Heat shock proteins in chronic pain: From molecular chaperones to pain modulators.

Neuropharmacology

Neuroscience and Pain Research Laboratory, Department of Pharmaceutical Engineering & Technology, Indian Institute of Technology (Banaras Hindu University), Varanasi, Uttar Pradesh, India. Electronic address:

Published: December 2024

AI Article Synopsis

  • * Heat shock proteins (HSPs) are essential in responding to stress and inflammation, affecting pain signaling and contributing to central sensitization in the spinal cord.
  • * Research indicates that targeting HSPs could lead to new treatment options for chronic pain, with ongoing studies using AI and machine learning to enhance drug discovery related to HSPs.

Article Abstract

Chronic pain is the most prevalent and complex clinical disorder,affecting approximately 30% of people globally. Various intricate alterations in nociceptive pathways responsible for chronic pain are linked to long-term tissue damage or injury to the peripheral or central nervous systems. These include remolding in the phenotype of cells and fluctuations in the expression of proteins such as ion channels, neurotransmitters, and receptors. Heat shock proteins are important molecular chaperone proteins in cell responses to stress, including inflammation, neurodegeneration, and pain signaling. They play a key role in activating glial and endothelial cells and in the production of inflammatory mediators and excitatory amino acids in both peripheral and central nervous systems. In particular, they contribute to central sensitization and hyperactivation within the dorsal horn of the spinal cord. The expression of some HSPs plays a remarkable role in upregulating pain response by acting as scavengers of ROS, controlling inflammatory cytokines. Different HSPs act by different mechanisms and several important pathways have been implicated in targeting HSPs for the treatment of neuropathic pain including p38-mitogen-activated protein kinases (MAPKs), extracellular signal-regulated kinases (ERKs), brain-derived neurotrophic factors (BDNF). We summarize the role of HSPs in various preclinical and clinical studies and the crosstalk of HSPs with various nociceptors and other pain models. We also highlighted some artificial intelligence tools and machine learning-assisted drug discovery methods for rapid screening of HSPs in various diseases. Focusing on HSPs could lead to the development of new therapeutics that modulate pain responses and enhance our understanding of pain in various pathological conditions and neurological disorders.

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Source
http://dx.doi.org/10.1016/j.neuropharm.2024.110263DOI Listing

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