Lineage‐tracing Reveals Multiple Roles of Tcf21 Lineage Cells in the Development and Expansion of Visceral Adipose Tissue

Abstract

The specific correlation between visceral adipose tissue (VAT) and insulin resistance makes VAT a potential target for treating type 2 diabetes. Recent studies have shown that Tcf21, a basic helix-loop-helix transcription factor, is expressed in VAT but not in subcutaneous AT (SAT). Thus, we hypothesized that cells expressing Tcf21 played a critical role in VAT. Using tamoxifen-inducible Tcf21 lineage-tracing mouse lines, we identified that Tcf21 was exclusively expressed in progenitor cells in VAT but not those in SAT. Lineage-tracing showed that most Tcf21 lineage progenitor cells also express Pdgfra, a marker of mesenchymal stem cell. Tcf21 expression was abolished upon adipogenic differentiation. Tcf21 lineage-tracing induced at embryonic day 11.2 (E11.5) revealed that progenitor cells of Tcf21 lineage give rise to all visceral adipocytes. Tamoxifen treatment during postnatal days 2-4 (P2-4) lineage-traced ~40% adipocytes in epididymal VAT (eVAT) at weaning, indicating high adipogenic activity in VAT during the neonatal stage. EdU assay showed that Tcf21 lineage-traced cells actively proliferated during the first 2 weeks after birth followed by a phase of robust adipogenic differentiation between P14 and P21. Tcf21 lineage-tracing induced at 6 weeks of age only labeled less than 1% of adipocytes in eVAT of mice after 12 weeks of high-fat diet (HFD) treatment regardless of a significant expansion of Tcf21 lineage-traced cells, indicating that Tcf21 lineage cells in adult mice were less adipogenic in vivo. In addition, it was found Tcf21 lineage cells also gave rise to a small portion of vascular smooth muscle cells (VSMCs). However, these cells lacked the expression of PDGFRα. RNA-seq analysis of Tcf21 lineage-traced PDGFRα+ cells isolated from mice at different developmental and growth stages showed distinct gene expression profiles. Proliferation genes were highly active in Tcf21 lineage cells at P12, while genes associated with adipogenic differentiation were more active at P12 and P21. Interestingly, some inflammatory genes that are commonly expressed in inflammatory cells were highly enriched in Tcf21 lineage cells isolated from mice after long-term HFD treatment. Single-cell RNA-seq of Tcf21 lineage-traced cells isolated from mice of different ages showed that the gene expression of individual cells became increasingly diverse as the age of the mice increased. Single-cell RNA-seq analysis confirmed the presence of a small subpopulation of Tcf21 lineage-traced VSMCs as well as a Tcf21 lineage-traced inflammatory cell subpopulation that was exclusive to HFD-treated mice. IHC staining showed that Tcf21 lineage-traced inflammatory cells were located in crown-like structures and might play a role in inflammation and phagocytosis. Several additional subpopulations of Tcf21 lineage-traced cells were also identified and are currently being investigated. Our study clearly showed the critical roles of Tcf21 lineage cells in the growth and development of VAT as well as in the development of VAT inflammation in obese mice.