Je Kyung Seong

Oct 28, 2024 | nature.com | Sehyun Chae |Yeonho Son |Daehee Hwang |Yun-Hee Lee |Je Kyung Seong |Ye-jin Moon | +3 more

PDGFRA+ cells have been identified as adipocyte stem cells (ASCs) that differentiate into beige adipocytes in white adipose tissue (WAT) following thermogenic stimuli. To elucidate the molecular heterogeneity of ASCs, we conducted single-cell transcriptomic profiling of PDGFRA+ cells isolated from the inguinal WAT (iWAT) of mice treated with the beta3 adrenergic receptor agonist CL316243. Single-cell RNA-seq revealed nine major clusters, which were categorized into four groups: resting, proliferating, differentiating, and adipogenic factor-expressing cells (AFECs). Trajectory analysis revealed sequential activation of molecular pathways, including the Hedgehog and Notch signaling pathways, during beige adipogenesis. AFECs expressed Dpp4 and did not differentiate into adipocytes in culture or after transplantation. Furthermore, genetic lineage tracing studies indicated that DPP4+ cells did not differentiate into adipocytes in iWAT during CL316243-induced beige adipogenesis. However, high-fat diet feeding led to the recruitment of adipocytes from DPP4+ cells in iWAT. Overall, this study improved our understanding of the dynamic molecular basis of beige adipogenesis and the potential contribution of DPP4+ adipocyte lineages to the pathological expansion of WAT during diet-induced obesity. This research examines beige adipogenesis, or the creation of ‘beige’ fat cells that burn energy and could help fight obesity. The scientists discovered a group of cells, identifed by specific markers PDGFRA and DPP4, which serve as a source for beige adipogenesis but don’t turn into beige fat cells themselves. They also found that these cells can change to become fat cells under certain situations, like a high-fat diet. The study also showed that the Hedgehog and Notch signaling pathways are vital in the transformation of PDGFRA+ cells into beige fat cells. These discoveries could be important for developing anti-obesity therapeutics. This summary was initially drafted using artificial intelligence, then revised and fact-checked by the author.

Mar 29, 2024 | nature.com | Cheoljun Choi |Yujin Jeong |Sumin Lee |Garam Choi |Je Kyung Seong |Sik Namgoong | +8 more

AbstractAdipose tissue (AT) adapts to overnutrition in a complex process, wherein specialized immune cells remove and replace dysfunctional and stressed adipocytes with new fat cells. Among immune cells recruited to AT, lipid-associated macrophages (LAMs) have emerged as key players in obesity and in diseases involving lipid stress and inflammation.