Donald J. Mirrlees scite author profile

We examined the effects of aldose reductase inhibition on nerve biochemistry and function, blood flow and endoneurial oxygenation in experimental diabetes mellitus. After 1 month untreated diabetes in rats, treatment with the novel sulphonylnitromethane aldose reductase inhibitor, ZENECA ZD5522, prevented a progressive increase in sciatic nerve resistance to hypoxic conduction failure (p < 0.05). Motor conduction velocity deficits after 4 months untreated diabetes were rapidly returned to normal within 12 days (p < 0.0001) by ZD5522 treatment. Following 2-months untreated diabetes, examination of 1 month ZD5522 treatment dose-response relationships for correction of nerve sorbitol and fructose accumulations and reduction in myo-inositol concentration, sciatic motor and saphenous sensory conduction velocity and sciatic blood flow by laser-Doppler flowmetry revealed poor agreement between nerve function and biochemical indices. In addition, polyol accumulation differed between sciatic and saphenous nerves, the latter showing ten-fold lower sorbitol concentrations. Laser-Doppler blood flow was 60% decreased by untreated diabetes (p < 0.001) and there was a strong correlation between ZD5522-mediated increases in blood flow and conduction velocity (p < 0.0001). Measurement of nutritive endoneurial blood flow by microelectrode polarography and hydrogen clearance showed 44% and 45% deficits for 1 and 2 months untreated diabetes (p < 0.001) that were prevented by ponalrestat and ZD5522 treatments, respectively. In contrast, 2 months myo-inositol treatment from diabetes induction did not prevent reduction in blood flow or sciatic motor conduction velocity. A 37% reduction in endoneurial oxygen tension after 2 months diabetes (p < 0.001) was completely prevented by ZD5522 treatment (p < 0.001). The data show that a very high degree of polyol pathway blockade is necessary to correct nerve functional deficits and that aldose reductase inhibitors have a neurovascular action that does not depend on restoration of nerve myo-inositol.

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Modification of the glyoxalase system in streptozotocin-Induced diabetic rats and the effect of the aldose reductase Inhibitor Statil

Mirrlees²,

1993

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Endothelial function in the isolated perfused mesentery and aortae of rats with streptozotocin‐induced diabetes: effect of treatment with the aldose reductase inhibitor, ponalrestat

Taylor¹,

Wickenden

Mirrlees

et al. 1994

British J Pharmacology

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1 Noradrenaline sensitivity and relaxation to acetylcholine were investigated in the isolated perfused mesentery and in aortic rings of control and streptozotocin (STZ)-induced (50 mg kg-') diabetic Charles River rats. 2 In addition, noradrenaline sensitivity and acetylcholine relaxation were similarly assessed in streptozotocin-induced diabetic rats treated from the time of onset of diabetes with the aldose reductase inhibitor, ponalrestat (100 mg kg-' day-'). 3 The untreated diabetic rats (2-10 weeks after injection of STZ) demonstrated enhanced vascular sensitivity to n6radrenaline in the perfused mesenteric arterial tree, compared with age matched controls (pECm [-log

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Ponalrestat: A potent and specific inhibitor of aldose reductase

Ward¹,

Sennitt²,

Ross³

et al. 1990

Biochemical Pharmacology

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Effects of Long-Term Aldose Reductase Inhibition on Development of Experimental Diabetic Neuropathy: Ultrastructural and Morphometric Studies of Sural Nerve in Streptozocin-Induced Diabetic Rats

Yagihashi

Kamijo

Ido

et al. 1990

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There is controversy over the efficacy of aldose reductase inhibitors in preventing the development of peripheral nerve lesions in experimental diabetes. This study was designed to show whether long-term (28-wk) inhibition of aldose reductase by ponalrestat influences structural changes in peripheral sensory nerve in rats with chronic streptozocin-induced diabetes. Sciatic nerve levels of sorbitol and fructose were significantly reduced but not completely normalized by ponalrestat treatment. myo-Inositol levels, which tended to decrease in diabetic rats, were significantly increased by ponalrestat treatment and exceeded the level in nondiabetic control rats (P less than 0.01). Ponalrestat treatment significantly increased nerve conduction velocity over the 28 wk of treatment (P less than 0.05), but levels remained well below those of control rats. Structural analysis of sural nerve of diabetic rats disclosed significant preventive effects of ponalrestat on the reduction in myelinated nerve fiber size and fiber occupancy. Axon-fiber size ratio was also preserved in the ponalrestat-treated group. However, diffuse deposition of glycogen and increased glycogenosomes within axons were not influenced by ponalrestat treatment. In contrast to the effect on myelinated nerve fibers, morphometry of unmyelinated nerve fibers did not reveal a significant effect of ponalrestat treatment. These results suggest that chronic treatment with an aldose reductase inhibitor has beneficial effects on the peripheral sensory nerve of experimentally diabetic rats. The effects were primarily on myelinated rather than unmyelinated nerve fibers.

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