Kupffer cell restoration after partial hepatectomy is mainly driven by local cell proliferation in IL-6-dependent autocrine and paracrine manners
Autor: | Fouad Lafdil, Dechun Feng, Yaojie Fu, Ruixue Ren, Juan Hidalgo, Robim Marcelino Rodrigues, Yukun Guan, Adrien Guillot, Cynthia Ju, Bin Gao, Yeni Ait Ahmed, Yong He |
---|---|
Přispěvatelé: | Pharmaceutical and Pharmacological Sciences, Experimental in vitro toxicology and dermato-cosmetology |
Jazyk: | angličtina |
Rok vydání: | 2021 |
Předmět: |
Kupffer Cells
Immunology Article Paracrine signalling Mice medicine Immunology and Allergy Animals Hepatectomy Autocrine signalling Cell Proliferation biology Sirtuin 1 Chemistry Cell growth Interleukin-6 Monocyte Kupffer cell Liver regeneration Cell biology Liver Regeneration Mice Inbred C57BL Infectious Diseases medicine.anatomical_structure Liver Hepatocyte biology.protein Hepatocytes |
Zdroj: | Cell Mol Immunol |
Popis: | Kupffer cells (KCs), which are liver-resident macrophages, originate from the fetal yolk sac and represent one of the largest macrophage populations in the body. However, the current data on the origin of the cells that restore macrophages during liver injury and regeneration remain controversial. Here, we address the question of whether liver macrophage restoration results from circulating monocyte infiltration or local KC proliferation in regenerating livers after partial hepatectomy (PHx) and uncover the underlying mechanisms. By using several strains of genetically modified mice and performing immunohistochemical analyses, we demonstrated that local KC proliferation mainly contributed to the restoration of liver macrophages after PHx. Peak KC proliferation was impaired in Il6-knockout (KO) mice and restored after the administration of IL-6 protein, whereas KC proliferation was not affected in Il4-KO or Csf2-KO mice. The source of IL-6 was identified using hepatocyte- and myeloid-specific Il6-KO mice and the results revealed that both hepatocytes and myeloid cells contribute to IL-6 production after PHx. Moreover, peak KC proliferation was also impaired in myeloid-specific Il6 receptor-KO mice after PHx, suggesting that IL-6 signaling directly promotes KC proliferation. Studies using several inhibitors to block the IL-6 signaling pathway revealed that sirtuin 1 (SIRT1) contributed to IL-6-mediated KC proliferation in vitro. Genetic deletion of the Sirt1 gene in myeloid cells, including KCs, impaired KC proliferation after PHx. In conclusion, our data suggest that KC repopulation after PHx is mainly driven by local KC proliferation, which is dependent on IL-6 and SIRT1 activation in KCs. |
Databáze: | OpenAIRE |
Externí odkaz: |