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Diabetic peripheral neuropathy: Role of nitric oxide

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Diabetic peripheral neuropathy: Role of nitric oxide

Nitric Oxide
Volume 159, December 2025, Pages 147-160
Author : Zahra Bahadoran a, Asghar Ghasemi b

a Micronutrient Research Center, Research Institute for Endocrine Disorders, Research Institute for Endocrine Sciences, Shahid Beheshti University of Medical Sciences, Tehran, Iran

b Endocrine Physiology Research Center, Research Institute for Endocrine Molecular Biology, Research Institute for Endocrine Sciences, Shahid Beheshti University of Medical Sciences, Tehran, Iran

Received 30 June 2025, Revised 6 September 2025, Accepted 4 October 2025, Available online 5 October 2025, Version of Record 14 October 2025.

Highlights
  • DPN is associated with high constitutive nitric oxide synthase (cNOS)-derived nitric oxide (NO).
  • DPN is associated with low inducible NOS (iNOS)-derived NO.
  • Reduced cNOS-derived NO impairs nociceptive signaling and contributes to DPN.
  • Increased iNOS-derived NO contributes to nitrosative stress and developing DPN.
  • NO improves nerve perfusion in DPN and is a therapeutic target for managing DPN.
Abstract

Diabetic peripheral neuropathy (DPN) is one of the most prevalent long-term complications in type 1 (T1DM) and type 2 (T2DM) diabetes mellitus and is characterized by structural (microangiopathy, axonal atrophy, impaired myelination, and disrupted Schwann cell-axon interactions) and functional (impaired axonal transport and sensory and motor disorders) changes in neurons. Nitric oxide (NO) contributes to the development and progression of DPN as it has a role in the perfusion and electrophysiological functions of neurons. NO is essential for sustaining nerve conduction velocity (NCV) through modulation of Na+/K+-ATPase activity. Isoform-specific alterations in NO synthase (NOS) expression and activity occur during the development of DPN. Neural NOS (nNOS) generally exhibits consistent downregulation, especially in T2DM models, whereas inducible NOS (iNOS) tends to be upregulated in the T1DM model. NO has been proposed as a potential therapeutic agent for DPN because of its potent vasodilatory effects. NO-donating derivatives (e.g., NCX1404, PRG150) have demonstrated both symptomatic and disease-modifying effects in DPN. In conclusion, NO plays a role in the pathophysiology of DPN and is a therapeutic target for managing neuropathy in diabetes.

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