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Literature DB >> 27084774

Peripheral Levels of AGEs and Astrocyte Alterations in the Hippocampus of STZ-Diabetic Rats.

Patrícia Nardin¹, Caroline Zanotto², Fernanda Hansen², Cristiane Batassini², Manuela Sangalli Gasparin², Patrícia Sesterheim³, Carlos-Alberto Gonçalves².

Abstract

Diabetic patients and streptozotocin (STZ)-induced diabetes mellitus (DM) models exhibit signals of brain dysfunction, evidenced by neuronal damage and memory impairment. Astrocytes surrounding capillaries and synapses modulate many brain activities that are connected to neuronal function, such as nutrient flux and glutamatergic neurotransmission. As such, cognitive changes observed in diabetic patients and experimental models could be related to astroglial alterations. Herein, we investigate specific astrocyte changes in the rat hippocampus in a model of DM induced by STZ, particularly looking at glial fibrillary acidic protein (GFAP), S100B protein and glutamate uptake, as well as the content of advanced glycated end products (AGEs) in serum and cerebrospinal fluid (CSF), as a consequence of elevated hyperglycemia and the content of receptor for AGEs in the hippocampus. We found clear peripheral alterations, including hyperglycemia, low levels of proinsulin C-peptide, elevated levels of AGEs in serum and CSF, as well as an increase in RAGE in hippocampal tissue. We found specific astroglial abnormalities in this brain region, such as reduced S100B content, reduced glutamate uptake and increased S100B secretion, which were not accompanied by changes in GFAP. We also observed an increase in the glucose transporter, GLUT-1. All these changes may result from RAGE-induced inflammation; these astroglial alterations together with the reduced content of GluN1, a subunit of the NMDA receptor, in the hippocampus may be associated with the impairment of glutamatergic communication in diabetic rats. These findings contribute to understanding the cognitive deficits in diabetic patients and experimental models.

Entities: Chemical Disease Gene Species

Keywords: Advanced glycation end products (AGEs); Diabetes mellitus; GFAP; Glutamate neurotransmission; S100B secretion

Mesh：

Substances：

Year: 2016 PMID： 27084774 DOI： 10.1007/s11064-016-1912-2

Source DB: PubMed Journal: Neurochem Res ISSN： 0364-3190 Impact factor: 3.996

73 in total

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Review 7. Potential Glioprotective Strategies Against Diabetes-Induced Brain Toxicity.

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