UVA Exposure Combined with Glycation of the Dermis Are Two Catalysts for Skin Aging and Promotes a Favorable Environment to the Appearance of Elastosis.

IF 1.6 Q4 GERIATRICS & GERONTOLOGY Journal of Aging Research Pub Date : 2021-10-26 eCollection Date: 2021-01-01 DOI:10.1155/2021/6647773
Hervé Pageon, Hélène Zucchi, Sylvie Ricois, Philippe Bastien, Daniel Asselineau
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引用次数: 6

Abstract

Skin aging is the result of superimposed intrinsic (individual) and extrinsic (e.g., UV exposure or nutrition) aging. Previous works have reported a relationship between UV irradiation and glycation in the aging process, leading, for example, to modified radical species production and the appearance of AGEs (advanced glycosylation end products) in increasing quantities, particularly glycoxidation products like pentosidine. In addition, the colocalization of AGEs and elastosis has also been observed. We first investigated the combination of the glycation reaction and UVA effects on a reconstructed skin model to explain their cumulative biological effect. We found that UVA exposure combined with glycation had the ability to intensify the response for specific markers: for example, MMP1 or MMP3 mRNA, proteases involved in extracellular matrix degradation, or proinflammatory cytokine, IL1α, protein expression. Moreover, the association of glycation and UVA irradiation is believed to promote an environment that favors the onset of an elastotic-like phenomenon: mRNA coding for elastin, elastase, and tropoelastin expression is increased. Secondly, because the damaging effects of UV radiation in vivo might be more detrimental in aged skin than in young skin due to increased accumulation of pentosidine and the exacerbation of alterations related to chronological aging, we studied the biological effect of soluble pentosidine in fibroblasts grown in monolayers. We found that pentosidine induced upregulation of CXCL2, IL8, and MMP12 mRNA expression (inflammatory and elastotic markers, respectively). Tropoelastin protein expression (elastin precursor) was also increased. In conclusion, fibroblasts in monolayers cultured with soluble pentosidine and tridimensional in vitro skin constructs exposed to the combination of AGEs and UVA promote an inflammatory state and an alteration of the dermal compartment in relation to an elastosis-like environment.

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UVA暴露与真皮糖基化是皮肤老化的两种催化剂,促进了弹性形成的有利环境。
皮肤老化是内在(个体)和外在(如紫外线照射或营养)老化叠加的结果。先前的研究报道了紫外线照射与衰老过程中糖基化之间的关系,例如,导致修饰自由基的产生和AGEs(晚期糖基化终产物)的出现,特别是糖氧化产物如戊苷。此外,还观察到AGEs和弹性现象的共定位。我们首先研究了糖基化反应和UVA对重建皮肤模型的影响,以解释它们的累积生物学效应。我们发现UVA暴露与糖基化结合能够增强对特定标记物的反应:例如,MMP1或MMP3 mRNA,参与细胞外基质降解的蛋白酶,或促炎细胞因子IL1α,蛋白质表达。此外,糖基化和UVA照射的关联被认为促进了有利于弹性样现象发生的环境:编码弹性蛋白、弹性蛋白酶和对弹性蛋白的mRNA表达增加。其次,由于体内紫外线辐射对衰老皮肤的破坏作用可能比年轻皮肤更有害,因为戊苷的积累增加,与时间衰老相关的改变加剧,我们研究了可溶性戊苷在单层生长的成纤维细胞中的生物学效应。我们发现,戊苷诱导CXCL2、IL8和MMP12 mRNA表达上调(分别是炎症和弹性标志物)。弹力蛋白(弹力蛋白前体)表达也增加。综上所述,用可溶性戊苷培养的单层成纤维细胞和体外三维皮肤结构暴露于AGEs和UVA的联合作用下,可促进炎症状态和与弹性样环境相关的真皮室的改变。
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来源期刊
Journal of Aging Research
Journal of Aging Research Medicine-Geriatrics and Gerontology
CiteScore
5.40
自引率
0.00%
发文量
11
审稿时长
30 weeks
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