J. Buffey scite author profile

There is indirect evidence that both skin and hair melanocytes are regulated by the activity of adjacent cells. In hair, the specialized fibroblasts (dermal papilla cells) appear to play a role in the regulation of hair growth. Hair pigmentation may relate to hair growth. In skin, melanocytes are located adjacent to the basement membrane zone. As far as we are aware, direct interactions of fibroblasts with melanocytes have not previously been investigated. Accordingly, the objective of this study was to develop co-culture conditions in which to investigate whether dermal fibroblasts from skin or hair could influence melanocyte differentiation. The influence of fibroblast-conditioned media, co-culture with fibroblasts, and fibroblast-derived extracellular matrix (ECM) on normal human skin melanocyte tyrosinase activity was examined. Fibroblasts from both skin and hair were capable of altering melanocyte morphology and significantly increasing tyrosinase activity when melanocytes were cultured in the absence, but not the presence, of the major proliferative drives. Although stimulation of tyrosinase activity was detectable with conditioned medium and co-culture with fibroblasts, the most striking result was obtained with the fibroblast-produced ECM which, on average, produced a four-fold increase in tyrosinase activity within 6 days. Thus, the study describes co-culture conditions in which the stimulatory effect of the fibroblast on melanocyte differentiation can be examined.

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Investigation of the Regulation of Pigmentation in α‐Melanocyte‐Stimulating Hormone Responsive and Unresponsive Cultured B16 Melanoma Cells

Hill

Buffey

Thody

et al. 1989

Pigment Cell Research

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In vitro melanocyte-stimulating hormone (MSH) stimulates melanogenesis in some, but not all, melanocytes and melanoma cells. In an attempt to explain this variation in response to alpha MSH, we examined cyclic adenosine monophosphate (cAMP) accumulation, tyrosinase activity, and melanin production in primary (1 degree) murine B16 melanoma cells and in two B16 cell lines (B16 F1 and B16 F10) that are known to respond to alpha MSH. In vivo all three B16 melanoma cell types produced pigmented tumours. In vitro alpha MSH increased tyrosinase activity and melanin content in the F1 and F10 cells but not in the B16 1 degree cells. alpha MSH, however, increased cAMP production in all three cell types, confirming that the inability of B16 1 degree cells to produce melanin in response to alpha MSH is not due to a lack of alpha MSH receptors or cAMP response to alpha MSH. Further, we present evidence for a separate pathway of melanogenesis that is independent of cAMP as calmodulin antagonists, which do not elevate cAMP, increased tyrosinase activity, and melanin production in both 1 degree and F1 cells.

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α-Melanocyte-stimulating hormone stimulates protein kinase C activity in murine B16 melanoma

Buffey¹,

Thody²,

Bleehen³

et al. 1992

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The effect of alpha-melanocyte-stimulating hormone (alpha-MSH) on protein kinase C activity and distribution was investigated in murine B16 F1 melanoma cells. alpha-MSH was found to induce an increased association of protein kinase C (PKC) activity with the particulate fraction of the cells, with an associated loss of enzyme activity from the soluble fraction. The peak response to alpha-MSH occurred between 20 and 60 min of incubation time, and enzyme activities redistributed to those seen in the control cells over the following 12 to 24 h. The average response to alpha-MSH (1 nmol/l) was an approximate 2.5-fold increase in the percentage of enzyme activity associated with the membrane within 1 h of exposure to alpha-MSH; the particulate enzyme activity represented 19.2 +/- 4.4% of total activity in the absence of alpha-MSH and 50.7 +/- 4.7% (means +/- S.E.M., n = 9, P less than 0.005) in the presence of alpha-MSH (1 nmol/l). Cells which had a relatively small percentage of their PKC activity on the membrane initially were significantly (P less than 0.01) more responsive to alpha-MSH stimulation than cells which initially had a relatively large percentage of PKC activity on the membrane. The association of PKC activity with the membrane showed some evidence of being dose-related to alpha-MSH. This is the first report, to the best of our knowledge, of alpha-MSH activating PKC.

