In this study, researchers reinforce knowledge about an age-related alteration in the synthesis of major proteins linked to the migratory and contractile functions of dermal human fibroblasts.
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Dermal fibroblasts orchestrate the synthesis and degradation of extracellular matrix components, which is crucial for skin homeostasis. Alterations in the expression of components such as collagens and enzymes can lead to reduced mechanical cutaneous tension and impaired skin wound healing during aging.
Researchers Françoise Boismal, Sandy Peltier, Sophie Ly ka so, Guillaume Chevreux, Loïse Blondel, Kévin Serror, Niclas Setterblab, Elina Zuelgaray, David Boccara, Maurice Mimoun, Christelle Guere, Armand Benssussan, Marie Dorr, Gallic Beauchef, Katell Vie, and Laurence Michel from Saint-Louis Hospital, Paris; Paris University, Paris Cité; Jacques-Monod Institute, Paris; and Clarins Laboratories, Pontoise, aimed to better understand the molecular alterations in fibroblasts during aging by comparing secretomic and proteomic signatures of fibroblasts from young (<35years) and aged (>55years) skin donors, in quiescence or TGF-stimulated conditions, using HLPC/MS.
Their research paper was published on the cover of Aging’s Volume 16, Issue 16, entitled, “Proteomic and secretomic comparison of young and aged dermal fibroblasts highlights cytoskeleton as a key component during aging.”
Dermal fibroblasts were obtained from healthy, sun-protected skin of young (<35 years) and aged (>55 years) healthy women undergoing breast reduction surgery. Peptides were loaded using an online preconcentration method and separated by chromatography. RNA extraction, reverse transcription, quantitative PCR, and blot quantification were performed, along with immunostaining on fibroblasts seeded on culture chamber slides.
To identify key molecules involved in the role of human dermal fibroblasts during wound healing and skin aging, a comparative analysis of the secretome and proteome of 12 fibroblast cultures, freshly isolated from young and mature skin, was conducted using HPLC/MS. This analysis was performed in both quiescence and TGF-β1-treated conditions, without senescence-inducing factors, as described in previously reported aging models. Importantly, the analyses were conducted in the absence of serum in the culture medium 24 hours before and during cell stimulation to avoid serum protein contamination in the secretomic and proteomic assays
This study revealed a significant decrease in fibroblast protein secretion with age, while cytoplasmic protein accumulation increased by over 60%. Proteins related to actin and ECM (extracellular matrix) organization were the two main categories altered during aging. An in-depth analysis of actin-related proteins highlighted the involvement of CFL1, CORO1C, the ARP2/3 complex, FLNB, and ACTC1 in cytoskeleton organization and fibroblast migration. These findings offer potential new targets to slow key features of skin aging.
“Our present data reinforce knowledge about an age-related alteration in the synthesis of major proteins linked to the migratory and contractile functions of dermal human fibroblasts.”
Read the full research paper, published in Aging.
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