Hwang Youngmin, Shimamura Yuko, Tanaka Junichi, Miura Akihiro, Sawada Anri, Sarmah Hemanta, Shimizu Dai, Kondo Yuri, Lee Hyeonjeong, Martini Francesca, Ninish Zurab, Yan Kelley S, Yamada Kazuhiko, Mori Munemasa
Columbia Center for Human Development (CCHD), Columbia University Irving Medical Center, New York, NY, United States.
Department of Medicine, Division of Digestive and Liver Diseases, Columbia University Irving Medical Center, New York, NY, United States.
Front Cell Dev Biol. 2024 Sep 23;12:1387237. doi: 10.3389/fcell.2024.1387237. eCollection 2024.
Mesothelial cells, in the outermost layer of internal organs, are essential for both organ development and homeostasis. Although the parietal mesothelial cell is the primary origin of mesothelioma that may highjack developmental signaling, the signaling pathways that orchestrate developing parietal mesothelial progenitor cell (MPC) behaviors, such as MPC pool expansion, maturation, and differentiation, are poorly understood. To address it, we established a robust protocol for culturing WT1 MPCs isolated from developing pig and mouse parietal thorax. Quantitative qPCR and immunostaining analyses revealed that BMP4 facilitated MPC differentiation into smooth muscle cells (SMCs). In contrast, FGF2 significantly promoted MPC progenitor pool expansion but blocked the SMC differentiation. BMP4 and FGF2 counterbalanced these effects, but FGF2 had the dominant impact in the long-term culture. A Wnt activator, CHIR99021, was pivotal in MPC maturation to CALB2 mesothelial cells, while BMP4 or FGF2 was limited. Our results demonstrated central pathways critical for mesothelial cell behaviors.
间皮细胞位于内脏器官的最外层,对器官发育和内环境稳态都至关重要。虽然壁层间皮细胞是可能劫持发育信号的间皮瘤的主要起源,但协调发育中的壁层间皮祖细胞(MPC)行为(如MPC池扩张、成熟和分化)的信号通路却知之甚少。为了解决这个问题,我们建立了一个强大的方案来培养从发育中的猪和小鼠胸壁分离的WT1 MPC。定量qPCR和免疫染色分析表明,BMP4促进MPC分化为平滑肌细胞(SMC)。相反,FGF2显著促进MPC祖细胞池扩张,但阻断SMC分化。BMP4和FGF2相互抵消了这些作用,但在长期培养中FGF2的影响占主导地位。一种Wnt激活剂CHIR99021在MPC成熟为CALB2间皮细胞过程中起关键作用,而BMP4或FGF2的作用有限。我们的结果证明了对间皮细胞行为至关重要的核心通路。
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