Nicotinamide and Nicotinoyl-Gamma-Aminobutyric Acid as Neuroprotective Agents Against Type 1 Diabetes-Induced Nervous System Impairments in Rats

Abstract

Diabetes is a multifunctional chronic disease that affects both the central and/or peripheral nervous systems. This study assessed whether nicotinamide (NAm) or conjugate of nicotinic acid with gamma-aminobutyric acid (N-GABA) could be potential neuroprotective agents against type 1 diabetes (T1D)-induced nervous system impairments in rats. After six weeks of T1D, induced by streptozotocin, nonlinear male Wistar rats were treated for two weeks with NAm (100 mg/kg, i. p.) or N-GABA (55 mg/kg, i. p.). Expression levels of myelin basic protein (MBP) were analyzed by immunoblotting. Polyol pathway parameters of the sciatic nerves were assessed spectrophotometrically, and their structure was examined histologically. NAm had no effect on blood glucose or body weight in T1D, while N-GABA reduced glucose by 1.5-fold. N-GABA also increased MBP expression by 1.48-fold, enhancing neuronal myelination, while NAm showed no such effect. Activation of the polyol pathway was observed in the T1D sciatic nerves. Both compounds decreased sorbitol content and aldose reductase activity, thereby alleviating changes similar to primary degeneration in the sciatic nerves and preventing peripheral neuropathy development. These results demonstrate that NAm and, more notably, N-GABA may exert neuroprotective effects against T1D-induced nervous system impairments by increasing MBP expression levels, improving myelination processes in the brain, inhibiting the polyol pathway, and partially restoring morphometric parameters in the sciatic nerves. This suggests their potential therapeutic efficacy as promising agents for the prevention of T1D-induced nervous system alterations.