Juliano R. Guerreiro

Bradykinin-potentiating peptides: Beyond captopril

The identification of novel endogenous and exogenous molecules acting in the complex mechanism of regulating the vascular tonus has always been of great interest. The discovery of bradykinin (1949) and the bradykinin-potentiating peptides (1965) had a pivotal influence in the field, respectively, in understanding cardiovascular pathophysiology and in the development of captopril, the first active-site directed inhibitor of angiotensin-converting enzyme, and used worldwide to treat human hypertension. Both discoveries originated from studies of envenoming by the snake Bothrops jararaca. The aim of the present article is to reveal that the snake proline-rich oligopeptides, known as bradykinin-potentiating peptides, are still a source of surprising scientific discoveries, some of them useful not only to reveal potential new targets but also to introduce prospective lead molecules for drug development. In particular, we emphasize argininosuccinate synthetase as a new functional target for one of bradykinin-potentiating peptides found in B. jararaca, Bj-BPP-10c. This decapeptide leads to argininosuccinate synthetase activation, consequently sustaining increased nitric oxide production, a critical endogenous molecule to reduce the arterial blood pressure.

Argininosuccinate Synthetase Is a Functional Target for a Snake Venom Anti-hypertensive Peptide ROLE IN ARGININE AND NITRIC OXIDE PRODUCTION

Bj-BPP-10c is a bioactive proline-rich decapeptide, part of the C-type natriuretic peptide precursor, expressed in the brain and in the venom gland of Bothrops jararaca. We recently showed that Bj-BPP-10c displays a strong, sustained anti-hypertensive effect in spontaneous hypertensive rats (SHR), without causing any effect in normotensive rats, by a pharmacological effect independent of angiotensin-converting enzyme inhibition. Therefore, we hypothesized that another mechanism should be involved in the peptide activity. Here we used affinity chromatography to search for kidney cytosolic proteins with affinity for Bj-BPP-10c and demonstrate that argininosuccinate synthetase (AsS) is the major protein binding to the peptide. More importantly, this interaction activates the catalytic activity of AsS in a dose-de pend ent manner. AsS is recognized as an important player of the citrulline-NO cycle that represents a potential limiting step in NO synthesis. Accordingly, the functional interaction of Bj-BPP-10c and AsS was evidenced by the following effects promoted by the peptide: (i) increase of NO metabolite production in human umbilical vein endothelial cell culture and of arginine in human embryonic kidney cells and (ii) increase of arginine plasma concentration in SHR. Moreover, α-methyl-dl-aspartic acid, a specific AsS inhibitor, significantly reduced the anti-hypertensive activity of Bj-BPP-10c in SHR. Taken together, these results suggest that AsS plays a role in the anti-hypertensive action of Bj-BPP-10c. Therefore, we propose the activation of AsS as a new mechanism for the anti-hypertensive effect of Bj-BPP-10c in SHR and AsS as a novel target for the therapy of hypertension-related diseases.

Assessing the role of endooligopeptidase activity of Ndel1 (nuclear-distribution gene E homolog like-1) in neurite outgrowth

Ndel1 plays multiple roles in neuronal development but it is unknown whether its reported cysteine protease activity is important for these processes. Ndel1 is known to be critical for neurite outgrowth in PC12 cells where it works co-operatively in a complex with DISC1 to allow normal neuritogenesis. Through an initial interest in understanding the regulation of the expression of Ndel1 during neuronal differentiation, we have been able to show that Ndel1 expression and enzyme activity is up-regulated during neurite outgrowth in PC12 cells induced to neural differentiation. Heterologous expression of wild-type Ndel1 (Ndel1(WT)) in PC12 cells increases the percentage of cells bearing neurites in contrast to the catalytically dead mutant, Ndel1(C273A), which caused a decrease. Furthermore depletion of endogenous Ndel1 by RNAi decreased neurite outgrowth, which was rescued by transfection of the enzymatically active Ndel1(WT), but not by the Ndel1(C273A) mutant. Together these data support the notion that the endooligopeptidase activity of Ndel1 plays a crucial role in the differentiation process of PC12 cells to neurons. Genetic data and protein interaction with DISC1 might suggest a role for Ndel1 in neuropsychiatirc conditions.

BPP-5a produces a potent and long-lasting NO-dependent antihypertensive effect

Background: The bradykinin potentiating peptides (BPPs) are oligopeptides found in different animal venoms. BPPs isolated from Bothrops jararaca venom were the first natural inhibitors described for somatic angiotensin I-converting enzyme (ACE). They were used in the structural modeling for captopril development, a classical ACE inhibitor widely used to treat human hypertension. Methods: We evaluated the effect of BPP-5a on cardiovascular parameters of conscious Wistar (WTs) and spontaneously hypertensive rats (SHRs). Results: In SHR, BPP-5a showed potent cardiovascular effects, at doses ranging from 0.47 to 710 nmol/kg. The maximal changes in mean arterial pressure (MAP) and heart rate (HR) were found at the dose of 2.37 nmol/kg (Δ MAP: −38 ± 4 mmHg, p < 0.01; Δ HR: −71 ± 17 bpm, p < 0.05). Reductions in MAP and HR occurred throughout 6 hours of post-injection period. In contrast to active site-directed ACE inhibitors, no ACE inhibition, evaluated by the Ang I pressor effect, or bradykinin potentiation was observed during the antihypertensive effect of the pentapeptide. In vitro assays showed no effects of BPP-5a upon argininosuccinate synthetase and B1, B2, AT1, AT2 or Mas receptors. Ex vivo assays showed that BPP-5a induced endothelium-dependent vasorelaxation in isolated aortic rings of SHRs and WTs. Conclusions: Although the BPP-5a is considered an ACE inhibitor, our results indicate that its antihypertensive effect is exerted via a unique target, a nitric-oxide-dependent mechanism.

