在生物材料、微流体技术和空间全息技术的结合点解码衰老单细胞的衰老。

IF 4.1 Q2 GERIATRICS & GERONTOLOGY
Abhijeet Venkataraman, Ivan Kordic, JiaXun Li, Nicholas Zhang, Nivik Sanjay Bharadwaj, Zhou Fang, Sandip Das, Ahmet F Coskun
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引用次数: 0

摘要

衰老对人体有着深远的影响,最明显的就是几种疾病的发病率增加。衰老的一个重要标志是衰老细胞的存在,它们不再正常繁殖或死亡。另一个特征是免疫系统发生改变,无法正常自我保护。在这个多方参与的衰老过程中,细胞衰老会诱导许多细胞的分泌表型发生改变,即衰老相关分泌表型(SASP),其目的是招募免疫细胞加速清除这些受损的衰老细胞。然而,SASP 表型的结果是诱发附近细胞的二次衰老,导致这些细胞变得衰老,并导致免疫激活不当,造成慢性炎症状态,在许多疾病中被称为炎症衰老(inflammaging)。免疫细胞的衰老被称为免疫衰老,会导致免疫系统进一步失调。需要一种跨学科的方法,在细胞和组织层面对免疫系统的衰老变化进行生理学评估。因此,生物材料、微流控技术和空间全息技术的交叉学科在共同模拟衰老和免疫衰老方面具有巨大的潜力。这些方法中的每一种都能模拟人体衰老过程中经历的独特方面。这一视角强调了生物材料如何为细胞衰老提供非细胞线索、微流控技术如何再现流动诱导的多细胞动力学以及空间全息分析如何剖析衰老的几种生物标志物的协调性等关键方面,它们是不同组织环境中细胞相互作用的函数。报告概述了衰老和免疫失调如何在器官衰老、癌症、伤口愈合、阿尔茨海默氏症和骨质疏松症中发挥作用。为了阐明衰老对社会的影响,该书讨论了抗衰老和抗衰老干预措施(包括药物干预、医疗程序和生活方式改变)日益增长的趋势,包括衰老的进一步背景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Decoding senescence of aging single cells at the nexus of biomaterials, microfluidics, and spatial omics.

Aging has profound effects on the body, most notably an increase in the prevalence of several diseases. An important aging hallmark is the presence of senescent cells that no longer multiply nor die off properly. Another characteristic is an altered immune system that fails to properly self-surveil. In this multi-player aging process, cellular senescence induces a change in the secretory phenotype, known as senescence-associated secretory phenotype (SASP), of many cells with the intention of recruiting immune cells to accelerate the clearance of these damaged senescent cells. However, the SASP phenotype results in inducing secondary senescence of nearby cells, resulting in those cells becoming senescent, and improper immune activation resulting in a state of chronic inflammation, called inflammaging, in many diseases. Senescence in immune cells, termed immunosenescence, results in further dysregulation of the immune system. An interdisciplinary approach is needed to physiologically assess aging changes of the immune system at the cellular and tissue level. Thus, the intersection of biomaterials, microfluidics, and spatial omics has great potential to collectively model aging and immunosenescence. Each of these approaches mimics unique aspects of the body undergoes as a part of aging. This perspective highlights the key aspects of how biomaterials provide non-cellular cues to cell aging, microfluidics recapitulate flow-induced and multi-cellular dynamics, and spatial omics analyses dissect the coordination of several biomarkers of senescence as a function of cell interactions in distinct tissue environments. An overview of how senescence and immune dysregulation play a role in organ aging, cancer, wound healing, Alzheimer's, and osteoporosis is included. To illuminate the societal impact of aging, an increasing trend in anti-senescence and anti-aging interventions, including pharmacological interventions, medical procedures, and lifestyle changes is discussed, including further context of senescence.

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CiteScore
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