity against spoilage bacteria and foodborne pathogens. In this study, effect of strain BGBU1-4, as adjunct culture, on the numbers of Listeria monocytogenes ATCC19111 and Staphylococcus aureus LMM322 in artificially contaminated Quark-type, soft acid coagulated cheese, was examined. In addition, we analyzed influence of BGBU1-4 on chemical and sensory properties of the cheese, as well as immunological response of Albino oxford rats fed with Quark-type of cheese made using BGBU1-4 as adjunct culture. Results of this study revealed antibacterial potential of strain BGBU1-4 against L. monocytogenes ATCC19111 and S. aureus LMM322 in Quark-type cheese during 21 days of storage at 4 degrees C. Also, it was noticed the ability of BGBU1-4 to control the spontaneously grown yeasts and molds. Chemical composition and pH values of cheese containing BGBU1-4 were unchanged in comparison to control. The sensory quality scores showed that there was difference between cheese with and without adjunct culture in terms of flavor and oral texture, while for the odor and appearance no differences between two cheese variants were scored. Results of the immunological response of Albino rats fed with Quark-type cheese containing BGBU1-4 indicate absence of systematic inflammation. However, increased pro-inflammatory cytokines content (IL-1 beta, IL-6, IL-17) in intestine of rats fed with cheese containing BGBU1-4, concomitantly with unchanged anti-inflammatory cytokines suggests disruption of gut homeostasis and inflammation in this tissue. The changes caused by BGBU1-4 are reversible, system returns into homeostasis seven days after cessation of feeding with cheese containing BGBU1-4.",
publisher = "Elsevier Sci Ltd, Oxford",
journal = "Food Control",
title = "Lactolisterin BU-producer Lactococcus lactis subsp. lactis BGBU1-4: Biocontrol of Listeria monocytogenes and Staphylocococcus aureus in fresh soft cheese and effect on immunological response of rats",
volume = "111",
doi = "10.1016/j.foodcont.2019.107076"
}

Mirković, N., Kulas, J., Miloradović, Z., Miljković, M., Tucović, D., Miocinović, J., Jovčić, B., Mirkov, I.,& Kojić, M.. (2020). Lactolisterin BU-producer Lactococcus lactis subsp. lactis BGBU1-4: Biocontrol of Listeria monocytogenes and Staphylocococcus aureus in fresh soft cheese and effect on immunological response of rats. in Food Control
Elsevier Sci Ltd, Oxford., 111.
https://doi.org/10.1016/j.foodcont.2019.107076

Mirković N, Kulas J, Miloradović Z, Miljković M, Tucović D, Miocinović J, Jovčić B, Mirkov I, Kojić M. Lactolisterin BU-producer Lactococcus lactis subsp. lactis BGBU1-4: Biocontrol of Listeria monocytogenes and Staphylocococcus aureus in fresh soft cheese and effect on immunological response of rats. in Food Control. 2020;111.
doi:10.1016/j.foodcont.2019.107076 .

Mirković, Nemanja, Kulas, Jelena, Miloradović, Zorana, Miljković, Marija, Tucović, Dina, Miocinović, Jelena, Jovčić, Branko, Mirkov, Ivana, Kojić, Milan, "Lactolisterin BU-producer Lactococcus lactis subsp. lactis BGBU1-4: Biocontrol of Listeria monocytogenes and Staphylocococcus aureus in fresh soft cheese and effect on immunological response of rats" in Food Control, 111 (2020),
https://doi.org/10.1016/j.foodcont.2019.107076 . .

TY  - JOUR
AU  - Kulas, Jelena
AU  - Mirkov, Ivana
AU  - Tucović, Dina
AU  - Zolotarevski, Lidija
AU  - Glamoclija, Jasmina
AU  - Veljović, Katarina
AU  - Tolinački, Maja
AU  - Golić, Nataša
AU  - Kataranovski, Milena
PY  - 2019
UR  - https://imagine.imgge.bg.ac.rs/handle/123456789/1299
AB  - Microbiota inhabiting mucosal tissues is involved in maintenance of their immune homeostasis. Growing body of evidence indicate that dysbiosis in gut influence immune responses at distal sites including lungs. There are also reports concerning gut involvement with pulmonary injury/inflammation in settings of respiratory viral and bacterial infections. The impact of infections with other microorganisms on gut homeostasis is not explored. In this study, the rat model of sublethal pulmonary infection with Aspergillus fumigants was used to investigate the effect of fungal respiratory infection on gut immune-mediated homeostasis. Signs of intestinal damage, intestinal and gut-draining lymphoid tissue cytokine responses and gut bacterial microbiota diversity were examined. Intestinal injury, inflammatory cell infiltration, as well as increased levels of intestinal interferon-gamma (IFN-gamma) and interleukin-17 (IL-17) (as opposed to unchanged levels of anti-inflammatory cytokine IL-10) during the two-week period depict intestinal inflammation in rats with pulmonary A. fumigates infection. It could not be ascribed to the fungus as it was not detected in the intestine of infected rats. Increased production of pro-inflammatory cytokines by major gut-draining mesenteric lymph nodes point to these lymphoid organs as places of generation of cytokine-producing cells. No changes in spleen or systemic cytokine responses was observed, showing lack of the effects of pulmonary A. fumigatus infection outside mucosal immune system. Drop of intestinal bacterial microbiota diversity (disappearance of several bacterial bands) was noted early in infection with normalization starting from day seven. From day three, appearance of new bacterial bands (unique to infected individuals, not present in controls) was seen, and some of them are pathogens. Alterations in intestinal bacterial community might have affected intestinal immune tolerance contributing to inflammation. Disruption of gut homeostasis during pulmonary infection might render gastrointestinal tract more susceptible to variety of physiological and pathological stimuli. Data which showed for the first time gut involvement with pulmonary infection with A. fumigatus provide the baseline for future studies of the impact of fungal lung infections to gut homeostasis, particularly in individuals susceptible to these infections.
PB  - Elsevier Gmbh, Munich
T2  - Immunobiology
T1  - Pulmonary Aspergillus fumigatus infection in rats affects gastrointestinal homeostasis
EP  - 123
IS  - 1
SP  - 116
VL  - 224
DO  - 10.1016/j.imbio.2018.10.001
ER  - 

