1. Altered serotonin (5-HT) 1D and 2A receptor expression may contribute to defective insulin and glucagon secretion in human type 2 diabetes
- Author
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Petter Storm, Malin Fex, M. Dekker Nitert, Ulrika Krus, Nils Wierup, S. Essen, Peter Spégel, E. Ottosson Laakso, Hedvig Bennet, Alexander Balhuizen, and Anya Medina
- Subjects
Male ,endocrine system ,medicine.medical_specialty ,endocrine system diseases ,Physiology ,Receptor expression ,Biology ,Biochemistry ,Islets of Langerhans ,Cellular and Molecular Neuroscience ,Endocrinology ,Internal medicine ,Insulin Secretion ,medicine ,Humans ,Insulin ,Receptor, Serotonin, 5-HT2A ,Receptor ,Autocrine signalling ,geography ,Delta cell ,geography.geographical_feature_category ,Glucagon secretion ,Glucagon ,Islet ,Insulin oscillation ,Diabetes Mellitus, Type 2 ,Gene Expression Regulation ,Receptor, Serotonin, 5-HT1D ,Female ,Signal transduction ,Signal Transduction - Abstract
Islet produced 5-hydroxy tryptamine (5-HT) is suggested to regulate islet hormone secretion in a paracrine and autocrine manner in rodents. Hitherto, no studies demonstrate a role for this amine in human islet function, nor is it known if 5-HT signaling is involved in the development of beta cell dysfunction in type 2 diabetes (T2D). To clarify this, we performed a complete transcriptional mapping of 5-HT receptors and processing enzymes in human islets and investigated differential expression of these genes in non-diabetic and T2D human islet donors. We show the expression of fourteen 5-HT receptors as well as processing enzymes involved in the biosynthesis of 5-HT at the mRNA level in human islets. Two 5-HT receptors (HTR1D and HTR2A) were over-expressed in T2D islet donors. Both receptors (5-HT1d and 5-HT2a) were localized to human alpha, beta and delta cells. 5-HT inhibited both insulin and glucagon secretion in non-diabetic islet donors. In islets isolated from T2D donors the amine significantly increased release of insulin in response to glucose. Our results suggest that 5-HT signaling participates in regulation of overall islet hormone secretion in non- diabetic individuals and over-expression of HTR1D and HTR2A may either contribute to islet dysfunction in T2D or arise as a consequence of an already dysfunctional islet.
- Published
- 2015
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