Novel Strategy for Strengthening Dermatoporotic Skin by Managing Cellular Senescence.

IF 1.5 4区 医学 Q3 DERMATOLOGY
Alan D Widgerow, Mary Ziegler, John A Garruto, Lucien Ionescu, Faiza Shafiq, Mathew Meckfessel, Edward Ted Lain, Glynis Ablon, Julie Harper, Anne Lynn Chang, Camille Howard-Verovic
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引用次数: 0

Abstract

Background: Dermatoporosis (DP) is a condition associated with thinning skin layers and resultant fragility. Much of the thinning is related to fibroblast dysfunction, production of destructive inflammatory cytokines, breakdown of the extracellular matrix (ECM), and weakening of the dermo-epidermal junction. A major contributor to this change in the ECM milieu, previously under-considered, is cellular senescence, particularly involving the papillary dermal fibroblasts.

Methods: A series of experiments were undertaken to explore the impact of a combination of known actives on senescent cell status. Human keratinocytes and fibroblasts were cultured, and cytotoxicity tests were performed to determine the ideal concentration to avoid cell toxicity. Microdoses of Centella asiatica (0.005%) and mandelic acid (0.05%) were found to be ideal in avoiding any cytotoxicity. However, the challenge was then to assess the efficacy of these actives in this microdosed form. After exposing the cells to the compounds, RNA was isolated and sequenced. Moreover, a well-described ex vivo model using photodamaged skin was subjected to immunofluorescence to identify senescent cells (via p16INK4a), particularly in the papillary dermis, using the microdose formulation compared to untreated skin. In addition, JAG/NOTCH expression in the epidermal basal cells was evaluated to further understand the cellular senescence signaling mechanism.

Results: Microdosing these two well-known agents had surprisingly significant synergistic effects in vitro, decreasing senescence-associated secretory phenotype (SASP) cytokines and the associated inflammation involved in the process. The ex vivo model revealed a significant (P<0.05) decrease in senescent cells in the papillary dermis and a significant increase (P<0.001) of JAG/NOTCH expression in the basal cells of the epidermis.

Conclusion: Using microdoses of two known agents, a novel approach produced an unexpected effect of reversal of dermal senescent cells and promoting an anti-inflammatory milieu. A gene expression analysis of the individual and combined actives validated these observations, followed by full formulation testing in an ex vivo model. The approach of limiting cellular senescence in dermal fibroblasts for managing DP is novel and provides an exciting new direction to address dermatoporosis. Clinical studies will follow. J Drugs Dermatol. 2024;23(9):748-756. doi:10.36849/JDD.8388.

通过管理细胞衰老强化皮肤病皮肤的新策略
背景:皮肤松弛症(DP)是一种与皮肤层变薄并导致脆弱有关的疾病。皮肤变薄在很大程度上与成纤维细胞功能障碍、破坏性炎症细胞因子的产生、细胞外基质(ECM)的破坏以及真皮-表皮交界处的削弱有关。细胞衰老是导致 ECM 环境发生这种变化的一个主要因素,但以前对其考虑不足,特别是涉及真皮乳头状成纤维细胞的衰老:我们进行了一系列实验,以探索已知活性物质组合对衰老细胞状态的影响。实验培养了人类角质细胞和成纤维细胞,并进行了细胞毒性测试,以确定避免细胞中毒的理想浓度。结果发现,积雪草(0.005%)和扁桃酸(0.05%)的微剂量在避免任何细胞毒性方面效果理想。不过,接下来的挑战是评估这些活性成分在这种微剂量形式下的功效。将细胞暴露于化合物后,对 RNA 进行了分离和测序。此外,我们还使用光损伤皮肤建立了一个描述详尽的体外模型,通过免疫荧光来识别衰老细胞(通过 p16INK4a),特别是在乳头状真皮层,使用微剂量制剂与未经处理的皮肤进行比较。此外,还评估了表皮基底细胞中 JAG/NOTCH 的表达情况,以进一步了解细胞衰老信号机制:结果:这两种知名药物的微剂量在体外具有令人惊讶的协同效应,可减少衰老相关分泌表型(SASP)细胞因子和衰老过程中的相关炎症。体内外模型显示,乳头状真皮中的衰老细胞显著减少(P<0.05),表皮基底细胞中的 JAG/NOTCH 表达显著增加(P<0.001):结论:使用两种已知制剂的微剂量,一种新方法产生了意想不到的效果,即逆转了真皮衰老细胞并促进了抗炎环境。对单个活性成分和组合活性成分的基因表达分析验证了这些观察结果,随后在体内外模型中进行了全面的配方测试。通过限制真皮成纤维细胞中的细胞衰老来管理皮肤病是一种新方法,它为解决皮肤病提供了一个令人兴奋的新方向。临床研究将随后进行。J Drugs Dermatol.2024;23(9):748-756. doi:10.36849/JDD.8388.
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来源期刊
CiteScore
2.20
自引率
13.30%
发文量
289
审稿时长
3-6 weeks
期刊介绍: The Journal of Drugs in Dermatology (JDD) is a peer-reviewed publication indexed with MEDLINE®/PubMed® that was founded by the renowned Dr. Perry Robins MD. Founded in 2002, it offers one of the fastest routes to disseminate dermatologic information and is considered the fastest growing publication in dermatology. We present original articles, award-winning case reports, and timely features pertaining to new methods, techniques, drug therapy, and devices in dermatology that provide readers with peer reviewed content of the utmost quality. Our high standards of content are maintained through a balanced, peer-review process. Articles are reviewed by an International Editorial Board of over 160 renowned experts.
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