Intrahepatic microbes govern liver immunity by programming NKT cells
Joshua C. Leinwand, Bidisha Paul, Ruonan Chen, Fangxi Xu, Maria A. Sierra, Madan M. Paluru, Sumant Nanduri, Carolina G. Alcantara, Sorin A.A. Shadaloey, Fan Yang, Salma A. Adam, Qianhao Li, Michelle Bandel, Inderdeep Gakhal, Lara Appiah, Yuqi Guo, Mridula Vardhan, Zia Flaminio, Emilie R. Grodman, Ari Mermelstein, Wei Wang, Brian Diskin, Berk Aykut, Mohammad Khan, Gregor Werba, Smruti Pushalkar, Mia McKinstry, Zachary Kluger, Jaimie J. Park, Brandon Hsieh, Kristen Dancel-Manning, Feng-Xia Liang, James S. Park, Anjana Saxena, Xin Li, Neil D. Theise, Deepak Saxena, George Miller
Joshua C. Leinwand, Bidisha Paul, Ruonan Chen, Fangxi Xu, Maria A. Sierra, Madan M. Paluru, Sumant Nanduri, Carolina G. Alcantara, Sorin A.A. Shadaloey, Fan Yang, Salma A. Adam, Qianhao Li, Michelle Bandel, Inderdeep Gakhal, Lara Appiah, Yuqi Guo, Mridula Vardhan, Zia Flaminio, Emilie R. Grodman, Ari Mermelstein, Wei Wang, Brian Diskin, Berk Aykut, Mohammad Khan, Gregor Werba, Smruti Pushalkar, Mia McKinstry, Zachary Kluger, Jaimie J. Park, Brandon Hsieh, Kristen Dancel-Manning, Feng-Xia Liang, James S. Park, Anjana Saxena, Xin Li, Neil D. Theise, Deepak Saxena, George Miller
View: Text | PDF
Research Article Hepatology Microbiology

Intrahepatic microbes govern liver immunity by programming NKT cells

Abstract

The gut microbiome shapes local and systemic immunity. The liver is presumed to be a protected sterile site. As such, a hepatic microbiome has not been examined. Here, we showed a liver microbiome in mice and humans that is distinct from that of the gut and is enriched in Proteobacteria. It undergoes dynamic alterations with age and is influenced by the environment and host physiology. Fecal microbial transfer experiments revealed that the liver microbiome is populated from the gut in a highly selective manner. Hepatic immunity is dependent on the microbiome, specifically the bacteroidetes species. Targeting bacteroidetes with oral antibiotics reduced hepatic immune cells by approximately 90%, prevented antigen-presenting cell (APC) maturation, and mitigated adaptive immunity. Mechanistically, our findings are consistent with presentation of bacteroidetes-derived glycosphingolipids to NKT cells promoting CCL5 signaling, which drives hepatic leukocyte expansion and activation, among other possible host-microbe interactions. Collectively, we reveal a microbial/glycosphingolipid/NKT/CCL5 axis that underlies hepatic immunity.

Authors

Joshua C. Leinwand, Bidisha Paul, Ruonan Chen, Fangxi Xu, Maria A. Sierra, Madan M. Paluru, Sumant Nanduri, Carolina G. Alcantara, Sorin A.A. Shadaloey, Fan Yang, Salma A. Adam, Qianhao Li, Michelle Bandel, Inderdeep Gakhal, Lara Appiah, Yuqi Guo, Mridula Vardhan, Zia Flaminio, Emilie R. Grodman, Ari Mermelstein, Wei Wang, Brian Diskin, Berk Aykut, Mohammad Khan, Gregor Werba, Smruti Pushalkar, Mia McKinstry, Zachary Kluger, Jaimie J. Park, Brandon Hsieh, Kristen Dancel-Manning, Feng-Xia Liang, James S. Park, Anjana Saxena, Xin Li, Neil D. Theise, Deepak Saxena, George Miller

×

Figure 5

Antibiotic administration selectively modulates the bacterial composition of the liver microbiome.

Options: View larger image (or click on image) Download as PowerPoint
Antibiotic administration selectively modulates the bacterial compositio...
(A) Hepatic bacterial DNA content was comparatively analyzed by qPCR in cohorts of 6-week-old female mice treated with broad-spectrum antibiotics or vehicle. n = 5/group. (B) The intrahepatic microbiome was compared in the liver of mice treated with broad-spectrum antibiotics (Abx) or vehicle (Ctl) by 16S FISH. Representative images and quantitative results are shown. n = 5/group. Scale bars: 20 μm. (C) Gut bacterial DNA content was comparatively analyzed by qPCR in cohorts of 6-week-old female mice treated with broad-spectrum antibiotics or vehicle. n = 5/group. **P < 0.01. (D) Cladogram showing changes in abundance of microbes across the entire taxonomic hierarchy in the liver of mice treated with broad-spectrum antibiotics. (E) Taxonomic composition of microbiota assigned to phylum level in the liver of mice treated with broad-spectrum antibiotics or vehicle determined by 16S rRNA-Seq. n = 5/group. ***P < 0.001. (F) Taxonomic composition of microbiota assigned to phylum level in the liver of mice treated with selective antibiotics or vehicle determined by 16S rRNA-Seq. n = 5/group. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001. (G) Weighted PCoA plots of hepatic microbial communities based on Bray-Curtis dissimilarity matrix. Each symbol represents a sample from the liver microbiome of a mouse treated with broad-spectrum or selective antibiotics or vehicle. Clusters were determined by pairwise PERMANOVA. The x and y axes indicate percentage of variation, and ellipses indicate 95% CI. (H) The liver microbiomes in mice treated with broad-spectrum or selective antibiotics were analyzed for α-diversity measures compared with mice treated with vehicle. n = 5/group. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.