Insights on the inhibition properties of Jatromollistatin (a cyclic heptapeptide) against Crotalus adamanteus metalloendopeptidase using molecular docking analysis.

Jatropha mollissima is endemic to Brazil and is used for traditional medicinal purposes, including the treatment of snakebite. In this study, latex obtained from this plant was fractioned using reversed-phase chromatography, and the fractions were then screened for peptides. A 755 g/mol peptide was obtained, and MS/MS analyses indicated it had a cyclic sequence (Pro-Leu-Gly-Val-Leu-Leu-Tyr). This peptide sequence was present in the Jatropha genome database, and an identity value of 90.71%, an E-value of 0.0, and a score of 883 with NO-associated protein 1/chloroplastic/mitochondria of Jatropha curcas were obtained from the NCBI nonredundant protein sequence (nr) database. Molecular docking analyses performed with the peptide against a metalloendopeptidase belonging to Crotalus adamanteus snake venom suggested the cyclic peptide establishes favorable interactions with the catalytic site of the enzyme. Therefore, it could inhibit enzyme catalysis. This belief was corroborated by the formation of 6 hydrogen bonds with the linear form of the peptide. Tighter complexation of the cyclic form (41 kcal/mol more energetic) revealed better spatial blocking. The linear form outperformed the cyclic form in complexing the required energy, recruiting more catalytic residues (6/2), and in establishing more hydrogen bonds (6/3). However, cyclic folding provided a more significant spatial block within the catalytic site. The set of results suggests that the cycle peptide, here called Jatromollistatin, which was previously described as jatrophidin and pohlianin A in two other species of Jatropha, is a promising candidate to inhibit venom proteases. This belief is corroborated by the topical use of the latex for initial treatment of snakebites.

Insights on the phytochemical profile (cyclopeptides) and biological activities of Calotropis procera latex organic fractions.

Calotropis procera is a medicinal plant whose pharmacological properties are associated with its latex. Here, the Calotropis procera latex fractions were investigated in an attempt to trace its phytochemical profile and measure its anti-inflammatory and toxicity activity. The crude latex was partitioned, yielding five fractions (49.4% hexane, 5.2% dichloromethane, 2.0% ethyl acetate, 2.1% n-butanol, and 41.1% aqueous). Phytochemical screening and spectroscopy analysis revealed that dichloromethane is the most chemically diverse fraction. Triterpenes were detected in both the hexane and dichloromethane fractions, while flavonoids were detected in the dichloromethane and ethyl acetate fractions. These fractions were cytotoxic to cancer cell lines (LD50 0.05 to 3.9 µ g/mL) and lethal to brine shrimp (LD50 10.9 to 65.7 µ g/mL). Reduced neutrophil migration in rats was observed in carrageenan-induced peritonitis for the dichloromethane (67%), ethyl acetate (56%), and aqueous (72%) fractions. A positive reaction with tolidine and ninhydrin suggested that cyclopeptides are in the ethyl acetate fraction. It is therefore concluded that Calotropis procera latex dichloromethane and ethyl acetate fractions exhibit both in vitro and in vivo activities as well as anti-inflammatory properties. Cyclopeptide detection is especially interesting because previous attempts to investigate these low-molecular cyclic amino acid sequences in C. procera have failed.

Somatic embryogenesis in cassava genotypes from the northeast of Brazil

A method for the induction of somatic embryogenesis in eight cassava genotypes from northeastern Brazil is described. The explants used were shoot apexes isolated both from in vitro grown plants and from shoots that sprouted from stem cuttings. Somatic embryogenesis was achieved in high frequencies by the addition in the induction medium of the auxin picloram over a wide range of concentrations. Green cotyledons of primary somatic embryos were used as explants to induce somatic (cyclic) secondary embryogenesis in an inducing medium supplemented with picloram at 12 mg/L. The method could be used not only for the mass production of plants of the cassava genotypes, but also to generate explants (green cotyledons of somatic embryos) as themselves excellent targets for genetic transformation.

Um método para a indução de embriogênese somática em oito genótipos de mandioca cultivados no Nordeste brasileiro foi desenvolvido. A indução de embriogênese somática foi feita utilizando como explantes ápices caulinares isolados de plantas cultivadas in vitro e ápices caulinares isolados a partir de brotações induzidas em casa-de-vegetação em manivas de plantas adultas. Em todos os genótipos a auxina picloram, em uma ampla faixa de concentrações, foi capaz de induzir embriogênese somática em altas freqüências e com um grande número de embriões por explante. Foi mostrado também, que é possível induzir embriogênese somática secundária (cíclica) a partir de cotilédones verdes de embriões somáticos maduros, utilizando picloram no meio de indução. O método aqui apresentado poderá ser utilizado para a produção em massa de plantas dos genótipos utilizados. A alta freqüência de embriogênese somática secundária obtida quando cotilédones verdes de embriões somáticos são utilizados como explantes, mostra que tais cotilédones podem se constituir em excelentes alvos para a transformação genética e posterior obtenção de plantas transgênicas de mandioca.