@article{35cea74e33b14a1193e99a19d8b57b32,
title = "Challenging the catechism of therapeutics for chronic neuropathic pain: Targeting CaV2.2 interactions with CRMP2 peptides",
abstract = "Chronic neuropathic pain management is a worldwide concern. Pharmaceutical companies globally have historically targeted ion channels as the therapeutic catechism with many blockbuster successes. Remarkably, no new pain therapeutic has been approved by European or American regulatory agencies over the last decade. This article will provide an overview of an alternative approach to ion channel drug discovery: targeting regulators of ion channels, specifically focusing on voltage-gated calcium channels. We will highlight the discovery of an anti-nociceptive peptide derived from a novel calcium channel interacting partner - the collapsin response mediator protein 2 (CRMP2). In vivo administration of this peptide reduces pain behavior in a number of models of neuropathic pain without affecting sympathetic-associated cardiovascular activity, memory retrieval, sensorimotor function, or depression. A CRMP2-derived peptide analgesic, with restricted access to the CNS, represents a completely novel approach to the treatment of severe pain with an improved safety profile. As peptides now represent one of the fastest growing classes of new drugs, it is expected that peptide targeting of protein interactions within the calcium channel complex may be a paradigm shift in ion channel drug discovery.",
keywords = "Anti-nociceptive, CRMP2, Calcium channels, Neuropathic pain, Peptide",
author = "Polina Feldman and Rajesh Khanna",
note = "Funding Information: The authors thank colleagues at the Stark Neurosciences Research Institute (SNRI), Dr. Joel M. Brittain for fractionation data, Professor Fletcher A. White (Anesthesia, Indiana University) for collaborations on pain models, Dr. May Khanna for isothermal titration calorimetric experiments, and Dr. Joe Trebley at the Indiana University Research and Technology Commercialization for help with Sophia Therapeutics, LLC. This work was supported, in part, by grants from the Indiana Clinical and Translational Sciences Institute (CTSI) funded, in part by a Project Development Team Grant Number ( RR025761 ) from the National Institutes of Health , National Center for Research Resources, Clinical and Translational Sciences Award , the Indiana State Department of Health – Spinal Cord and Brain Injury Fund ( A70-9-079138 to R.K.), the Indiana University Biomedical Committee – Research Support Funds ( 2286501 to R.K), a National Scientist Development from the American Heart Association ( SDG5280023 to R.K.), a Research Inventions and Scientific Commercialization grant (to R.K.) from the Indiana CTSI, a Funding Opportunities for Research Commercialization and Economic Success (FORCES) grant initiative from the Indiana CTSI (to R.K.), and the Elwert Award in Medicine to R.K. We also acknowledge funding from the BioCrossroads New Venture competition. R.K. is a co-founder of Sophia Therapeutics, LLC. ",
year = "2013",
month = dec,
day = "17",
doi = "10.1016/j.neulet.2013.06.057",
language = "English (US)",
volume = "557",
pages = "27--36",
journal = "Neuroscience Letters",
issn = "0304-3940",
publisher = "Elsevier Ireland Ltd",
}