Nonreceptor mediated cholesterol uptake and reverse cholesterol transport in cells occur through cellular membranes. Thus, elucidation of cholesterol dynamics in membranes is essential to understanding cellular cholesterol accumulation and loss. To this end, it has become increasingly evident that cholesterol is not randomly distributed in either model or biologic membranes. Instead, membrane cholesterol appears to be organized into structural and kinetic domains or pools. Cholesterol-rich and poor domains can even be observed histochemically and physically isolated from epithelial cell surface membranes. The physiologic importance of these domains is 2-fold: (i) Select membrane proteins (receptors, transporters, etc.) are localized in either cholesterol-rich or cholesterol-poor domains. Consequently, the structure and properties of the domains rather than of the bulk lipid may selectively affect the function of proteins residing therein. (ii) Kinetic evidence suggests that cholesterol transport through and between membranes may occur through specific domains or pools. Regulation of the size and properties of such domains may be controlling factors of cholesterol transport or accumulation in cells. Recent technologic advances in the use of fluorescent sterols have allowed examination of cholesterol domain structure in model and biologic membranes. These techniques have been applied to examine the role of high-density lipoprotein, cholesterol lowering drugs, and intracellular lipid transfer proteins in membrane sterol domain structure and sterol movement between membranes.
We have previously shown [Cys-Trp-Arg-Nva-Arg-Tyr-NH(2)](2), 1, to be a moderately selective neuropeptide Y (NPY) Y(4) receptor agonist. Toward improving the selectivity and potency for Y(4) receptors, we studied the effects of dimerizing H-Trp-Arg-Nva-Arg-Tyr-NH(2) using various diamino-dicarboxylic acids containing either di-, tri-, or tetramethylene spacers. These parallel dimers, 2A, 2B, 3, 4A, and 4B, and the corresponding linear tandem dimer and trimer analogues, 5 and 6, had enhanced selectivity and affinity for Y(4) receptors compared to 1 (Table 1). Substitution of Trp and Nva with Tyr and Leu, respectively, as in 2,7-d/l-diaminosuberic acid derivatized dimer, 7, resulted in a superior Y(4) selective agonist with picomolar affinity. Intraperitoneal (ip) injection of 7 potently inhibited food intake in fasted mice. Moreover, 7 (ip) inhibited the food intake in wild-type mice and not in Y(4)(-/-) knock-out mice, confirming that the actions of 7 on food intake are not due to global effects, but specifically mediated Y(4) receptors.
Cutaneous pigmentation is the major photoprotective mechanism against the carcinogenic and aging effects of UV. Epidermal melanocytes synthesize the pigment melanin, in the form of eumelanin or pheomelanin. Synthesis of the photoprotective eumelanin by human melanocytes is regulated mainly by the melanocortins a-melanocortin (a-MSH) and adrenocorticotropic hormone (ACTH), which bind the melanocortin 1 receptor (MC1R) and activate the cAMP pathway that is required for UV-induced tanning. Melanocortins stimulate proliferation and melanogenesis and inhibit UV-induced apoptosis of human melanocytes. Importantly, melanocortins reduce the generation of hydrogen peroxide and enhance repair of DNA photoproducts, independently of pigmentation. MC1R is a major contributor to the diversity of human pigmentation and a melanoma susceptibility gene. Certain allelic variants of this gene, namely R151C, R160W and D294H, are strongly associated with red hair phenotype and increased melanoma susceptibility. Natural expression of two of these variants sensitizes melanocytes to the cytotoxic effect of UV, and increases the burden of DNA damage and oxidative stress. We are designing potent melanocortin analogs that mimic the effects of a-MSH as a strategy to prevent skin cancer, particularly in individuals who express MC1R genotypes that reduce but do not abolish MC1R function, or mutations in other melanoma susceptibility genes, such as p16. DEDICATIONWe are privileged to contribute this review to the special issue celebrating Professor Hasan Mukhtar's 60th birthday. Professor Mukhtar is a pioneer in the field of photobiology and photocarcinogenesis. He has made tremendous contributions to this area of research, and revolutionized our understanding of the signaling pathways of UV and prevention of photocarcinogenesis, using naturally derived compounds, particularly polyphenolic derivatives of green tea. Professor Mukhtar is highly regarded as an accomplished scientist, and equally or even more, as a mentor for a generation of distinguished scientists. While writing this review, the corresponding author could not but reflect on her own mentor, the late Mac E. Hadley, who inspired her to investigate the effects of melanocortins on human melanocytes and human pigmentation, which became the focus of research in her laboratory. Mentors are the role models and the giants in whose footsteps we aspire to walk. They mold our careers, set up the standards, raise the bar, and encourage us to jump scientific hurdles and excel. We follow their lead in science and teaching, and most of all in dignity and caring for students, trainees and humanity that we serve. MELANIN AND PHOTOPROTECTIONSolar UV radiation is the major environmental factor to which humans are exposed. The skin, the largest organ, represents the interface between the environment and the internal organs, and the main target of UV. Acute exposure to UV results in erythema, immune suppression, epidermal thickening and tanning, while chronic exposure results in photocarcinoge...
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