Asymmetric cell division of hematopoietic stem cells: recent advances, emerging concepts, and future perspectives

Jessica Nunes, Dirk Loeffler
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Abstract

Hematopoietic stem cells (HSCs) can self-renew and differentiate for the entire life of an organism to produce new blood cells when needed. This process is regulated by asymmetric cell division (ACD), an evolutionarily conserved mechanism whereby cell fate determinants are unequally segregated into the daughter cells during division to instruct different cell fates. After many years of controversy, recent technical advances in microscopy, imaging, and bioinformatics make it now possible to visualize and quantify how factors segregate asymmetrically in dividing HSCs and lead to predictable changes in daughter cell fates many days later. While the molecular processes behind ACD in HSCs are still poorly understood, accumulating evidence suggests that lysosomes and other organelles, including mitochondria, autophagosomes, mitophagosomes, and recycling endosomes can segregate asymmetrically and act as cell fate determinants during divisions. Asymmetric segregation of lysosomes and mitochondria has been shown to predict mitochondrial activity, translation, and differentiation of HSC daughter cells and their offspring. This discovery and recent seminal findings show that lysosomes, once considered to be merely the trash bin of the cell, regulate many aspects of HSC biology and are crucial for the maintenance of quiescence and stem cell function. Here we provide a historical perspective and discuss the recent advances in our understanding of ACD and the role of lysosomes in HSC function. We discuss the limitations of past studies, talk about emerging concepts, and suggest critical next steps required to move the field forward.
造血干细胞的非对称细胞分裂:最新进展、新兴概念和未来展望
造血干细胞(HSCs)可在生物体的整个生命过程中自我更新和分化,以便在需要时产生新的血细胞。这一过程受不对称细胞分裂(ACD)调控,ACD是一种进化保守机制,细胞命运决定因子在分裂过程中不平等地分离到子细胞中,以指示不同的细胞命运。经过多年的争议,最近显微镜、成像和生物信息学方面的技术进步使人们现在有可能直观地观察和量化各种因素如何在分裂的造血干细胞中不对称地分离,并在多日后导致子细胞命运发生可预测的变化。虽然人们对造血干细胞非对称性分裂背后的分子过程仍然知之甚少,但越来越多的证据表明,溶酶体和其他细胞器(包括线粒体、自噬体、丝裂噬酶体和循环内体)可以非对称地分离,并在分裂过程中充当细胞命运的决定因素。研究表明,溶酶体和线粒体的非对称分离可预测线粒体活性、翻译以及造血干细胞子细胞及其后代的分化。这一发现和最近的开创性研究结果表明,溶酶体曾被认为只是细胞的垃圾桶,但它调节造血干细胞生物学的许多方面,对维持静止和干细胞功能至关重要。在此,我们从历史的角度出发,讨论了我们对ACD和溶酶体在造血干细胞功能中作用的理解的最新进展。我们讨论了过去研究的局限性,谈到了新出现的概念,并提出了推动该领域发展所需的关键性下一步措施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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