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Experimental Rat Models of Types 1 and 2 Diabetes Differ in Sympathetic Neuroaxonal Dystrophy

by DORSEY, DENISE A. , PARVIN, CURTIS A. , SIMA, ANDERS A. F. , SCHMIDT, ROBERT E. , BEAUDET, LUCIE N. , ZHANG, WEIXIAN

in Animals / Autonomic Nervous System Diseases - metabolism / Autonomic Nervous System Diseases - pathology / Autonomic Nervous System Diseases - physiopathology / Biological and medical sciences / C-Peptide - metabolism / Diabetes Mellitus, Experimental - complications / Diabetes Mellitus, Type 1 - complications / Diabetes Mellitus, Type 1 - pathology / Diabetes Mellitus, Type 2 - complications / Diabetes Mellitus, Type 2 - pathology / Diabetic Neuropathies - metabolism / Diabetic Neuropathies - pathology / Diabetic Neuropathies - physiopathology / Disease Models, Animal / Ganglia, Sympathetic - metabolism / Ganglia, Sympathetic - pathology / Ganglia, Sympathetic - ultrastructure / Hyperglycemia - complications / Ileum - innervation / Ileum - physiopathology / Insulin - metabolism / Insulin-Like Growth Factor I - metabolism / Male / Medical sciences / Microscopy, Electron / Neuroaxonal Dystrophies - metabolism / Neuroaxonal Dystrophies - pathology / Neuroaxonal Dystrophies - physiopathology / Neurology / Rats / Rats, Mutant Strains / Sympathetic Fibers, Postganglionic - metabolism / Sympathetic Fibers, Postganglionic - pathology / Sympathetic Fibers, Postganglionic - ultrastructure

2004

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Experimental Rat Models of Types 1 and 2 Diabetes Differ in Sympathetic Neuroaxonal Dystrophy

by DORSEY, DENISE A. , PARVIN, CURTIS A. , SIMA, ANDERS A. F. , SCHMIDT, ROBERT E. , BEAUDET, LUCIE N. , ZHANG, WEIXIAN

2004

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Experimental Rat Models of Types 1 and 2 Diabetes Differ in Sympathetic Neuroaxonal Dystrophy

by DORSEY, DENISE A. , PARVIN, CURTIS A. , SIMA, ANDERS A. F. , SCHMIDT, ROBERT E. , BEAUDET, LUCIE N. , ZHANG, WEIXIAN

2004

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Journal Article

Experimental Rat Models of Types 1 and 2 Diabetes Differ in Sympathetic Neuroaxonal Dystrophy

DORSEY, DENISE A.,

PARVIN, CURTIS A.,

SIMA, ANDERS A. F.,

SCHMIDT, ROBERT E.,

BEAUDET, LUCIE N.,

ZHANG, WEIXIAN

2004

Overview

Dysfunction of the autonomic nervous system is a recognized complication of diabetes, ranging in severity from relatively minor sweating and pupillomotor abnormality to debilitating interference with cardiovascular, genitourinary, and alimentary dysfunction. Neuroaxonal dystrophy (NAD), a distinctive distal axonopathy involving terminal axons and synapses, represents the neuropathologic hallmark of diabetic sympathetic autonomic neuropathy in man and several insulinopenic experimental rodent models. Although the pathogenesis of diabetic sympathetic NAD is unknown, recent studies have suggested that loss of the neurotrophic effects of insulin and/or insulin-like growth factor-I (IGF-I) on sympathetic neurons rather than hyperglycemia per se, may be critical to its development. Therefore, in our current investigation we have compared the sympathetic neuropathology developing after 8 months of diabetes in the streptozotocin (STZ)-induced diabetic rat and BB/ Wor rat, both models of hypoinsulinemic type 1 diabetes, with the BBZDR/Wor rat, a hyperglycemic and hyperinsulinemic type 2 diabetes model. Both STZ- and BB/Wor-diabetic rats reproducibly developed NAD in nerve terminals in the prevertebral superior mesenteric sympathetic ganglia (SMG) and ileal mesenteric nerves. The BBZDR/Wor-diabetic rat, in comparison, failed to develop superior mesenteric ganglionic NAD in excess of that of age-matched controls. Similarly, NAD which developed in axons of ileal mesenteric nerves of BBZDR/Wor rats was substantially less frequent than in BB/Wor- and STZ-rats. These data, considered in the light of the results of previous experiments, argue that hyperglycemia alone is not sufficient to produce sympathetic ganglionic NAD, but rather that it may be the diabetes-induced superimposed loss of trophic support, likely of IGF-I, insulin, or C-peptide, that ultimately causes NAD.

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Publisher

American Association of Neuropathologists, Inc,Lippincott Williams & Wilkins,Oxford University Press

Subject

Animals

/ Autonomic Nervous System Diseases - metabolism

/ Autonomic Nervous System Diseases - pathology

/ Autonomic Nervous System Diseases - physiopathology

/ Biological and medical sciences

/ C-Peptide - metabolism

/ Diabetes Mellitus, Experimental - complications