Expression of Uncoupling Proteins in Human Skin and Skin-Derived Cells

Uncoupling protein (UCP) is a mitochondrial membrane protein that uncouples oxidative phosphorylation. The physiological function of major isoforms of UCPs is related to the control of body temperature and reactive oxygen species production. Although skin is an important organ for heat radiation and protection against stress, the expression and function of UCPs in the skin have remained unclear. The expression of UCPs in human skin and its derived cells was researched at the mRNA and protein levels. The effects of norepinephrine (NE) and 9-cis retinoic acid (RA) on UCP expression were also investigated. The expression of UCP1 mRNA was found in the human epidermis and was upregulated in differentiated keratinocytes. UCP1 expression in keratinocytes was synergistically upregulated by NE and RA treatment. Significant expression of UCP2 and UCP3 was observed also in cultured keratinocytes and fibroblasts. By immunohistochemistry, localization of UCP1 was found in the granular layer of the epidermis, sweat glands, hair follicles, and sebaceous glands of various sites in the human body. UCP3 was widely found in the dermis. This showed that UCPs exist in human skin, with their expression being under hormonal control. These findings are in stark contrast with the well-accepted view of UCP1 expression being exclusive to brown adipose tissue

Body fat mass reduction and up-regulation of uncoupling protein by novel lipolysis-promoting plant extract

We have found natural products exhibiting lipolysis-promoting activity in subcutaneous adipocytes, which are less sensitive to hormones than visceral adipocytes. The activities and a action mechanisms of a novel plant extract of Cirsium oligophyllum (CE) were investigated in isolated adipocytes from rat subcutaneous fat, and its fat-reducing effects by peroral administration and topical application were evaluated in vivo. CE-induced lipolysis was synergistically enhanced by caffeine, a phosphodiesterase inhibitor, and was reduced by propranolol, a &#946; adrenergic antagonist. The peroral administration of 10% CE solution to Wistar rats for 32 days reduced body weight gain, subcutaneous, and visceral fat weights by 6.6, 26.2, and 3.0%, respectively, as compared to the control group. By the topical application of 2% of this extract to rats for 7 days, weight of subcutaneous fat in the treated skin was reduced by 23.2%. This fat mass reduction was accompanied by the up-regulation of uncoupling protein 1 (UCP), a principal thermogenic mitochondrial molecule related to energy dissipating, in subcutaneous fat and UCP3 in skin except for the fat layer. These results indicate that CE promotes lipolysis via a mechanism involving the &#946; adrenergic receptor, and affects the body fat mass. This fat reduction may be partially due to UCP up-regulation in the skin including subcutaneous fat. This is the first report showing that repeated lipolysis promotion through CE administration may be beneficial for the systematic suppression of body fat accumulation or the control of fat distribution in obesity.</p