Organotypic human skin culture models constructed with senescent fibroblasts show hallmarks of skin aging.

IF 5.4 Q1 GERIATRICS & GERONTOLOGY NPJ Aging and Mechanisms of Disease Pub Date : 2020-03-06 eCollection Date: 2020-01-01 DOI:10.1038/s41514-020-0042-x
Regina Weinmüllner, Barbara Zbiral, Adnan Becirovic, Elena Maria Stelzer, Fabian Nagelreiter, Markus Schosserer, Ingo Lämmermann, Lisa Liendl, Magdalena Lang, Lucia Terlecki-Zaniewicz, Orestis Andriotis, Michael Mildner, Bahar Golabi, Petra Waidhofer-Söllner, Karl Schedle, Gerhard Emsenhuber, Philipp J Thurner, Erwin Tschachler, Florian Gruber, Johannes Grillari
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引用次数: 39

Abstract

Skin aging is driven by intrinsic and extrinsic factors impacting on skin functionality with progressive age. One factor of this multifaceted process is cellular senescence, as it has recently been identified to contribute to a declining tissue functionality in old age. In the skin, senescent cells have been found to markedly accumulate with age, and thus might impact directly on skin characteristics. Especially the switch from young, extracellular matrix-building fibroblasts to a senescence-associated secretory phenotype (SASP) could alter the microenvironment in the skin drastically and therefore promote skin aging. In order to study the influence of senescence in human skin, 3D organotypic cultures are a well-suited model system. However, only few "aged" skin- equivalent (SE) models are available, requiring complex and long-term experimental setups. Here, we adapted a previously published full-thickness SE model by seeding increasing ratios of stress-induced premature senescent versus normal fibroblasts into the collagen matrix, terming these SE "senoskin". Immunohistochemistry stainings revealed a shift in the balance between proliferation (Ki67) and differentiation (Keratin 10 and Filaggrin) of keratinocytes within our senoskin equivalents, as well as partial impairment of skin barrier function and changed surface properties. Monitoring of cytokine levels of known SASP factors confirmedly showed an upregulation in 2D cultures of senescent cells and at the time of seeding into the skin equivalent. Surprisingly, we find a blunted response of cytokines in the senoskin equivalent over time during 3D differentiation.

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用衰老成纤维细胞构建的器官型人皮肤培养模型显示皮肤老化的特征。
随着年龄的增长,皮肤老化是由影响皮肤功能的内在和外在因素驱动的。这个多方面的过程的一个因素是细胞衰老,因为它最近被确定有助于在老年组织功能下降。在皮肤中,衰老细胞随着年龄的增长而显著积累,因此可能直接影响皮肤特征。特别是从年轻的细胞外基质构建成纤维细胞到衰老相关分泌表型(SASP)的转换可以急剧改变皮肤微环境,从而促进皮肤衰老。为了研究衰老对人体皮肤的影响,三维器官型培养是一个非常合适的模型系统。然而,只有少数“老化”皮肤等效(SE)模型可用,需要复杂和长期的实验设置。在这里,我们采用了先前发表的全层SE模型,将应力诱导的早衰成纤维细胞与正常成纤维细胞的比例增加,并将这些SE称为“senoskin”。免疫组织化学染色显示,在我们的sensenskin等量物中,角化细胞的增殖(Ki67)和分化(角蛋白10和聚丝蛋白)之间的平衡发生了变化,皮肤屏障功能的部分损伤和表面特性的改变。对已知SASP因子的细胞因子水平的监测证实,在衰老细胞的2D培养和播种到皮肤等效细胞时,细胞因子水平出现上调。令人惊讶的是,我们发现随着时间的推移,sensenskin等量细胞因子在3D分化过程中反应迟钝。
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NPJ Aging and Mechanisms of Disease
NPJ Aging and Mechanisms of Disease Medicine-Geriatrics and Gerontology
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8 weeks
期刊介绍: npj Aging and Mechanisms of Disease is an online open access journal that provides a forum for the world’s most important research in the fields of aging and aging-related disease. The journal publishes papers from all relevant disciplines, encouraging those that shed light on the mechanisms behind aging and the associated diseases. The journal’s scope includes, but is not restricted to, the following areas (not listed in order of preference): • cellular and molecular mechanisms of aging and aging-related diseases • interventions to affect the process of aging and longevity • homeostatic regulation and aging • age-associated complications • translational research into prevention and treatment of aging-related diseases • mechanistic bases for epidemiological aspects of aging-related disease.
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