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Alterations of the pigmentation system in the aging process

Hee Young Kang, Jin Wook Lee, Federica Papaccio, Barbara Bellei, Mauro Picardo

2021Pigment Cell & Melanoma Research88 citationsDOIOpen Access PDF

Abstract

Human skin aging is a natural phenomenon that results from continuous exposure to intrinsic (time, genetic factors, hormones) as well as extrinsic factors (UV exposure, pollution, tobacco). In areas that are frequently exposed to the sun, photoaging blends with the process of intrinsic aging, resulting in an increased senescent cells number and consequently accelerating the aging process. The severity of photodamage depends on constitutional factors, including skin phototype (skin color, tanning capacity), intensity, and duration of sunlight/UV exposure. Aging affects nearly every aspect of cutaneous biology, including pigmentation. Clinically, the phenotype of age pigmented skin has a mottled, uneven color, primarily due to age spots, with or without hypopigmentation. Uneven pigmentation might be attributed to the hyperactivation of melanocytes, altered distribution of pigment, and turnover. In addition to direct damage to pigment-producing cells, photodamage alters the physiological crosstalk between keratinocytes, fibroblasts, endothelial cells, and melanocytes responsible for natural pigmentation homeostasis. Interestingly, age-independent diffuse expression of senescence-associated markers in the dermal and epidermal compartment is also associated with vitiligo, suggesting that premature senescence plays an important role in the pathology.

Topics & Concepts

HypopigmentationSenescenceSkin AgingPhotoagingVitiligoBiologyMelanocyteCell biologyMelaninAgeingPhenotypePigmentation disorderHuman skinMelanosomeImmunologyMelanomaDermatologyMedicineCancer researchGeneticsGenemelanin and skin pigmentationSkin Protection and AgingOlfactory and Sensory Function Studies
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