Adiponectin receptor T-cadherin emerges as a novel regulator of adipose stem cell quiescence and adipogenesis
V. Yu Sysoeva, M. S. Arbatsky, K. Yu Kulebyakin, P. A. Tyurin-Kuzmin, E. V. Semina, P. S. Klimovich, I. B. Brodsky, D. D. Romashin, A. F. Altyeva, N. S. Voloshin, N. I. Kalinina, M. A. Vigovskiy, V. A. Tkachuk, K. A. Rubina

TL;DR
The study identifies T-cadherin as a key regulator of stem cell behavior in adipose tissue, influencing cell quiescence and fat formation.
Contribution
The novel role of T-cadherin in maintaining stem-like properties and suppressing adipogenesis in adipose stem cells is established.
Findings
T-cadherin-expressing cells form a distinct subpopulation with stem-like properties.
Overexpression of T-cadherin reduces proliferation and adipogenic differentiation in MSCs.
T-cadherin co-expresses with DPP4+ in early progenitor cells.
Abstract
The question of heterogeneity among adipose tissue cells and mesenchymal stem/stromal cells mesenchymal stem cells derived from white adipose tissue has long been a subject of interest. In our study, we conducted a comprehensive single-cell RNA-seq analysis on MSCs isolated from human subcutaneous adipose tissue and maintained under control conditions or upon adipogenic induction. Our findings unveiled a distinct subpopulation of T-cadherin expressing cells, which co-expressed Dipeptidyl peptidase–4 (DPP4+), a marker of multipotent progenitors in the adipose tissue. Moreover, T-cadherin co-expressed with DPP4+ in early progenitors both, in vivo and in vitro. While adipogenic induction resulted in overall T-cadherin decline, in both the control and differentiated samples, there existed cells with high T-cadherin concurrently expressing stemness-related genes. Pseudotemporal trajectories…
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Taxonomy
TopicsAdipokines, Inflammation, and Metabolic Diseases · Mesenchymal stem cell research · Muscle Physiology and Disorders
