Plasma and cerebrospinal fluid α-MSH levels in the rat after hypophysectomy and stimulation of pituitary α-MSH secretion

Immunoreactive α-MSH was measured in cerebrospinal fluid (CSF) and plasma of rats. While treatment with haloperidol increased α-MSH levels in the plasma concentration of α-MSH in the CSF showed little change. Hypophysectomy also had little effect on the concentration of α-MSH in the CSF despite the fall in plasma α-MSH levels. This lack of correlation between α-MSH levels in the CSF and plasma suggests that the systemic circulation does not deliver α-MSH to the CSF. The apparently normal levels of α-MSH in the hypothalamus after hypophysectomy suggests that this tissue is able to synthesize α-MSH and it is possible that the hypothalamus is a source of the α-MSH in the CSF

Variants of the melanocyte stimulating hormone receptor gene are associated with red hair and fair skin in humans

Melanin pigmentation protects the skin from the damaging effects of ultraviolet radiation (UVR). There are two types of melanin, the red phaeomelanin and the black eumelanin, both of which are present in human skin. Eumelanin is photoprotective whereas phaeomelanin, because of its potential to generate free radicals in response to UVR, may contribute to UV-induced skin damage. Individuals with red hair have a predominance of phaeomelain in hair and skin and/or a reduced ability to produce eumelanin, which may explain why they fail to tan and are at risk from UVR. In mammals the relative proportions of phaeomelanin and eumelanin are regulated by melanocyte stimulating hormone (MSH), which acts via its receptor (MC1R), on melanocytes, to increase the synthesis of eumelanin and the product of the agouti locus which antagonises this action. In mice, mutations at either the MC1R gene or agouti affect the pattern of melanogenesis resulting in changes in coat colour. We now report the presence of MC1R gene sequence variants in humans. These were found in over 80% of individuals with red hair and/or fair skin that tans poorly but in fewer than 20% of individuals with brown or black hair and in less than 4% of those who showed a good tanning response. Our findings suggest that in humans, as in other mammals, the MC1R is a control point in the regulation of pigmentation phenotype and, more importantly, that variations in this protein are associated with a poor tanning response