Jorge Alfonso scite author profile

We report in vivo and in vitro antileishmanial and trypanocidal activities of a new series of N-substituted benzene and naphthalenesulfonamides 1-15. Compounds 1-15 were screened in vitro against Leishmania infantum , Leishmania braziliensis , Leishmania guyanensis , Leishmania amazonensis , and Trypanosoma cruzi . Sulfonamides 6e, 10b, and 10d displayed remarkable activity and selectivity toward T. cruzi epimastigotes and amastigotes. 6e showed significant trypanocidal activity on parasitemia in a murine model of acute Chagas disease. Moreover, 6e, 8c, 9c, 12c, and 14d displayed interesting IC50 values against Leishmania spp promastigotes as well as L. amazonensis and L. infantum amastigotes. 9c showed excellent in vivo activity (up to 97% inhibition of the parasite growth) in a short-term treatment murine model for acute infection by L. infantum. In addition, the effect of compounds 9c and 14d on tubulin as potential target was assessed by confocal microscopy analysis applied to L. infantum promastigotes.

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BmajPLA 2 -II, a basic Lys49-phospholipase A 2 homologue from Bothrops marajoensis snake venom with parasiticidal potential

Grabner

Alfonso

Kayano

et al. 2017

International Journal of Biological Macromolecules

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Snake venoms contain various proteins, especially phospholipases A (PLAs), which present potential applications in diverse areas of health and medicine. In this study, a new basic PLA from Bothrops marajoensis with parasiticidal activity was purified and characterized biochemically and biologically. B. marajoensis venom was fractionated through cation exchange followed by reverse phase chromatographies. The isolated toxin, BmajPLA-II, was structurally characterized with MALDI-TOF (Matrix-assisted laser desorption/ionization-time of flight) mass spectrometry, sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), followed by two-dimensional electrophoresis, partial amino acid sequencing, an enzymatic activity assay, circular dichroism, and dynamic light scattering assays. These structural characterization tests presented BmajPLA-II as a basic Lys49 PLA homologue, compatible with other basic snake venom PLAs (svPLA), with a tendency to form aggregations. The in vitro anti-parasitic potential of B. marajoensis venom and of BmajPLA-II was evaluated against Leishmania infantum promastigotes and Trypanosoma cruzi epimastigotes, showing significant activity at a concentration of 100μg/mL. The venom and BmajPLA-II presented IC of 0.14±0.08 and 6.41±0.64μg/mL, respectively, against intraerythrocytic forms of Plasmodium falciparum with CC cytotoxicity values against HepG2 cells of 43.64±7.94 and >150μg/mL, respectively. The biotechnological potential of these substances in relation to leishmaniasis, Chagas disease and malaria should be more deeply investigated.

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Antitumoral Potential of Snake Venom Phospholipases A2 and Synthetic Peptides

Sobrinho¹,

Simões-Silva²,

Holanda³

et al. 2016

CPB

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Cancer, a disease that currently affects approximately 14 million people, is characterized by abnormal cell growth with altered replication capacity, which leads to the development of tumor masses without apoptotic control. Resistance to the drugs used in chemotherapy and their side effects stimulate scientific research seeking new therapies to combat this disease. Molecules from flora and fauna with cytotoxic activity against tumor cells have been studied for their potential to become a source of pharmaceutical agents. In this regard, snake venoms have a variety of proteins and peptides that have proven biotechnological potential. In several studies, antibacterial action and antitumor activity have been observed. One of the most widely studied venom components are phospholipases A2. Snake venom phospholipases A2 (svPLA2s) comprise a large class of molecules that catalyze the hydrolysis of the sn-2 position of phospholipids releasing fatty acids and lysophospholipids and are related to a broad spectrum of biotechnological activities. In addition to their specific cytotoxicity against some tumor cell lines, inhibitory activity of angiogenesis, adhesion and cell migration has been described. The antitumor activity of svPLA2s was observed both in vitro and in vivo, but little is known about the mechanism of action of these proteins in promoting this activity. In this review, the main structural and functional characteristics of svPLA2s are discussed, along with the mechanisms proposed, thus far, to explain their antitumor activity, targeting their potential use as a therapeutic alternative against cancer.

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Jorge Alfonso

In Vitro and in Vivo Antileishmanial and Trypanocidal Studies of New N-Benzene- and N-Naphthalenesulfonamide Derivatives

BmajPLA 2 -II, a basic Lys49-phospholipase A 2 homologue from Bothrops marajoensis snake venom with parasiticidal potential

Antitumoral Potential of Snake Venom Phospholipases A2 and Synthetic Peptides

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