Lymphotoxin-β-receptor (LTβR) signaling on hepatocytes is required for liver regeneration after partial hepatectomy.
Ursula R SorgNicole KüpperJulia MockAnne TersteegenPatrick PetzschKarl KöhrerThomas HehlgansKlaus PfefferPublished in: Biological chemistry (2021)
Lymphotoxin-β-receptor deficient (LTβR-/-) and Tumor Necrosis Factor Receptor p55 deficient (TNFRp55-/-) mice show defects in liver regeneration (LR) after partial hepatectomy (PHx) with significantly increased mortality. LTβR and TNFRp55 belong to the core members of the TNF/TNFR superfamily. Interestingly, combined failure of LTβR and TNFRp55 signaling after PHx leads to a complete defect in LR. Here, we first addressed the question which liver cell population crucially requires LTβR signaling for efficient LR. To this end, mice with a conditionally targeted LTβR allele (LTβRfl/fl) were crossed to AlbuminCre and LysozymeMCre mouse lines to unravel the function of the LTβR on hepatocytes and monocytes/macrophages/Kupffer cells, respectively. Analysis of these mouse lines clearly reveals that LTβR is required on hepatocytes for efficient LR while no deficit in LR was found in LTβRfl/fl × LysMCre mice. Second, the molecular basis for the cooperating role of LTβR and TNFRp55 signaling pathways in LR was investigated by transcriptome analysis of etanercept treated LTβR-/- (LTβR-/-/ET) mice. Bioinformatic analysis and subsequent verification by qRT-PCR identified novel target genes (Cyclin-L2, Fas-Binding factor 1, interferon-related developmental regulator 1, Leucyl-tRNA Synthetase 2, and galectin-4) that are upregulated by LTβR/TNFRp55 signaling after PHx and fail to be upregulated after PHx in LTβR-/-/ET mice.
Keyphrases
- cell proliferation
- pi k akt
- rheumatoid arthritis
- stem cells
- high fat diet induced
- gene expression
- signaling pathway
- immune response
- single cell
- drug delivery
- induced apoptosis
- cell cycle arrest
- coronary artery disease
- insulin resistance
- adipose tissue
- oxidative stress
- cell death
- mesenchymal stem cells
- binding protein
- risk factors
- cardiovascular disease
- transcription factor
- mass spectrometry
- epithelial mesenchymal transition
- soft tissue