Role of Thiol Compounds in Mammalian Melanin Pigmentation: Part I. Reduced and Oxidized Glutathione

Evidence for the postulated role of glutathione reductase in melanin pigmentation has been obtained by determinations of the glutathione concentrations in Tortoiseshell guinea pig skin of different colors (black, yellow, red, and white). As expected, the lowest levels of reduced glutathione (GSH) were found associated with eumelanin type pigmentation, whereas the highest ones were found in the skin with phaeomelanin producing melanocytes. On the other hand, white skin of guinea pig having no active melanocytes showed GSH levels which were intermediate between those of the black and yellow areas.These results are consistent with the view that the activity of the enzyme glutathione reductase, though not primarily related to pigmentation, plays an important role in the regulation and control of the biosynthetic activity of melanocytes leading to various types of melanin pigments

A novel missense mutation for Fabry disease detected by echocardiographic screening in left ventricular hypertrophy patients

Fabry disease is an X-linked lysosomal storage disease caused by mutations in the a-galactosidase A gene (GLA), leading to the absence or a reduction of the enzymatic activity of the encoded enzyme and subsequent progressive tissue accumulation of glycosphingolipids through-out all the body, with consequent multiorgan failure. Here, we report the case of a 57-year-old woman with Fabry disease due to a novel GLA gene mutation

Importance of Echocardiography and Clinical "Red Flags" in Guiding Genetic Screening for Fabry Disease

Aim of this study was to evaluate, in a metropolitan area not already explored, the prevalence of Anderson-Fabry disease, by genetic screening, in patients with echocardiographic evidence of left ventricular hypertrophy (LVH) of unknown origin and "clinical red flags"

Structure-activity relationships, biological evaluation and structural studies of novel pyrrolonaphthoxazepines as antitumor agents

Microtubule-targeting agents (MTAs) are a class of clinically successful anti-cancer drugs. The emergence of multidrug resistance to MTAs imposes the need for developing new MTAs endowed with diverse mechanistic properties. Benzoxazepines were recently identified as a novel class of MTAs. These anticancer agents were thoroughly characterized for their antitumor activity, although, their exact mechanism of action remained elusive. Combining chemical, biochemical, cellular, bioinformatics and structural efforts we developed improved pyrrolonaphthoxazepines antitumor agents and their mode of action at the molecular level was elucidated. Compound 6j, one of the most potent analogues, was confirmed by X-ray as a colchicine-site MTA. A comprehensive structural investigation was performed for a complete elucidation of the structure-activity relationships. Selected pyrrolonaphthoxazepines were evaluated for their effects on cell cycle, apoptosis and differentiation in a variety of cancer cells, including multidrug resistant cell lines. Our results define compound 6j as a potentially useful optimized hit for the development of effective compounds for treating drug-resistant tumors.This work was supported in part by a grant from the Swiss National Science Foundation (31003A_166608; to M.O.S), grant BFU2016-75319-R (AEI/FEDER, EU) from Ministerio de Economia y Competitividad, Blueprint 282510, AIRC-17217. The authors acknowledge networking contribution by the COST Action CM1407 “Challenging organic syntheses inspired by nature - from natural products chemistry to drug discovery” (to M.O.S. and J.F.D.) and the COST Action EPICHEMBIO CM-1406 (to L.A. and G.C.). This work has also received partial funding from the European Union’s Horizon 2020 (EU) research and innovation programme under the Marie Sklodowska-Curie grant agreement No 721906. Finally, this work was partially funded by MIUR-PRIN project n. 2015Y3C5KP (to L.M.)