Does diabetes target ganglion neurones?: Progressive sensory neurone involvement in long-term experimental diabetes

doi:10.1093/brain/124.11.2319

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Brain, Vol. 124, No. 11, 2319-2334, November 2001
© 2001 Oxford University Press

Does diabetes target ganglion neurones?

Progressive sensory neurone involvement in long-term experimental diabetes

Douglas W. Zochodne¹, Valerie M. K. Verge², Chu Cheng¹, Hong Sun¹ and Jayne Johnston²

¹ Department of Clinical Neurosciences, University of Calgary, Alberta, ² Department of Anatomy and Cell Biology, University of Saskatchewan, Saskatoon, Saskatchewan, Canada

Correspondence to: Dr D. W. Zochodne, University of Calgary, Department of Clinical Neurosciences, Room 182A, 3330 Hospital Drive, NW Calgary, Alberta, Canada T2N 4N1 E-mail: dzochodn@ucalgary.ca

Targeting of dorsal root ganglia by diabetes could account forthe selective sensory abnormalities that patients with earlydiabetic polyneuropathy develop. In this work, we addressedsurvival, phenotype and gene expression in sensory neuronesin lumbar dorsal root ganglia in a long-term model of experimentalstreptozotocin-induced diabetes in rats, designed to reflecthuman disease. Motor and sensory conduction slowing developedearly, by the 2-month time point. At 2 months, sensory neuroneshad no detectable alterations in their calibre or gene expression,assessed using quantitative in situ hybridization studies formRNA markers that included ${alpha}$ CGRP, ßCGRP, NFM, t ${alpha}$ 1-tubulin,SP, VIP, B50 (GAP43), galanin, somatostatin, PACAP, HSP27, c-jun,SNAP 25, p75, TrkA, TrkB and TrkC. By 12 months, however, diabeticshad developed neurone perikaryal and distal axon atrophy, accompaniedby generalized downregulation of mRNA expression, particularlyof CGRP transcripts, PACAP, SP, NFM, p75, trkA and trkC. Withthe exception of HSP-27, no elevation in mRNAs that increaseafter injury, such as VIP, galanin, CCK, PACAP, B50 and t ${alpha}$ 1-tubulin,was observed and constitutive levels, when detectable, trendedtowards lower rather than increased levels. There was relativepreservation of neurone numbers at 12 months; only a non-significanttrend towards fewer diabetic neurones was detected using a rigorousand systematic physical dissector counting approach throughthe entire L5 ganglia. There was no change in the relative populationsof CGRP- and SP-immunoreactive neurones. Our findings indicatethat even long-term experimental diabetes is associated withrelative preservation of sensory neurone populations, but theneurones are atrophic and their gene expression is altered.This pattern of change differs from that following axotomy,implies a degenerative rather than an injury phenotype and hasimportant implications for how such neurones might be rescued.

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				V. Brussee, G. Guo, Y. Dong, C. Cheng, J. A. Martinez, D. Smith, G. W. Glazner, P. Fernyhough, and D. W. Zochodne Distal Degenerative Sensory Neuropathy in a Long-Term Type 2 Diabetes Rat Model Diabetes, June 1, 2008; 57(6): 1664 - 1673. [Abstract] [Full Text] [PDF]

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