CPP-Ts: a new intracellular calcium channel modulator and a promising tool for drug delivery in cancer cells

Bárbara Bruna Ribeiro De Oliveira-Mendes,Evanguedes Kalapothakis,Anderson Oliveira Do Carmo,André Luis Branco De Barros,Douglas Ferreira Sales-Medina,Carlos Chávez-Olortégui,M Fátima Leite,Sued Eustáquio Mendes Miranda,Gabriela Lago Biscoto,Pedro Ferreira Pinto Brandão-Dias,Valbert Nascimento Cardoso,Carla Jeane Aguiar,Hortênsia Gomes Leal,Carolina Campolina Rebello Horta

doi:10.1038/s41598-018-33133-3

Bárbara Bruna Ribeiro De Oliveira-Mendes, Evanguedes Kalapothakis + Show 12 more

Open Access

https://doi.org/10.1038/s41598-018-33133-3

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Abstract

Scorpion sting envenoming impacts millions of people worldwide, with cardiac effects being one of the main causes of death on victims. Here we describe the first Ca2+ channel toxin present in Tityus serrulatus (Ts) venom, a cell penetrating peptide (CPP) named CPP-Ts. We show that CPP-Ts increases intracellular Ca2+ release through the activation of nuclear InsP3R of cardiomyocytes, thereby causing an increase in the contraction frequency of these cells. Besides proposing a novel subfamily of Ca2+ active toxins, we investigated its potential use as a drug delivery system targeting cancer cell nucleus using CPP-Ts’s nuclear-targeting property. To this end, we prepared a synthetic CPP-Ts sub peptide14–39 lacking pharmacological activity which was directed to the nucleus of specific cancer cell lines. This research identifies a novel subfamily of Ca2+ active toxins and provides new insights into biotechnological applications of animal venoms.

Highlights

Scorpion sting envenoming impacts millions of people worldwide, with cardiac effects being one of the main causes of death on victims
cell penetrating peptide (CPP)-Tityus serrulatus (Ts) was found for the first time as a component of Ts venom through transcriptome analysis
The complete toxin is composed of 288 bp, and the predicted amino acid sequence is amino acid 68 residues in length (CPP-Ts amino acid sequence: MNPKLLIVIGLL LATGVCSFAKALDEESLRKECNHLNEPCDSDGDCCTSSEQCISTGSKYFCKGKQGP)

Summary

Introduction

Scorpion sting envenoming impacts millions of people worldwide, with cardiac effects being one of the main causes of death on victims. Besides proposing a novel subfamily of Ca2+ active toxins, we investigated its potential use as a drug delivery system targeting cancer cell nucleus using CPP-Ts’s nuclear-targeting property. The CaTxs act on voltage-dependent plasma membrane or intracellular Ca2+ channels[10,11,12] The latter pertains to the scorpionic calcine family, which is interesting because these toxins belong to the cell penetrating peptides (CPPs)

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