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α-MSH causes a small rise in cAMP but has no effect on basal or ultraviolet-stimulated melanogenesis in human melanocytes

et al. 1990

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The effects of alpha-melanocyte stimulating hormone (alpha-MSH) were studied on levels of cyclic adenosine 3',5'-monophosphate (cAMP), melanin content and response to ultraviolet radiation (UVR) in cultured human melanocytes (HuMC). Foreskin HuMC were cultured in a hormone-supplemented system not dependent on the presence of phorbol esters. Following addition of alpha-MSH (10(-6) M) there was a rise in cAMP levels maximal between 5 and 15 min to 9.4 +/- 3.2 pM/10(5) cells, while control levels were 3.6 +/- 0.7 pM/10(5) cells. After 7 days' culture in the presence of alpha-MSH (10(-8) -10(-6) M) the melanin content increased by only 35%, whereas Forskolin (10(-5) M) induced a 9.5-fold rise in cAMP after 5 min and a 10.9-fold rise in melanin content after 7 days. When HuMC were irradiated daily for 6 days with UVR (Helarium fluorescent lamps emitting 20% UVB, 80% UVA) melanin content rose 2.7-fold (SE 0.3). This was unchanged or slightly reduced in the presence of alpha-MSH (10(-8)-10(-6) M). Parallel observations on Cloudman S91 melanoma cells showed that alpha-MSH caused only an 80% increase in melanin content after 4 days. The rise in melanin content induced by three daily UV-irradiations (2.4-fold, SE 0.5) was unchanged by alpha-MSH (10(-8)-10(-6) M). Although alpha-MSH induces a small rise in cAMP in HuMC this does not result in melanogenesis, and the response to UVR is not affected by alpha-MSH in either HuMC or S91 cells.

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Calcium Plays a Complex Role in the Regulation of Melanogenesis in Murine B16 Melanoma Cells

Buffey¹,

Edgecombe²,

Neil³

1993

Pigment Cell Research

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To learn more of the role of calcium in the regulation of melanogenesis, we have used direct manipulation of medium calcium and pharmacological modulation of intracellular calcium to examine the consequences on unstimulated and cyclic AMP elevated tyrosinase activity and melanin synthesis and distribution in B16 melanoma cells. In unstimulated cells, calcium is clearly inhibitory to tyrosinase activity. However, in cells stimulated with cAMP-elevating agents the requirement for extracellular calcium was changed such that cells required a minimum of 0.4-0.6 mmol medium calcium for maximum tyrosinase response to these agents. Paradoxically, pharmacologically increasing intracellular calcium in cAMP-stimulated cells with ionophore inhibited tyrosinase activity, and the calcium-lowering agent TMB8 and the calcium channel blocker verapamil both stimulated tyrosinase activity. When melanin synthesis was measured in cAMP-stimulated cells, TMB8 was found to significantly increase the sensitivity and the maximum melanogenic response to alpha-MSH, suggesting the presence of at least one level of endogenous calcium inhibitory control operative in these cells. In addition, TMB8 changed the distribution of melanin between the cell and the medium such that, in the presence of alpha-MSH and TMB8, significantly more melanin was secreted into the medium. These data suggest that calcium is required for several steps in melanogenesis, having an apparently inhibitory effect on pre-tyrosinase activity in unstimulated cells, but also showing evidence of a positive role in cyclic AMP-stimulated tyrosinase activity, as well as a further possible inhibitory role in melanin movement or secretion.

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J. Buffey

Extracellular matrix derived from hair and skin fibroblasts stimulates human skin melanocyte tyrosinase activity

Investigation of the Regulation of Pigmentation in α‐Melanocyte‐Stimulating Hormone Responsive and Unresponsive Cultured B16 Melanoma Cells

α-Melanocyte-stimulating hormone stimulates protein kinase C activity in murine B16 melanoma

α-MSH causes a small rise in cAMP but has no effect on basal or ultraviolet-stimulated melanogenesis in human melanocytes

Calcium Plays a Complex Role in the Regulation of Melanogenesis in Murine B16 Melanoma Cells

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