@article{
author = "Kulas, Jelena and Mirkov, Ivana and Tucović, Dina and Zolotarevski, Lidija and Glamoclija, Jasmina and Veljović, Katarina and Tolinački, Maja and Golić, Nataša and Kataranovski, Milena",
year = "2019",
abstract = "Microbiota inhabiting mucosal tissues is involved in maintenance of their immune homeostasis. Growing body of evidence indicate that dysbiosis in gut influence immune responses at distal sites including lungs. There are also reports concerning gut involvement with pulmonary injury/inflammation in settings of respiratory viral and bacterial infections. The impact of infections with other microorganisms on gut homeostasis is not explored. In this study, the rat model of sublethal pulmonary infection with Aspergillus fumigants was used to investigate the effect of fungal respiratory infection on gut immune-mediated homeostasis. Signs of intestinal damage, intestinal and gut-draining lymphoid tissue cytokine responses and gut bacterial microbiota diversity were examined. Intestinal injury, inflammatory cell infiltration, as well as increased levels of intestinal interferon-gamma (IFN-gamma) and interleukin-17 (IL-17) (as opposed to unchanged levels of anti-inflammatory cytokine IL-10) during the two-week period depict intestinal inflammation in rats with pulmonary A. fumigates infection. It could not be ascribed to the fungus as it was not detected in the intestine of infected rats. Increased production of pro-inflammatory cytokines by major gut-draining mesenteric lymph nodes point to these lymphoid organs as places of generation of cytokine-producing cells. No changes in spleen or systemic cytokine responses was observed, showing lack of the effects of pulmonary A. fumigatus infection outside mucosal immune system. Drop of intestinal bacterial microbiota diversity (disappearance of several bacterial bands) was noted early in infection with normalization starting from day seven. From day three, appearance of new bacterial bands (unique to infected individuals, not present in controls) was seen, and some of them are pathogens. Alterations in intestinal bacterial community might have affected intestinal immune tolerance contributing to inflammation. Disruption of gut homeostasis during pulmonary infection might render gastrointestinal tract more susceptible to variety of physiological and pathological stimuli. Data which showed for the first time gut involvement with pulmonary infection with A. fumigatus provide the baseline for future studies of the impact of fungal lung infections to gut homeostasis, particularly in individuals susceptible to these infections.",
publisher = "Elsevier Gmbh, Munich",
journal = "Immunobiology",
title = "Pulmonary Aspergillus fumigatus infection in rats affects gastrointestinal homeostasis",
pages = "123-116",
number = "1",
volume = "224",
doi = "10.1016/j.imbio.2018.10.001"
}

Kulas, J., Mirkov, I., Tucović, D., Zolotarevski, L., Glamoclija, J., Veljović, K., Tolinački, M., Golić, N.,& Kataranovski, M.. (2019). Pulmonary Aspergillus fumigatus infection in rats affects gastrointestinal homeostasis. in Immunobiology
Elsevier Gmbh, Munich., 224(1), 116-123.
https://doi.org/10.1016/j.imbio.2018.10.001

Kulas J, Mirkov I, Tucović D, Zolotarevski L, Glamoclija J, Veljović K, Tolinački M, Golić N, Kataranovski M. Pulmonary Aspergillus fumigatus infection in rats affects gastrointestinal homeostasis. in Immunobiology. 2019;224(1):116-123.
doi:10.1016/j.imbio.2018.10.001 .

Kulas, Jelena, Mirkov, Ivana, Tucović, Dina, Zolotarevski, Lidija, Glamoclija, Jasmina, Veljović, Katarina, Tolinački, Maja, Golić, Nataša, Kataranovski, Milena, "Pulmonary Aspergillus fumigatus infection in rats affects gastrointestinal homeostasis" in Immunobiology, 224, no. 1 (2019):116-123,
https://doi.org/10.1016/j.imbio.2018.10.001 . .