The supernatants were filtered through a 0 22 μm filter (Millipor

The supernatants were filtered through a 0.22 μm filter (Millipore, Bedfor, MA) and the hemoglobin

in the samples was determined spectrophotometrically at 540 nm. The amount of hemoglobin was calculated from a known amount used as standard assayed in parallel. The results were expressed as μg Hb mg−1 of wet tissue. A two-tailed, unpaired Student’s t test was done to determine statistical significance by the probability of difference between the means. p < 0.05 www.selleckchem.com/products/Decitabine.html was considered statistically significant. Values are expressed as mean ± SE. The sequence of the disintegrin-like cDNA presented 279 bp long with the deduced sequence containing 93 amino acids (Fig. 1). The putative primary structure includes 15 cysteine residues and the ECD-motif, the molecular mass was estimated as 10.4 kDa and the isoelectric point 4.1. The protein is 98% homologous to the disintegrin-like segment of jararhagin and 66% homologous to the disintegrin-like segment of leucurolysin-B (leuc-B, Sanchez et al., 2007), an SVMP present in the B. leucurus venom ( Fig. 2) and therefore was named leucurogin. Leucurogin was RO4929097 concentration successfully expressed by P. pastoris.

Salts were removed and the protein concentrated using the hollow-fiber system. The protein was purified by one chromatography step process involving ion exchange on DEAE-cellulose. Highly purified leucurogin eluted with the buffer containing 200 mM NaCl ( Fig. 3A). Fractions containing purified leucurogin were pooled (showed by horizontal line) and loaded on SDS-PAGE. As shown in the Fig. 3B the purified protein presented one band of approximately 10.4 kDa. Leucurogin presented 98% homology with jararhagin’s disintegrin-like domain. Therefore, we utilized an anti-jararhagin antibody for the characterization of its immunological properties. Leucurogin was recognized

by anti-jararhagin antibody (Fig. 4B). As can be seen in Fig. 4A, a second band corresponding to molecular mass of 27 kDa, present for in a partially purified fraction of the venom, probably the dis-cys product of hydrolysis of some SVMP from B. leucurus venom and a third band from the crude venom (V), corresponding to molecular mass around 60 kDa, probably one native metalloproteinase, were also recognized by that antiserum. Crude venom and P2 are fractions from a purification process described by Sanchez et al. (2007). Leucurogin showed to be able to inhibit collagen-induced platelet aggregation but not the one induced by ADP (Fig. 5) or AA. At 0.65 μM leucurogin inhibited 50% of platelet aggregation. At 1.3 μM leucurogin was able to inhibit 100% of platelet aggregation induced by collagen. Tumor mass was evaluated on the 8th day after the beginning of treatment. Leucurogin administration inhibited 30% the tumor growth even at the lower dose of 5 μg/day (0.

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