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Cytokine Signaling in Diabetic Neuropathy: A Key Player in Peripheral Nerve Damage Publisher



Nashtahosseini Z1 ; Eslami M2 ; Paraandavaji E3 ; Haraj A4 ; Dowlat BF5 ; Hosseinzadeh E6 ; Oksenych V7 ; Naderian R8
Authors
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Authors Affiliations
  1. 1. Department of Biology, University of Guilan, Rasht, 41996-13776, Iran
  2. 2. Cancer Research Center, Semnan University of Medical Sciences, Semnan, 35147-99442, Iran
  3. 3. Clinical Research Development Center, Baharloo Hospital, Tehran University of Medical Sciences, Tehran, 13399-73111, Iran
  4. 4. Student Research Committee, Faculty of Medicine, Iran University of Medical Sciences, Tehran, 14496-1453, Iran
  5. 5. Faculty of Medicine, Iran University of Medical Sciences, Tehran, 14496-1453, Iran
  6. 6. Department of Surgery, School of Medicine, Semnan University of Medical Sciences, Semnan, 35147-99442, Iran
  7. 7. Faculty of Medicine, University of Bergen, Bergen, 5020, Norway
  8. 8. Clinical Research Development Unit, Kowsar Educational, Research and Therapeutic Hospital, Semnan University of Medical Sciences, Semnan, 35147-99442, Iran

Source: Biomedicines Published:2025


Abstract

Diabetic peripheral neuropathy (DPN) is a debilitating complication of diabetes mellitus, characterized by progressive nerve damage driven by chronic hyperglycemia and systemic inflammation. The pathophysiology of DPN is significantly influenced by pro-inflammatory cytokines, such as IL-1β, IL-6, and TNF-α. These cytokines promote oxidative stress, vascular dysfunction, and neuronal degeneration by activating important signaling pathways including NF-κB and MAPK. While IL-6 promotes a pro-inflammatory microenvironment, increasing neuronal damage and neuropathic pain, TNF-α and IL-1β worsen Schwann cell failure by compromising axonal support and causing demyelination. Immune cell infiltration and TLR activation increase the inflammatory cascade in DPN, resulting in a persistent neuroinflammatory state that sustains peripheral nerve injury. The main characteristics of DPN are axonal degeneration, decreased neurotrophic support, and Schwann cell dysfunction, which weaken nerve transmission and increase susceptibility to damage. Advanced glycation end-products, TNF-α, and CXCL10 are examples of biomarkers that may be used for early diagnosis and disease progression monitoring. Additionally, crucial molecular targets have been found using proteomic and transcriptome techniques, enabling precision medicine for the treatment of DPN. This review emphasizes the importance of cytokine signaling in the pathogenesis of DPN and how cytokine-targeted treatments might reduce inflammation, restore nerve function, and improve clinical outcomes for diabetic patients. © 2025 by the authors.
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