Protein kinase C isozyme expression in sciatic nerves and spinal cords of experimentally diabetic rats

Changes in the expression and activation of protein kinase C (PKC) have been implicated in the pathogenesis of diabetic neuropathy. Recent studies in liver, retina, and cardiovascular tissues from experimentally diabetic rats have demonstrated that diabetes has a selective effect on the expression a...

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Published in:Brain research 1997-04, Vol.754 (1), p.147-156
Main Authors: Roberts, R.E, McLean, W.G
Format: Article
Language:English
Subjects:
Animals
Cytosol - enzymology
Diabetes Mellitus, Experimental - enzymology
Diabetic neuropathy
Female
Ganglia, Spinal - enzymology
Isoenzymes - biosynthesis
Isozyme
Motor Neurons - enzymology
Nerve Fibers - enzymology
Neurons, Afferent - enzymology
Polymerase Chain Reaction
Protein kinase C
Protein Kinase C - biosynthesis
Protein Kinase C beta
Protein Kinase C-alpha
Rats
Rats, Wistar
Reference Values
RNA, Messenger - biosynthesis
Sciatic Nerve - enzymology
Spinal Cord - enzymology
Streptozotocin
Time Factors
Transcription, Genetic
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description Changes in the expression and activation of protein kinase C (PKC) have been implicated in the pathogenesis of diabetic neuropathy. Recent studies in liver, retina, and cardiovascular tissues from experimentally diabetic rats have demonstrated that diabetes has a selective effect on the expression and subcellular distribution of isozymes of PKC. In the light of this evidence, we investigated the expression of the PKC isozymes α, βI, βII, and γ in sciatic nerves, spinal cords, and in the L4,5 dorsal root ganglia from streptozotocin-induced diabetic rats. Six weeks of diabetes had differential effects on the expression and distribution of PKC isozymes in sciatic nerves and spinal cords. In the sciatic nerves there was an apparent translocation of the α isoform from the cytosolic to the particulate fractions, the βII isoform was reduced in the cytosolic fraction, and the βI and γ isoforms were unaffected. The changes in the isozyme immunoreactivities in the nerves were not a direct result of changes in either spinal cord or dorsal root ganglia alone, suggesting that diabetes has different effects on motor and sensory fibres and/or on Schwann cells. In nerves that had been crushed 14 days previously there was an increase in total PKC α immunoreactivity. This increase was potentiated in diabetic rats. On the other hand, PKC βII immunoreactivity in crushed nerves was unaffected by diabetes. The data are consistent with diabetes-induced changes in expression of PKC βII contributing to nerve damage, and changes in PKC α being a consequence of it.
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Recent studies in liver, retina, and cardiovascular tissues from experimentally diabetic rats have demonstrated that diabetes has a selective effect on the expression and subcellular distribution of isozymes of PKC. In the light of this evidence, we investigated the expression of the PKC isozymes α, βI, βII, and γ in sciatic nerves, spinal cords, and in the L4,5 dorsal root ganglia from streptozotocin-induced diabetic rats. Six weeks of diabetes had differential effects on the expression and distribution of PKC isozymes in sciatic nerves and spinal cords. In the sciatic nerves there was an apparent translocation of the α isoform from the cytosolic to the particulate fractions, the βII isoform was reduced in the cytosolic fraction, and the βI and γ isoforms were unaffected. The changes in the isozyme immunoreactivities in the nerves were not a direct result of changes in either spinal cord or dorsal root ganglia alone, suggesting that diabetes has different effects on motor and sensory fibres and/or on Schwann cells. In nerves that had been crushed 14 days previously there was an increase in total PKC α immunoreactivity. This increase was potentiated in diabetic rats. On the other hand, PKC βII immunoreactivity in crushed nerves was unaffected by diabetes. 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Recent studies in liver, retina, and cardiovascular tissues from experimentally diabetic rats have demonstrated that diabetes has a selective effect on the expression and subcellular distribution of isozymes of PKC. In the light of this evidence, we investigated the expression of the PKC isozymes α, βI, βII, and γ in sciatic nerves, spinal cords, and in the L4,5 dorsal root ganglia from streptozotocin-induced diabetic rats. Six weeks of diabetes had differential effects on the expression and distribution of PKC isozymes in sciatic nerves and spinal cords. In the sciatic nerves there was an apparent translocation of the α isoform from the cytosolic to the particulate fractions, the βII isoform was reduced in the cytosolic fraction, and the βI and γ isoforms were unaffected. The changes in the isozyme immunoreactivities in the nerves were not a direct result of changes in either spinal cord or dorsal root ganglia alone, suggesting that diabetes has different effects on motor and sensory fibres and/or on Schwann cells. In nerves that had been crushed 14 days previously there was an increase in total PKC α immunoreactivity. This increase was potentiated in diabetic rats. On the other hand, PKC βII immunoreactivity in crushed nerves was unaffected by diabetes. 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subjects Animals
Cytosol - enzymology
Diabetes Mellitus, Experimental - enzymology
Diabetic neuropathy
Female
Ganglia, Spinal - enzymology
Isoenzymes - biosynthesis
Isozyme
Motor Neurons - enzymology
Nerve Fibers - enzymology
Neurons, Afferent - enzymology
Polymerase Chain Reaction
Protein kinase C
Protein Kinase C - biosynthesis
Protein Kinase C beta
Protein Kinase C-alpha
Rats
Rats, Wistar
Reference Values
RNA, Messenger - biosynthesis
Sciatic Nerve - enzymology
Spinal Cord - enzymology
Streptozotocin
Time Factors
Transcription, Genetic
title Protein kinase C isozyme expression in sciatic nerves and spinal cords of experimentally diabetic rats
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