Department of Clinical Biochemistry, University of Cambridge Metabolic Research Laboratories, Level 4, Institute of Metabolic Science, Box 289, Addenbrooke's Hospital, Cambridge CB20QQ, U.K.
Biochem J. 2010 Mar 15;427(1):1-17. doi: 10.1042/BJ20091866.
At the cellular level, the biological processes of cell proliferation, growth arrest, differentiation and apoptosis are all tightly coupled to appropriate alterations in metabolic status. In the case of cell proliferation, this requires redirecting metabolic pathways to provide the fuel and basic components for new cells. Ultimately, the successful co-ordination of cell-specific biology with cellular metabolism underscores multicellular processes as diverse as embryonic development, adult tissue remodelling and cancer cell biology. The Wnt signalling network has been implicated in all of these areas. While each of the Wnt-dependent signalling pathways are being individually delineated in a range of experimental systems, our understanding of how they integrate and regulate cellular metabolism is still in its infancy. In the present review we reassess the roles of Wnt signalling in functionally linking cellular metabolism to tissue development and function.
在细胞层面上,细胞增殖、生长停滞、分化和凋亡的生物学过程都与代谢状态的适当改变紧密相关。在细胞增殖的情况下,这需要重新引导代谢途径,为新细胞提供燃料和基本成分。最终,细胞特异性生物学与细胞代谢的成功协调强调了胚胎发育、成人组织重塑和癌细胞生物学等多种细胞过程。Wnt 信号网络与所有这些领域都有牵连。虽然在一系列实验系统中正在单独描绘每条依赖于 Wnt 的信号通路,但我们对它们如何整合和调节细胞代谢的理解仍处于起步阶段。在本综述中,我们重新评估了 Wnt 信号在将细胞代谢与组织发育和功能功能上进行链接的作用。