Sushil K. Mahata scite author profile

The chromogranins (chromogranin A and chromogranin B), secretogranins (secretogranin II and secretogranin III), and additional related proteins (7B2, NESP55, proSAAS, and VGF) that together comprise the granin family subserve essential roles in the regulated secretory pathway that is responsible for controlled delivery of peptides, hormones, neurotransmitters, and growth factors. Here we review the structure and function of granins and granin-derived peptides and expansive new genetic evidence, including recent single-nucleotide polymorphism mapping, genomic sequence comparisons, and analysis of transgenic and knockout mice, which together support an important and evolutionarily conserved role for these proteins in large dense-core vesicle biogenesis and regulated secretion. Recent data further indicate that their processed peptides function prominently in metabolic and glucose homeostasis, emotional behavior, pain pathways, and blood pressure modulation, suggesting future utility of granins and granin-derived peptides as novel disease biomarkers.

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Brain PPAR-γ promotes obesity and is required for the insulin–sensitizing effect of thiazolidinediones

Lü

Sarruf

Talukdar

et al. 2011

Nat Med

218

220

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In adipose, muscle, liver and macrophages, signaling by the nuclear receptor PPARγ is a determinant of insulin sensitivity and this receptor mediates the insulin–sensitizing effects of thioazolidinediones (TZDs)1-4. Since PPARγ is also expressed in neurons5, we generated mice with neuron–specific Pparγ knockout (Pparγ BKO) to determine whether neuronal PPARγ signaling contributes to either weight gain or insulin resistance. During high fat diet (HFD) feeding, food intake was reduced and energy expenditure increased in Pparγ BKO mice, resulting in reduced weight gain. When treated with the TZD rosiglitazone, Pparγ BKO mice were resistant to rosiglitazone–induced hyperphagia and weight gain and, relative to rosiglitazone–treated controls, experienced only a marginal improvement in glucose metabolism. Hyperinsulinemic euglycemic clamp studies showed that the effect of rosiglitazone treatment to increase hepatic insulin sensitivity during HFD feeding was completely abolished in Pparγ BKO mice, an effect associated with the failure of rosiglitazone to improve liver insulin receptor signal transduction. We conclude that excess weight gain induced by HFD feeding depends in part on the effect of neuronal PPARγ signaling to limit thermogenesis and increase food intake. Neuronal PPARγ signaling is also required for the hepatic insulin sensitizing effects of TZDs.

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New antimicrobial activity for the catecholamine release-inhibitory peptide from chromogranin A

Briolat

Mahata

et al. 2005

CMLS, Cell. Mol. Life Sci.

117

177

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Catestatin (bCGA(344-364)), an endogenous peptide of bovine chromogranin A, was initially characterized for its effect on the inhibition of catecholamine release from chromaffin cells. Catestatin and its active domain (bCGA(344-358)) were identified in chromaffin cells and in secretion medium. The present study identified a potent antimicrobial activity of bCGA(344-358) in the lowmicromolar range against bacteria, fungi and yeasts, without showing any haemolytic activity. Confocal laser microscopy demonstrated penetration of the rhodaminated peptide into the cell membranes of fungi and yeasts and its intracellular accumulation. Time-lapse videomicroscopy showed arrest of fungal growth upon penetration of the labelled peptide into a fungal filament. We identified several catestatin-containing fragments in the stimulated secretion medium of human polymorphonuclear neutrophils, suggesting the N-terminal sequence of catestatin (bCGA(344-358)) (named cateslytin) as a novel component of innate immunity.

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Discovery of common human genetic variants of GTP cyclohydrolase 1 (GCH1) governing nitric oxide, autonomic activity, and cardiovascular risk

Zhang¹,

Rao²,

Zhang³

et al. 2007

J. Clin. Invest.

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GTP cyclohydrolase 1 (GCH1) is rate limiting in the provision of the cofactor tetrahydrobiopterin for biosynthesis of catecholamines and NO. We asked whether common genetic variation at GCH1 alters transmitter synthesis and predisposes to disease. Here we undertook a systematic search for polymorphisms in GCH1, then tested variants' contributions to NO and catecholamine release as well as autonomic function in twin pairs. Renal NO and neopterin excretions were significantly heritable, as were baroreceptor coupling (heart rate response to BP fluctuation) and pulse interval (1/heart rate). Common GCH1 variant C+243T in the 3'-untranslated region (3'-UTRs) predicted NO excretion, as well as autonomic traits: baroreceptor coupling, maximum pulse interval, and pulse interval variability, though not catecholamine secretion. In individuals with the most extreme BP values in the population, C+243T affected both diastolic and systolic BP, principally in females. In functional studies, C+243T decreased reporter expression in transfected 3'-UTRs plasmids. We conclude that human NO secretion traits are heritable, displaying joint genetic determination with autonomic activity by functional polymorphism at GCH1. Our results document novel pathophysiological links between a key biosynthetic locus and NO metabolism and suggest new strategies for approaching the mechanism, diagnosis, and treatment of risk predictors for cardiovascular diseases such as hypertension.

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Sushil K. Mahata

The Extended Granin Family: Structure, Function, and Biomedical Implications

Brain PPAR-γ promotes obesity and is required for the insulin–sensitizing effect of thiazolidinediones

New antimicrobial activity for the catecholamine release-inhibitory peptide from chromogranin A

Discovery of common human genetic variants of GTP cyclohydrolase 1 (GCH1) governing nitric oxide, autonomic activity, and cardiovascular risk

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