We have continued to characterize factors involved in regulating melanocyte function in the skin.
The specific aims of this project include: (1) Identify and characterize factors that regulate melanocyte function;(2) Characterize trafficking mechanisms of melanosomal proteins and their disruption in pigmentary diseases;(3) Elucidate downstream effects of MC1R signaling by its agonists and antagonists;and (4) Characterize the regulation of melanocyte function by UV radiation. Regulation at the Subcellular Level - We have shown that TYR, TRP1 (now TYRP1) and TRP2 (now DCT) have distinct catalytic functions and interact within a complex in melanosomes. TYR has the critical catalytic function in melanogenesis, i.e. the hydroxylation of tyrosine to DOPA, but TYRP1 and DCT have important post-TYR functions that modify the type of melanins synthesized. Those post-TYR reactions not only optimize the physical characteristics of melanins produced and maximize their photoprotective benefits, but they also minimize the inherent cytotoxicity of melanogenic precursors and their by-products. Mutations in the genes encoding TYRP1 or DCT often result in premature melanocyte death, presumably from cytotoxic intermediates. We have characterized the sorting signals, processing and trafficking pathways of all 3 TRPs as well as the structural proteins involved in melanosome maturation. We have shown that Pmel17/gp100 (and its chaperone MART1) plays an important role in the maturation of vesicular Stage I melanosomes to the fibrillar Stage II form. That transition is essential to the subsequent targeting and delivery of melanogenic enzymes to melanosomes and is required for melanin synthesis and deposition to occur. We have shown that Pmel17 undergoes an extremely complex series of glycosylations and can traffic via a number of distinct sorting pathways to reach melanosomes (and other subcellular compartments). Our studies have shown that the Pro-Ser-Thr rich repeat domain of Pmel17 (called RPT) is essential for the formation of fibrils;although deletion of the RPT domain does not affect Pmel17 trafficking, fibril formation is disrupted. Mutations in Pmel17 can be quite toxic and in mice the gene is called silver because follicular melanocytes die and the hair becomes prematurely gray. Regulation at the Cellular Level - Factors such as UV, DKK1, MSH and ASP, regulate the quantity and quality of melanins produced in the skin by melanocytes. We have detailed molecular changes in gene expression, and mechanisms involved in those changes, which occur in response to various physiological stimuli. The G-protein coupled melanocortin receptor 1 (MC1R) is regulated by its agonist MSH and antagonist ASP. Those interactions regulate skin and hair color, as well as responses to the environment. Our research on MC1R has involved characterizing: (1) MC1R genotype and melanocyte phenotype, (2) mechanisms involved with MC1R activation or inhibition by MSH or ASP, (3) downstream events that regulate MC1R function in determining melanocyte differentiation, and (4) the involvement of MC1R function in responses of melanocytes to other physiological stimuli, such as UV. The switch to produce yellow/red pheomelanin or black/brown eumelanin is under the control of the MC1R and its ligands. We have also elucidated the involvement of dynein and spectrin with the molecular motors required to move melanosomes from the perinuclear area of melanocytes to the peripheral dendrites, which is critical for their eventual transfer to keratinocytes. Our recent microarray studies have characterized the changes in gene expression patterns elicited by ASP or MSH in a time-dependent manner, which has revealed the wide range of genes affected by MC1R function, including those involved in development, migration and other non-pigmentary functions. Regulation at the Tissue Level - We have also characterized the influence of dermal fibroblasts on skin pigmentation. Melanocyte density and pigmentation in palmoplantar human skin (i.e. skin on the palms and soles) is 5X less than that found elsewhere on the body (i.e. non-palmoplantar skin). We have shown that fibroblasts derived from palmoplantar skin significantly suppress the growth and pigmentation of melanocytes compared with non-palmoplantar fibroblasts, and that this is due to their secretion of DKK1, an inhibitor of canonical Wnt signaling. We demonstrated that DKK1 dramatically inhibits melanocyte function, probably through beta-catenin-mediated regulation of MITF which in turn modulates the growth and differentiation of melanocytes. These results explain why skin on the palms and soles is hypopigmented compared with other areas of the body, and might explain why melanocytes stop migrating in palmoplantar areas during embryogenesis. Treatment of keratinocytes with DKK1 increases their proliferation and decreases their melanin uptake, whereas treatment of melanocytes with DKK1 decreases their growth and differentiation. In sum, our studies have elucidated why human skin is thicker and paler on the palms and soles than on the trunk through topographical/site-specific differences in DKK1 secretion by dermal fibroblasts which affects the overlying epidermis.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Investigator-Initiated Intramural Research Projects (ZIA)
Project #
1ZIABC010786-03
Application #
7965660
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
3
Fiscal Year
2009
Total Cost
$414,252
Indirect Cost
Name
National Cancer Institute Division of Basic Sciences
Department
Type
DUNS #
City
State
Country
Zip Code
Coelho, Sergio G; Valencia, Julio C; Yin, Lanlan et al. (2015) UV exposure modulates hemidesmosome plasticity, contributing to long-term pigmentation in human skin. J Pathol 236:17-29
Choi, Wonseon; Kolbe, Ludger; Hearing, Vincent J (2012) Characterization of the bioactive motif of neuregulin-1, a fibroblast-derived paracrine factor that regulates the constitutive color and the function of melanocytes in human skin. Pigment Cell Melanoma Res 25:477-81
Kawaguchi, Masakazu; Valencia, Julio C; Namiki, Takeshi et al. (2012) Diacylglycerol kinase regulates tyrosinase expression and function in human melanocytes. J Invest Dermatol 132:2791-9
Kondo, Taisuke; Hearing, Vincent J (2011) Update on the regulation of mammalian melanocyte function and skin pigmentation. Expert Rev Dermatol 6:97-108
Choi, Wonseon; Wolber, Rainer; Gerwat, Wolfram et al. (2010) The fibroblast-derived paracrine factor neuregulin-1 has a novel role in regulating the constitutive color and melanocyte function in human skin. J Cell Sci 123:3102-11
Randhawa, Manpreet; Huff, Tom; Valencia, Julio C et al. (2009) Evidence for the ectopic synthesis of melanin in human adipose tissue. FASEB J 23:835-43
Yamaguchi, Yuji; Hearing, Vincent J (2009) Physiological factors that regulate skin pigmentation. Biofactors 35:193-9
Sánchez-Laorden, Berta L; Herraiz, Cecilia; Valencia, Julio C et al. (2009) Aberrant trafficking of human melanocortin 1 receptor variants associated with red hair and skin cancer: Steady-state retention of mutant forms in the proximal golgi. J Cell Physiol 220:640-54
Ando, Hideya; Ichihashi, Masamitsu; Hearing, Vincent J (2009) Role of the ubiquitin proteasome system in regulating skin pigmentation. Int J Mol Sci 10:4428-34
Plonka, P M; Passeron, T; Brenner, M et al. (2009) What are melanocytes really doing all day long...? Exp Dermatol 18:799-819

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