Reversal of experimental diabetic neuropathy by VEGF gene transfer
Peter Schratzberger, … , Allan H. Ropper, Jeffrey M. Isner
Peter Schratzberger, … , Allan H. Ropper, Jeffrey M. Isner
Published May 1, 2001
Citation Information: J Clin Invest. 2001;107(9):1083-1092. https://doi.org/10.1172/JCI12188.
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Reversal of experimental diabetic neuropathy by VEGF gene transfer

Abstract

The pathogenetic basis for diabetic neuropathy has been enigmatic. Using two different animal models of diabetes, we have investigated the hypothesis that experimental diabetic neuropathy results from destruction of the vasa nervorum and can be reversed by administration of an angiogenic growth factor. Nerve blood flow, as measured by laser Doppler imaging or direct detection of a locally administered fluorescent lectin analogue, was markedly attenuated in rats with streptozotocin-induced diabetes, consistent with a profound reduction in the number of vessels observed. A severe peripheral neuropathy developed in parallel, characterized by significant slowing of motor and sensory nerve conduction velocities, compared with nondiabetic control animals. In contrast, 4 weeks after intramuscular gene transfer of plasmid DNA encoding VEGF-1 or VEGF-2, vascularity and blood flow in the nerves of treated animals were similar to those of nondiabetic control rats; constitutive overexpression of both transgenes resulted in restoration of large and small fiber peripheral nerve function. Similar experiments performed in a rabbit model of alloxan-induced diabetes produced comparable results. These findings support the notion that diabetic neuropathy results from microvascular ischemia involving the vasa nervorum and suggest the feasibility of a novel treatment strategy for patients in whom peripheral neuropathy constitutes a secondary complication of diabetes.

Authors

Peter Schratzberger, Dirk H. Walter, Kilian Rittig, Ferdinand H. Bahlmann, Roberto Pola, Cynthia Curry, Marcy Silver, Joseph G. Krainin, David H. Weinberg, Allan H. Ropper, Jeffrey M. Isner

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Figure 4

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In vivo LDPI of blood flow in rat sciatic nerve 4 weeks after gene trans...
In vivo LDPI of blood flow in rat sciatic nerve 4 weeks after gene transfer or saline injection. Nerves were surgically exposed from the sciatic notch to the knee level before three repeated LDPI measurements were obtained from the region of interest. (a) Bar graph (mean ± SEM) summarizes results of LDPI measurements taken from both sides of five rats per study group. AP < 0.01 versus nondiabetic saline-injected. BP < 0.01 versus diabetic saline-injected. (b) Representative color-coded LDPI. Lowest blood flow is indicated in blue, maximum blood flow in red, and intermediate grading in green and yellow. Nondiabetic saline-injected: perfusion of sciatic nerve in a normal, age-matched rat that underwent saline injection. Diabetic saline-injected: markedly reduced perfusion of sciatic nerve in a diabetic rat, 4 weeks after saline injection. Diabetic VEGF gene transfer: substantial restoration of sciatic nerve perfusion in a diabetic rat 4 weeks after VEGF gene transfer.