Abd-Rabou Ahmed A
Hormones Department (Cancer Biology and Nano-Drug Delivery Group), Medical Research Division, National Research Center, Cairo, 12622 Egypt.
Center for Aging and Associated Diseases, Zewail City of Science and Technology, 6th of October, Egypt.
Indian J Clin Biochem. 2017 Mar;32(1):9-18. doi: 10.1007/s12291-016-0562-0. Epub 2016 Mar 30.
The story of the cell commonder, calcium, reaches into all corners of the cell and controls cell proliferation, differentiation, function, and even death. The calcium-driven eukaryotic revolution is one of the great turning points in the life history, happened about two billion years later when it was converted from a dangerous killer that had to be kept out of cell into the cell master which drives the cell. This review article will take the readers to a tour of tissues chosen to best show the calcium's many faces (proliferator, differentiator, and killer). The reader will first see calcium and its many helpers, such as the calcium-binding signaler protein calmodulin, directing the key events of the cell cycle. Then the tour will move onto the colon to show calcium driving the proliferation of progenitor cells, then the differentiation and ultimately the programmed death of their progeny. Moreover, the reader will learn of the striking disabling and bypassing of calcium-dependent control mechanisms during carcinogenesis. Finally, recommendations should be taken from the underlying mechanisms through which calcium masters the presistance, progression, and even apoptosis of colorectal cancer cells. Thus, this could be of great interest for designing of chemoprevention protocols.
细胞指挥官钙的故事贯穿细胞的各个角落,控制着细胞的增殖、分化、功能,甚至死亡。钙驱动的真核生物革命是生命史上的重大转折点之一,大约在20亿年后发生,当时它从一个必须被阻挡在细胞外的危险杀手转变为驱动细胞的细胞主宰。这篇综述文章将带领读者参观一些组织,这些组织能最好地展现钙的多面性(增殖者、分化者和杀手)。读者将首先看到钙及其众多帮手,比如钙结合信号蛋白钙调蛋白,如何指挥细胞周期的关键事件。接着,参观将转向结肠,展示钙如何驱动祖细胞的增殖,然后是其后代的分化以及最终的程序性死亡。此外,读者还将了解到在致癌过程中钙依赖控制机制惊人的失效和绕过情况。最后,应从钙掌控结肠癌细胞的耐药性、进展甚至凋亡的潜在机制中得出建议。因此,这对于设计化学预防方案可能具有极大的意义。