James Cornelius scite author profile

UV radiation is an important etiologic factor for skin cancer, including melanoma. Constitutive pigmentation and the ability to tan are considered the main photoprotective mechanism against sun-induced carcinogenesis. Pigmentation in the skin is conferred by epidermal melanocytes that synthesize and transfer melanin to keratinocytes. Therefore, insuring the survival and genomic stability of epidermal melanocytes is critical for inhibiting photocarcinogenesis, particularly melanoma, the most deadly form of skin cancer. The paracrine factors A-melanocortin and endothelin-1 are critical for the melanogenic response of cultured human melanocytes to UV radiation. We report that A-melanocortin and endothelin-1 rescued human melanocytes from UV radiation-induced apoptosis and reduced DNA photoproducts and oxidative stress. The survival effects of A-melanocortin and endothelin-1 were mediated by activation of the melanocortin 1 and endothelin receptors, respectively. Treatment of melanocytes with A-melanocortin and/or endothelin-1 before exposure to UV radiation activated the inositol triphosphate kinase-Akt pathway and increased the phosphorylation and expression of the microphthalmia-related transcription factor. Treatment with A-melanocortin and/or endothelin-1 enhanced the repair of cyclobutane pyrimidine dimers and reduced the levels of hydrogen peroxide induced by UV radiation. These effects are expected to reduce genomic instability and mutagenesis. (Cancer Res 2005; 65(10): 4292-9)

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The APC tumor suppressor controls entry into S-phase through its ability to regulate the cyclin D/RB pathway

Heinen

Goss

Cornelius

et al. 2002

Gastroenterology

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Inhibition of Melanosome Transfer from Melanocytes to Keratinocytes by Lectins and Neoglycoproteins in an In Vitro Model System

Minwalla

Zhao

Cornelius

et al. 2001

Pigment Cell Research

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We propose that some of the critical molecules involved in the transfer of melanosomes from melanocytes to keratinocytes include plasma membrane lectins and their glycoconjugates. To investigate this mechanism, co-cultures of human melanocytes and keratinocytes derived from neonatal foreskins were established. The process of melanosome transfer was assessed by two experimental procedures. The first involved labeling melanocyte cultures with the fluorochrome CFDA. Labeled melanocytes were subsequently co-cultured with keratinocytes, and the transfer of fluorochrome assessed visually by confocal microscopy and quantitatively by flow cytometry. The second investigative approach involved co-culturing melanocytes with keratinocytes, and processing the co-cultures after 3 days for electron microscopy to quantitate the numbers of melanosomes in keratinocytes. Results from these experimental approaches indicate significant transfer of dye or melanosomes from melanocytes to keratinocytes that increased with time of co-culturing. Using these model systems, we subsequently tested a battery of lectins and neoglycoproteins for their effect in melanosome transfer. Addition of these selected molecules to co-cultures inhibited transfer of fluorochrome by approximately 15-44% as assessed by flow cytometry, and of melanosomes by 67-93% as assessed by electron microscopy. Therefore, our results suggest the roles of selected lectins and glycoproteins in melanosome transfer to keratinocytes in the skin.

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Regulation of Pigmentation in Cultured Skin Substitutes by Cytometric Sorting of Melanocytes and Keratinocytes

Swope

Supp²,

Cornelius³

et al. 1997

Journal of Investigative Dermatology

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Unpredictable pigmentation in cultured skin substitutes (CSS) is an anatomic deficiency after wound treatment and can require years to normalize. Variable numbers of human melanocytes (HM) survive in cultures of human keratinocytes (HK) as demonstrated by focal areas of pigmentation in CSS after healing. The purposes of this study were to deplete HM from HK cultures and to regulate the numbers of HM contained in CSS. A highly pigmented HM cell strain was chosen for these studies to emphasize the differences in light scattering between HK and HM by flow cytometry. Cytometric gates were set with selective cultures of HM and HK and were used to sort a mixed population of HK + 4% HM. After sorting, CSS were prepared from human fibroblasts attached to collagen-glycosaminoglycan sponges combined with cells from the HK + 4% HM (pre-treatment control), the sorted HK (experimental), or sorted HK + 3% HM (post-treatment positive control) subpopulations and grafted to athymic mice. Grafted wounds were assessed for 6 wk by planimetry for area of pigment and by a Minolta Chromameter for color density and hue in situ. Histology and staining of HLA-ABC were performed at 6 wk. Data from percent pigmented area and chromameter measurements identified quantitative and statistically significant decreases in color of healed skin after flow cytometric separation of HK and HM. Therefore, a purified HK subpopulation depleted of HM was isolated by flow cytometry that generated healed skin with reduced pigmentation. These results suggest that HM can be selectively depleted from HK cultures and then added to cultured skin substitutes at specific densities to generate predictable pigmentation for improved function and cosmesis in healed wounds.

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Mutant Alleles at the Brown Locus Encoding Tyrosinase‐Related Protein‐1 (TRP‐1) Affect Proliferation of Mouse Melanocytes in Culture *

Sarangarajan

Zhao

Babcock

et al. 2000

Pigment Cell Research

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Tyrosinase related protein-1 (TRP-1) is a melanocyte-specific gene product involved in eumelanin synthesis. Mutation in the Tyrp1 gene is associated with brown pelage in mouse and oculocutaneous albinism Type 3 in humans (OCA3). It has been demonstrated that TRP-1 expresses DHICA oxidase activity in the murine system. However, its actual function in the human system is still unclear. The study was designed to determine the effects of mutation at two Typr1 alleles, namely the Tyrp1b (brown) and Tyrp1b-cj (cordovan) compared with wild type Tyrp1B (black) on melanocyte function and melanin biosynthesis. The most significant finding was that both of the Tyrp1 mutations (i.e. brown expressing a point mutation and cordovan expressing decreased amount of TRP-1 protein) resulted in attenuation of cell proliferation rates. Neither necrosis nor apoptosis was responsible for the observed decrease in cell proliferation rates of the brown and cordovan melanocytes. Ultrastructural evaluation by electron microscopic analysis revealed that both mutations in Tyrp1 affected melanosome maturation without affecting its structure. These observations demonstrate that mutation in Tyrp1 compromised tyrosinase activity within the organelle. DOPA histochemistry revealed differences in melanosomal stages between black and brown melanocytes but not between black and cordovan melanocytes. There were no significant differences in tyrosine hydroxylase activities of tyrosinase and TRP-1 in wild type black, brown and cordovan melanocyte cell lysates. We conclude that mutations in Tyrp1 compromise cell proliferation and melanosomal maturation in mouse melanocyte cultures.

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James Cornelius

α-Melanocortin and Endothelin-1 Activate Antiapoptotic Pathways and Reduce DNA Damage in Human Melanocytes

The APC tumor suppressor controls entry into S-phase through its ability to regulate the cyclin D/RB pathway

Inhibition of Melanosome Transfer from Melanocytes to Keratinocytes by Lectins and Neoglycoproteins in an In Vitro Model System

Regulation of Pigmentation in Cultured Skin Substitutes by Cytometric Sorting of Melanocytes and Keratinocytes

Mutant Alleles at the Brown Locus Encoding Tyrosinase‐Related Protein‐1 (TRP‐1) Affect Proliferation of Mouse Melanocytes in Culture *

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