Development of ProTx-II Analogues as Highly Selective Peptide Blockers of Nav1.7 for the Treatment of Pain

Gregory L Adams; Parul S Pall; Steven M Grauer; Xiaoping Zhou; Jeanine E Ballard; Marissa Vavrek; Richard L Kraus; Pierre Morissette; Nianyu Li; Stefania Colarusso; Elisabetta Bianchi; Anandan Palani; Rebecca Klein; Christopher T John; Deping Wang; Matthew Tudor; Andrew F Nolting; Mirlinda Biba; Timothy Nowak; Alexey A Makarov; Mikhail Reibarkh; Alexei V Buevich; Wendy Zhong; Erik L Regalado; Xiao Wang; Qi Gao; Aurash Shahripour; Yuping Zhu; Daniele de Simone; Tommaso Frattarelli; Nicolo' Maria Pasquini; Paola Magotti; Roberto Iaccarino; Yuxing Li; Kelli Solly; Keun-Joong Lee; Weixun Wang; Feifei Chen; Haoyu Zeng; Jixin Wang; Hilary Regan; Rupesh P Amin; Christopher P Regan; Christopher S Burgey; Darrell A Henze; Chengzao Sun; David M Tellers

doi:10.1021/acs.jmedchem.1c01570

Development of ProTx-II Analogues as Highly Selective Peptide Blockers of Na_v1.7 for the Treatment of Pain

J Med Chem. 2022 Jan 13;65(1):485-496. doi: 10.1021/acs.jmedchem.1c01570. Epub 2021 Dec 21.

Authors

Gregory L Adams¹, Parul S Pall¹, Steven M Grauer¹, Xiaoping Zhou¹, Jeanine E Ballard¹, Marissa Vavrek¹, Richard L Kraus¹, Pierre Morissette¹, Nianyu Li¹, Stefania Colarusso², Elisabetta Bianchi², Anandan Palani³, Rebecca Klein¹, Christopher T John¹, Deping Wang¹, Matthew Tudor¹, Andrew F Nolting¹, Mirlinda Biba⁴, Timothy Nowak³, Alexey A Makarov⁴, Mikhail Reibarkh⁴, Alexei V Buevich³, Wendy Zhong⁴, Erik L Regalado⁴, Xiao Wang⁴, Qi Gao⁴, Aurash Shahripour¹, Yuping Zhu³, Daniele de Simone², Tommaso Frattarelli², Nicolo' Maria Pasquini², Paola Magotti², Roberto Iaccarino², Yuxing Li¹, Kelli Solly¹, Keun-Joong Lee⁴, Weixun Wang¹, Feifei Chen¹, Haoyu Zeng¹, Jixin Wang¹, Hilary Regan¹, Rupesh P Amin¹, Christopher P Regan¹, Christopher S Burgey¹, Darrell A Henze¹, Chengzao Sun¹, David M Tellers¹

Affiliations

¹ Merck & Co., Inc., West Point, Pennsylvania 19486, United States.
² Peptides and Small Molecules R&D Department, IRBM Spa, Via Pontina km 30.600, 00071 Pomezia (RM), Italy.
³ Merck & Co., Inc., Kenilworth, New Jersey 07033, United States.
⁴ Merck & Co., Inc., Rahway, New Jersey 07065, United States.

PMID: 34931831
DOI: 10.1021/acs.jmedchem.1c01570

Abstract

Inhibitor cystine knot peptides, derived from venom, have evolved to block ion channel function but are often toxic when dosed at pharmacologically relevant levels in vivo. The article describes the design of analogues of ProTx-II that safely display systemic in vivo blocking of Na_v1.7, resulting in a latency of response to thermal stimuli in rodents. The new designs achieve a better in vivo profile by improving ion channel selectivity and limiting the ability of the peptides to cause mast cell degranulation. The design rationale, structural modeling, in vitro profiles, and rat tail flick outcomes are disclosed and discussed.

MeSH terms

Animals
Cell Degranulation / drug effects
Cystine / chemistry
Drug Design
Hot Temperature
Mast Cells / drug effects
Models, Molecular
NAV1.7 Voltage-Gated Sodium Channel / drug effects*
Pain / drug therapy*
Pain Measurement / drug effects
Rats
Sodium Channel Blockers / chemical synthesis*
Sodium Channel Blockers / pharmacology*
Spider Venoms / chemical synthesis*
Spider Venoms / pharmacology

Substances

NAV1.7 Voltage-Gated Sodium Channel
ProTx-II peptide
Scn9a protein, rat
Sodium Channel Blockers
Spider Venoms
Cystine