Recombinant botulinum neurotoxin serotype A1 in vivo characterization

Cindy Périer; Vincent Martin; Sylvie Cornet; Christine Favre‐Guilmard; Marie‐Noelle Rocher; Julien Bindler; Stéphanie Wagner; Emile Andriambeloson; Brian B. Rudkin; Rudy Marty; Alban Vignaud; Matthew Beard; Stephane Lezmi; Mikhail Kalinichev

doi:10.1002/prp2.857

Pharmacology Research & Perspectives (Oct 2021)

Recombinant botulinum neurotoxin serotype A1 in vivo characterization

Cindy Périer,
Vincent Martin,
Sylvie Cornet,
Christine Favre‐Guilmard,
Marie‐Noelle Rocher,
Julien Bindler,
Stéphanie Wagner,
Emile Andriambeloson,
Brian B. Rudkin,
Rudy Marty,
Alban Vignaud,
Matthew Beard,
Stephane Lezmi,
Mikhail Kalinichev

Affiliations

Cindy Périer: Ipsen Innovation Les Ulis France
Vincent Martin: Ipsen Innovation Les Ulis France
Sylvie Cornet: Ipsen Innovation Les Ulis France
Christine Favre‐Guilmard: Ipsen Innovation Les Ulis France
Marie‐Noelle Rocher: Ipsen Innovation Les Ulis France
Julien Bindler: Neurofit SAS Illkirch France
Stéphanie Wagner: Neurofit SAS Illkirch France
Emile Andriambeloson: Neurofit SAS Illkirch France
Brian B. Rudkin: CARPACCIO.cloud Lyon France
Rudy Marty: CARPACCIO.cloud Lyon France
Alban Vignaud: Ipsen Innovation Les Ulis France
Matthew Beard: Ipsen Bioinnovation Abingdon UK
Stephane Lezmi: Ipsen Innovation Les Ulis France
Mikhail Kalinichev: Ipsen Innovation Les Ulis France

DOI: https://doi.org/10.1002/prp2.857
Journal volume & issue: Vol. 9, no. 5
pp. n/a – n/a

Abstract

Read online

Abstract Clinically used botulinum neurotoxins (BoNTs) are natural products of Clostridium botulinum. A novel, recombinant BoNT type A1 (rBoNT/A1; IPN10260) has been synthesized using the native amino acid sequence expressed in Escherichia coli and has previously been characterized in vitro and ex vivo. Here, we aimed to characterize rBoNT/A1 in vivo and evaluate its effects on skeletal muscle. The properties of rBoNT/A1 following single, intramuscular administration were evaluated in the mouse and rat digit abduction score (DAS) assays and compared with those of natural BoNT/A1 (nBoNT/A1). rBoNT/A1‐injected tibialis anterior was assessed in the in situ muscle force test in rats. rBoNT/A1‐injected gastrocnemius lateralis (GL) muscle was assessed in the compound muscle action potential (CMAP) test in rats. The rBoNT/A1‐injected GL muscle was evaluated for muscle weight, volume, myofiber composition and immunohistochemical detection of cleaved SNAP25 (c‐SNAP25). Results showed that rBoNT/A1 and nBoNT/A1 were equipotent and had similar onset and duration of action in both mouse and rat DAS assays. rBoNT/A1 caused a dose‐dependent inhibition of muscle force and a rapid long‐lasting reduction in CMAP amplitude that lasted for at least 30 days. Dose‐dependent reductions in GL weight and volume and increases in myofiber atrophy were accompanied by immunohistochemical detection of c‐SNAP25. Overall, rBoNT/A1 and nBoNT/A1 exhibited similar properties following intramuscular administration. rBoNT/A1 inhibited motoneurons neurotransmitter release, which was robust, long‐lasting, and accompanied by cleavage of SNAP25. rBoNT/A1 is a useful tool molecule for comparison with current natural and future modified recombinant neurotoxins products.

Published in Pharmacology Research & Perspectives

ISSN: 2052-1707 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Therapeutics. Pharmacology
Website: http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)2052-1707

About the journal

Abstract

Keywords