Novel Strategy for Strengthening Dermatoporotic Skin by Managing Cellular Senescence

September 2024 | Volume 23 | Issue 9 | 748 | Copyright © September 2024


Published online September 1, 2024

doi:10.36849/JDD.8388

Alan D. Widgerow MBBCh MMed FCS FACSa,b, Mary Ziegler PhDa,b, John A. Garruto BSa, Lucien Ionescu BSa, Faiza Shafiq MBBS CCRPa, Mathew Meckfessel PhDa, Edward (Ted) Lain MD MBAg, Glynis Ablon MD FAADc, Julie Harper MDe, Anne Lynn Chang MD FAADd, Camille Howard-Verovic DO FAAD FACOFPf

aGalderma Laboratories, LP, Dallas, TX
bUniversity of California, Irvine, CA
cAblon Skin Institute & Research Center, Manhattan Beach, CA
dStanford Health Care, Medical Dermatology, Redwood City, CA
eThe Dermatology and Skin Care Center of Birmingham, Birmingham, AL
fActive Dermatology, New York, NY
gSanova Dermatology, Austin, TX

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

INTRODUCTION

Dermatoporosis (DP) is characterized by thin, aged, fragile skin.1 It occurs as part of intrinsic aging but can be hastened by extrinsic factors, such as photodamage, corticosteroid use, and genetic susceptibility. Skin atrophy is characterized by a breakdown of the extracellular matrix (ECM), a lack of support for cutaneous vasculature, and resultant vessel vulnerability.1-4 DP is especially noticeable on the forearms, dorsal hands, presternal area, scalp, and pretibial areas.3

Dermatoporosis shows early changes at approximately 40 years old but develops fully between 70 and 90 years.2 Dermal thinning is a predictor of a high risk of skin tears among elderly patients,5 and diminished hyaluronic acid (HA) levels are thought to play a part in dermatoporotic skin.1,2,6 

Cellular senescence is a less discussed phenomenon associated with dermal atrophy and skin thinning