Structural/functional relationships between internal and external MSH receptors: Modulation of expression in Cloudman melanoma cells by UVB radiation

Chakraborty, Ashok; Orlow, Seth J.; Bolognia, Jean L.; Pawelek, John M.

doi:10.1002/jcp.1041470102

Cited by 59 publications

(63 citation statements)

References 28 publications

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“…All three agents, like pTpT, enhanced melanin content per cell 4-10-fold in S91 cells and by up to 70% in human melanocytes. These agents also induced tyrosinase mRNA levels and MSH binding to its cell surface receptor (67), as has been reported for ultraviolet irradiation (68,69). Because Pvu 11, MMS and 4-NQO are known to interact with DNA and to produce DNA lesions that are repaired in a manner similar to those produced by ultraviolet irradiation, these results further strengthen the hypothesis that UV light induces melanogenesis at least in part as a direct consequence of its effects on DNA.…”

Section: The Role Of Dna Damagwrepair In Uv-induced Melanogenesissupporting

confidence: 81%

Mechanisms of Ultraviolet Light‐Induced Pigmentation

Gilchrest

Park

Eller

et al. 1996

Photochem & Photobiology

325

231

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Section: The Role Of Dna Damagwrepair In Uv-induced Melanogenesissupporting

confidence: 81%

Mechanisms of Ultraviolet Light‐Induced Pigmentation

Gilchrest

Park

Eller

et al. 1996

Photochem & Photobiology

325

231

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“…Previous work on the upregulation of tyrosinase activities and melanin synthesis in cultured melanocytes by -MSH indicated that this POMC peptide was implicated in the regulation of melanogenesis (McLane & Pawelek 1988, Chakraborty et al 1991, Pawelek et al 1992. However, the mechanism of action remained unknown.…”

Section: Discussionmentioning

confidence: 98%

“…Both -MSH and ACTH are proposed to be the key players in pigmentation via the melanocortin-1-receptor (MC1-R)/ cAMP second messenger system (Tsatmali et al 1999(Tsatmali et al , 2000. Moreover, it was shown that -MSH stimulates changes in melanocyte morphology, growth rates and melanin production (McLane & Pawelek 1988, Chakraborty et al 1991. However, its mode of action is still not completely understood.…”

Section: Introductionmentioning

confidence: 99%

A novel mechanism in control of human pigmentation by β-melanocyte-stimulating hormone and 7-tetrahydrobiopterin

Spencer¹,

Chavan²,

Marles³

et al. 2005

Journal of Endocrinology

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The human skin holds the full machinery for proopiomelanocortin processing. The -melanocytestimulating hormone ( -MSH)/melanocortin-1-receptor cascade has been implicated as a major player via the cAMP signal in the control of melanogenesis. Only very recently the -endorphin/µ-opiate receptor signal has been added to the list of regulators of melanocyte dendricity and melanin formation. In this context it was reported that (6R)--erythro-5,6,7,8-tetrahydrobiopterin (6BH 4 ) can act as an allosteric inhibitor of tyrosinase, the key enzyme in melanogenesis, and this inhibition is reversible by both -and -MSH. It was also shown earlier that 7BH 4 , the isomer of 6BH 4 , is twice as active in this inhibition reaction. However, as yet it is not known whether 7BH 4 is indeed present in loco in the melanosome. We here provide evidence that this isomer is present in this organelle in a concentration range up to 50 10 6 M. Determination of -MSH in melanosomal extracts yielded 10 pg/mg protein. Moreover, we demonstrate reactivation of the 7BH 4 /tyrosinase inhibitor complex by -MSH, whereas -MSH failed to do so. Furthermore, we show intra-melanosomal -dopa formation from dopachrome by 7BH 4 in a concentration range up to 134 10 6 M. Based on these results, we propose a new receptorindependent mechanism in the control of tyrosinase/ melanogenesis by -MSH and the pterin 7BH 4 .

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“…Our findings that human melanocytes respond directly to subnanomolar concentrations of these two melanotropins, the presence of MSH receptors on human melanocytes (14)(15)(16)(17), and the demonstration that melanotropins are present in the skin (21) suggest a physiologic paracrine role for these hormones in regulating human pigmentation. Irradiation of murine melanoma cells with ultraviolet light activates the melanotropin receptor (35,36), and mutations in the melanotropin receptor lead to pigmentary changes in several mammalian species (37). That melanotropins might be involved in the sun-induced melanogenic effects on human skin and that mutations in the melanotropin receptor might be responsible for pigmentary abnormalities in humans are exciting possibilities that are yet to be explored.…”

Section: Discussionmentioning

confidence: 99%

Mitogenic and melanogenic stimulation of normal human melanocytes by melanotropic peptides.

Abdel‐Malek

Swope

Suzuki

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

352

246

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The significance of melanotropic hormones as physiologic regulators of cutaneous pigmentation in humans is still controversial. Until recently, no direct effect for melanotropins could be demonstrated on human melanocytes.Here we present conclusive evidence that a!-melanotropin (a-melanocyte-stimulating hormone, ai-MSH) and the related hormone corticotropin (adrenocorticotropic hormone, ACTH) stimulate the proliferation and melanogenesis of human melanocytes maintained in culture in a growth medium lacking any AMP inducer. The minimal effective dose of either hormone is 0.1 nM. In time-course experiments, the increase in cell number and tyrosinase activity became evident after one treatment of the melanocytes with 100 nM a-MSH for 48 hr. The mitogenic effect gradually increased to 50-270S% above control, depending on the individual melanocyte strain, with continuous treatment with 100 nM a-MSH for 8 days, whereas the melanogenic effect became maximal (70-450% increase above control) after 4 days oftreatment. Western blot analysis of tyrosinase and the tyrosinase-related proteins TRP-1 and TRP-2 revealed that a-MSH increased the expression of those three melanogenic proteins. This was not accompanied by any change in their mRNA levels after brief (1.5-24 hr) or prolonged (6 days) treatment with 100 nM a-MSH, suggesting that the increased expression of these melanogenic proteins was due to posttranscriptional events. These results demonstrate both mitogenic and melanogenic effects of a-MSH and ACTH on human melanocytes. That both hormones are effective at subnanomolar concentrations, combined with the presence of melanotropin receptors on human melanocytes, strongly suggests that these melanotropins play a physiologic role in regulating human cutaneous pigmentation.a-Melanotropin (a melanocyte-stimulating hormone, a-MSH) is the physiologic hormone that regulates integumental pigmentation of many vertebrate species. For example, a-MSH induces rapid skin darkening in amphibians and reptiles and stimulates follicular eumelanogenesis in the mouse (1,2). In addition to the pigmentary effects, other functions for a-MSH and related melanotropins have been described, such as the antagonistic interaction with interleukin 1 (3, 4) and trophic effects on neurons (5, 6

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Structural/functional relationships between internal and external MSH receptors: Modulation of expression in Cloudman melanoma cells by UVB radiation

Cited by 59 publications

References 28 publications

Mechanisms of Ultraviolet Light‐Induced Pigmentation

Mechanisms of Ultraviolet Light‐Induced Pigmentation

A novel mechanism in control of human pigmentation by β-melanocyte-stimulating hormone and 7-tetrahydrobiopterin

Mitogenic and melanogenic stimulation of normal human melanocytes by melanotropic peptides.

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