A flavivirus protein M-derived peptide directly permeabilizes mitochondrial membranes, triggers cell death and reduces human tumor growth in nude mice

Magali Brabant, Ludwig Baux, Richard Casimir, Jean Paul Briand, Olivier Chaloin, Mathieu Porceddu, Nelly Buron, David Chauvier, Myriam Lassalle, Hervé Lecoeur, Alain Langonné, Sylvie Dupont, Olivier Déas, Catherine Brenner, Dominique Rebouillat, Sylviane Muller, Annie Borgne-Sanchez, Etienne Jacotot

Résultats de recherche: Contribution à un journalArticleRevue par des pairs

14 Citations (Scopus)

Résumé

Dengue viruses belong to the Flavivirus family and are responsible for hemorrhagic fever in Human. Dengue virus infection triggers apoptosis especially through the expression of the small membrane (M) protein. Using isolated mitochondria, we found that synthetic peptides containing the C-terminus part of the M ectodomain caused apoptosis-related mitochondrial membrane permeabilization (MMP) events. These events include matrix swelling and the dissipation of the mitochondrial transmembrane potential (ΔΨ m). Protein M Flavivirus sequence alignments and helical wheel projections reveal a conserved distribution of charged residues. Moreover, when combined to the cell penetrating HIV-1 Tat peptide transduction domain (Tat-PTD), this sequence triggers a caspase-dependent cell death associated with ΔΨm loss and cytochrome c release. Mutational approaches coupled to functional screening on isolated mitochondria resulted in the selection of a protein M derived sequence containing nine residues with potent MMP-inducing properties on isolated mitochondria. A chimeric peptide composed of a Tat-PTD linked to the 9-mer entity triggers MMP and cell death. Finally, local administration of this chimeric peptide induces growth inhibition of xenograft prostate PC3 tumors in immuno-compromised mice, and significantly enhances animal survival. Together, these findings support the notion of using viral genomes as valuable sources to discover mitochondria-targeted sequences that may lead to the development of new anticancer compounds.

langue originaleAnglais
Pages (de - à)1190-1203
Nombre de pages14
journalApoptosis
Volume14
Numéro de publication10
Les DOIs
étatPublié - 1 oct. 2009
Modification externeOui

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