Literature DB >> 27129258

Engineering Highly Potent and Selective Microproteins against Nav1.7 Sodium Channel for Treatment of Pain.

Anatoly Shcherbatko1, Andrea Rossi1, Davide Foletti1, Guoyun Zhu1, Oren Bogin2, Meritxell Galindo Casas1, Mathias Rickert1, Adela Hasa-Moreno1, Victor Bartsevich2, Andreas Crameri2, Alexander R Steiner3, Robert Henningsen3, Avinash Gill3, Jaume Pons1, David L Shelton1, Arvind Rajpal1, Pavel Strop4.   

Abstract

The prominent role of voltage-gated sodium channel 1.7 (Nav1.7) in nociception was revealed by remarkable human clinical and genetic evidence. Development of potent and subtype-selective inhibitors of this ion channel is crucial for obtaining therapeutically useful analgesic compounds. Microproteins isolated from animal venoms have been identified as promising therapeutic leads for ion channels, because they naturally evolved to be potent ion channel blockers. Here, we report the engineering of highly potent and selective inhibitors of the Nav1.7 channel based on tarantula ceratotoxin-1 (CcoTx1). We utilized a combination of directed evolution, saturation mutagenesis, chemical modification, and rational drug design to obtain higher potency and selectivity to the Nav1.7 channel. The resulting microproteins are highly potent (IC50 to Nav1.7 of 2.5 nm) and selective. We achieved 80- and 20-fold selectivity over the closely related Nav1.2 and Nav1.6 channels, respectively, and the IC50 on skeletal (Nav1.4) and cardiac (Nav1.5) sodium channels is above 3000 nm The lead molecules have the potential for future clinical development as novel therapeutics in the treatment of pain.
© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.

Entities:  

Keywords:  Nav1.7; ceratotoxin; directed evolution; engineering; pain; sodium channel; structure-function; toxin

Mesh:

Substances:

Year:  2016        PMID: 27129258      PMCID: PMC4933158          DOI: 10.1074/jbc.M116.725978

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  51 in total

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6.  The tarantula toxin β/δ-TRTX-Pre1a highlights the importance of the S1-S2 voltage-sensor region for sodium channel subtype selectivity.

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10.  Pharmacological characterization of potent and selective NaV1.7 inhibitors engineered from Chilobrachys jingzhao tarantula venom peptide JzTx-V.

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