| Literature DB >> 33392200 |
Camille Albrecht1,2, Andrey S Kuznetsov3,4,5, Aline Appert-Collin1,2, Zineb Dhaideh1,2, Maïté Callewaert1,6, Yaroslav V Bershatsky3,5, Anatoly S Urban3,5, Eduard V Bocharov3,5, Dominique Bagnard7,8, Stéphanie Baud1,2, Sébastien Blaise1,2, Béatrice Romier-Crouzet1,2, Roman G Efremov3,4,5, Manuel Dauchez1,2,9, Laurent Duca1,2, Marc Gueroult1,2, Pascal Maurice1,2, Amar Bennasroune1,2.
Abstract
Sialidases, or neuraminidases, are involved in several human disorders such as neurodegenerative, infectious and cardiovascular diseases, and cancers. Accumulative data have shown that inhibition of neuraminidases, such as NEU1 sialidase, may be a promising pharmacological target, and selective inhibitors of NEU1 are therefore needed to better understand the biological functions of this sialidase. In the present study, we designed interfering peptides (IntPep) that target a transmembrane dimerization interface previously identified in human NEU1 that controls its membrane dimerization and sialidase activity. Two complementary strategies were used to deliver the IntPep into cells, either flanked to a TAT sequence or non-tagged for solubilization in detergent micelles. Combined with molecular dynamics simulations and heteronuclear nuclear magnetic resonance (NMR) studies in membrane-mimicking environments, our results show that these IntPep are able to interact with the dimerization interface of human NEU1, to disrupt membrane NEU1 dimerization and to strongly decrease its sialidase activity at the plasma membrane. In conclusion, we report here new selective inhibitors of human NEU1 of strong interest to elucidate the biological functions of this sialidase.Entities:
Keywords: interfering peptides; membrane protein dimerization; neuraminidase-1; sialidase activity; transmembrane domain
Year: 2020 PMID: 33392200 PMCID: PMC7772355 DOI: 10.3389/fcell.2020.611121
Source DB: PubMed Journal: Front Cell Dev Biol ISSN: 2296-634X