Activity of recombinant and natural defensins from Vigna unguiculata seeds against Leishmania amazonensis.

Antimicrobial peptides (AMPs), which are differentiated from other antibiotic peptides, such as gramicidins and polymyxins, because they are synthesized by large enzymatic complex and bear modified amino acids including d-amino acids, are short polymers of l-amino acids synthesized by ribosomes upon which all living organisms rely to defend themselves from invaders or competitor microorganisms. AMPs have received a great deal of attention from the scientific community as potential new drugs for neglected diseases such as Leishmaniasis. In plants, they include several families of compounds, including the plant defensins. The aim of the present study was to improve the expression of recombinant defensin from Vigna unguiculata seeds (Vu-Defr) and to test its activity against Leishmania amazonensis promatigotes. Recombinant expression was performed in LB and TB media and under different conditions. The purification of Vu-Defr was achieved by immobilized metal ion affinity and reversed-phase chromatography. The purified Vu-Defr was analyzed by circular dichroism (CD), and its biological activity was tested against L. amazonenis promastigotes. To demonstrate that the recombinant production of Vu-Defr did not interfere with its fold and biological activity, the results of all experiments were compared with the results from the natural defensin (Vu-Def). The CD spectra of both peptides presented good superimposition indicating that both peptides present very similar secondary structure and that the Vu-Defr was correctly folded. L. amazonensis treated with Vu-Defr led to the elimination of 54.3% and 46.9% of the parasites at 24 and 48h of incubation time, respectively. Vu-Def eliminated 50% and 54.8% of the parasites at 24 and 48 h, respectively. Both were used at a concentration of 100 µg/mL. These results suggested the potential for plant defensins to be used as new antiparasitic substances.

Mobilization of reserve proteins and activities of cysteine peptidases during germinative and post-germinative events of cowpea seeds.

Cysteine peptidases are the best characterized peptidases among those involved with storage protein mobilization during seed germination. In the present work we show two major groups of cysteine peptidase activities, one of higher (55 to 97 kDa) and other with lower (15 to 20 kDa) molecular masses which are temporally activated after 24 and 48 HAI, respectively, in germinating cowpeas. The former group is found both in protein bodies and in cytoplasmic fraction, while the latter is mostly present outside protein bodies. A third cysteine peptidase activity of ~37 kDa was specifically active at quiescent cotyledons and at 12 and 60 hours after imbibition (HAI). Main peptidase activities of albumin fractions were synchronizedly detected with radicle emergence at 36 HAI. Major vicilin mobilization was more pronounced from 60 HAI onwards and steadily increased until 144 HAI, when low levels of the smallest vicilin subunit were present. Cysteine peptidases were susceptible to iodoacetamide, E-64, iodoacetic acid, pCMB and ß-mercaptoethanol, except for the ~37 kDa peptidase, which was not affected by any of the inhibitors. By a two-dimensional native/SDS-PAGE combination it was observed an apparent linear arrangement of protein breakdown products as well as of peptidase activity spots. The finding may indicate a complex set of sequential proteolytic events where peptidases induce or activate new peptidases, which may act upon different aggregates or zymogens, and these hydrolysis products appear in a line of constant decreasing Rf x Mr ratio.

Adição de ácido cítrico potencializa a ação de ácidos húmicos e altera o perfil protéico da membrana plasmática em raízes de milho / Citric acid addition improve humic acids action and change proteins profile from plasma membrane of maize roots

A promoção do crescimento vegetal pelos ácidos húmicos tem sido atribuída a ações similares a hormônios, devido à promoção do desenvolvimento e proliferação das raízes, resultando numa absorção mais eficiente de água e nutrientes. O objetivo deste trabalho foi analisar as mudanças na arquitetura radicular em plântulas de milho e no perfil de proteínas da membrana plasmática (MP) promovidas pelo tratamento com ácidos húmicos (AH) isolados de vermicomposto (20mg C L-1). O efeito da adição de ácido cítrico (AC), importante ácido orgânico presente nos exudados radiculares, sobre a bioatividade destes AH também foi investigada. Foram analisados o comprimento da raiz principal, o número de sítios de mitose, o número e comprimento de raízes laterais e a área radicular total. Para a análise do perfil protéico, vesículas da MP de células de raízes foram obtidas por fracionamento celular e as proteínas analisadas por eletroforese uni (1D) e bidimensional (2D). Observou-se que a adição de AC (0,005mM) aos AH estimularam a promoção do crescimento das raízes laterais (126 por cento), da área radicular (58 por cento) e do número de raízes laterais (55 por cento) em relação às plantas controle. A atividade da bomba de H+ da membrana plasmática, analisada como marcador bioquímico de indução do mecanismo do crescimento ácido, também foi significativamente estimulada (374 por cento) pela solução húmica suplementada com AC. O perfil protéico da MP revelou uma supressão da expressão das proteínas nesta membrana, induzida pelo tratamento com AH e, na presença de AC, esse efeito foi ainda mais evidente. Os resultados obtidos corroboram o mecanismo proposto para a bioatividade de AH no qual a ação de ácidos orgânicos exudados pelas plantas, tais como o AC, promove o rompimento da associação supramolecular dessas substâncias, tornando as moléculas bioativas presentes nos agregados húmicos mais acessíveis aos receptores celulares das raízes.

The plant growth stimulation by humic acids (HA) has been attributed to a hormone-like effect as promoting the root development and proliferation, resulting in a more efficient water and nutrient absorption. This research aims to investigate how the humic acids isolated from vermicompost (20mg L-1) can modify the root architecture and the plasma membrane (PM) protein patterns in maize roots. It was also analyzed the effect of the citric acid (CA), an organic acid present in root exudates. The changes induced in the corn root system were estimated by measuring the taproot length, the amount of root mitotic sites and lateral roots, and the total root area. Plasma membrane vesicles were purified by cell fractionation and the protein patterns were analyzed by uni (1D) and bidimensional (2D) electrophoresis. The results show that the HA in solution with CA (0.005mM) increases the lateral root growth promotion (126 percent), the root area (58 percent), and the number of lateral roots (55 percent). The activity of the plasma membrane H+ pump, analyzed as a marker of the induction of the acid growth mechanism, was also enhanced (374 percent) by the humic solution supplemented with CA. Expression of several plasma membrane proteins was inhibited when plants were treated with HA and this effect was more pronounced upon CA supplementation. The obtained results corroborate the proposed mechanism for the HA bioactivity, by which under the action of root-exuded organic acids, such as CA, a disruption of the HA macrostructure is promoted releasing bioactive molecules presented in the humic aggregates, which becomes more accessible to the root cell receptors.