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Neurochemical research
Jun, 2009;34 (6): 1076-82.

Hypoinsulinemia alleviates the GRF1/Ras/Akt anti-apoptotic pathway and induces alterations of mitochondrial ras trafficking in neuronal cells.

E Zhuravliova, T Barbakadze, N Narmania, M Sepashvili, D G Mikeladze
Author Information
  1. E Zhuravliova: Department of Biochemistry, I. Beritashvili Institute of Physiology, Tbilisi, Georgia.
PMID: 19002579 DOI: 10.1007/s11064-008-9877-4

Abstract

Recent observations have established that interruption of insulin production causes deficits in learning and memory formation. We have studied the mechanism of insulin's neuroprotective effect on primary neuronal cells and in streptozotocin (STZ)-induced diabetic rat brain. We have found that in hippocampal neuronal cells insulin increases the content of farnesylated Ras and phosphorylated form of Akt. Besides, the treatment of cells by insulin leads to the activation of mitochondrial cytochrome oxidase, which is inhibited by manumycin, a farnesyltransferase inhibitor. During experimental diabetes, the content of membrane-bound GRF1 was decreased in rat hippocampus that was correlated with the reduction in mitochondrial Ras and phosphorylated forms of Akt. This redistribution in Ras-GRF system was accompanied by the alteration in the activities of CREB, NF-kB (p65) and c-Rel transcription factors. We have proposed that hypoinsulinemia induces the inhibition of Ras signalling in the neuronal cells additionally by abnormality of Ras trafficking into mitochondria.

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MeSH Term

Animals
Apoptosis
Cell Membrane
Diabetes Mellitus, Experimental
Hippocampus
Hypoglycemic Agents
Insulin
Mitochondria
Neurons
Phosphatidylinositol 3-Kinases
Phosphorylation
Prenylation
Protein Transport
Proto-Oncogene Proteins c-akt
Rats
Signal Transduction
ras Proteins
ras-GRF1

Chemicals

Hypoglycemic Agents
Insulin
ras-GRF1
Phosphatidylinositol 3-Kinases
Proto-Oncogene Proteins c-akt
ras Proteins
Journal Article
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Word Cloud

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