Proline rich-oligopeptides: Diverse mechanisms for antihypertensive action

Bradykinin-potentiating peptides from Bothrops jararaca (Bj) discovered in the early 1960s, were the first natural inhibitors of the angiotensin-converting enzyme (ACE). These peptides belong to a large family of snake venom proline-rich oligopeptides (PROs). One of these peptides, Bj-PRO-9a, was essential for defining ACE as effective drug target and development of captopril, an active site-directed inhibitor of ACE used worldwide for the treatment of human arterial hypertension. Recent experimental evidences demonstrated that cardiovascular effects exerted by different Bj-PROs are due to distinct mechanisms besides of ACE inhibition. In the present work, we have investigated the cardiovascular actions of four Bj-PROs, namely Bj-PRO-9a, -11e, -12b and -13a. Bj-PRO-9a acts upon ACE and BK activities to promote blood pressure reduction. Although the others Bj-PROs are also able to inhibit the ACE activity and to potentiate the BK effects, our results indicate that antihypertensive effect evoked by them involve new mechanisms. Bj-PRO-11e and Bj-PRO-12b involves induction of [Ca(2+)]i transients by so far unknown receptor proteins. Moreover, we have suggested argininosuccinate synthetase and M3 muscarinic receptor as targets for cardiovascular effects elicited by Bj-PRO-13a. In summary, the herein reported results provide evidence that Bj-PRO-mediated effects are not restricted to ACE inhibition or potentiation of BK-induced effects and suggest different actions for each peptide for promoting arterial pressure reduction. The present study reveals the complexity of the effects exerted by Bj-PROs for cardiovascular control, opening avenues for the better understanding of blood pressure regulation and for the development of novel therapeutic approaches.

Brain nitric oxide production by a proline-rich decapeptide from Bothrops jararaca venom improves baroreflex sensitivity of spontaneously hypertensive rats

Baroreflex sensitivity is disturbed in many people with cardiovascular diseases such as hypertension. Brain deficiency of nitric oxide (NO), which is synthesized by NO synthase (NOS) in the citrulline–NO cycle (with argininosuccinate synthase (ASS) activity being the rate-limiting step), contributes to impaired baroreflex. We recently showed that a decapeptide isolated from Bothrops jararaca snake venom, denoted Bj-PRO-10c, exerts powerful and sustained antihypertensive activity. Bj-PRO-10c promoted vasodilatation dependent on the positive modulation of ASS activity and NO production in the endothelium, and also acted on the central nervous system, inducing the release of GABA and glutamate, two important neurotransmitters in the regulation of autonomic systems. We evaluated baroreflex function using the regression line obtained by the best-fit points of measured heart rate (HR) and mean arterial pressure (MAP) data from spontaneously hypertensive rats (SHRs) treated with Bj-PRO-10c. We also investigated molecular mechanisms involved in this effect, both in vitro and in vivo. Bj-PRO-10c mediated an increase in baroreflex sensitivity and a decrease in MAP and HR. The effects exerted by the peptide include an increase in the gene expression of endothelial NOS and ASS. Bj-PRO-10c-induced NO production depended on intracellular calcium fluxes and the activation of a Gi/o-protein-coupled metabotropic receptor. Bj-PRO-10c induced NO production and the gene expression of ASS and endothelial NOS in the brains of SHRs, thereby improving baroreflex sensitivity. Bj-PRO-10c may reveal novel approaches for treating diseases with impaired baroreflex function.

Enhancement of the citrulline-nitric oxide cycle in astroglioma cells by the proline-rich peptide-10c from Bothrops jararaca venom.

The biological activity of the proline-rich decapeptide Bj-PRO-10c, a processing product of the C-type natriuretic peptide precursor protein, expressed in the brain and the venom gland of the pit viper Bothrops jararaca, was originally attributed to the inhibition of the somatic angiotensin-converting enzyme activity with subsequent anti-hypertensive effect. However, recent results suggest broader biological activity may also be involved in the cardiovascular effects of this peptide. Here we show that Bj-PRO-10c enhances and sustains the generation of nitric oxide (NO) by regulating argininosuccinate synthase activity and thereby velocity of the citrulline-NO cycle. Bj-PRO-10c-mediated effects not restricted to the cardiovascular system, since NO production was also induced in cells of astroglial origin. Bj-PRO-10c was internalized by C6 astroglioma cells where it induces NO production and upregulation of the citrulline-NO cycle cells in a dose-dependent fashion. In view of that, astroglial cells function as L-arginine pool for NO production in neighboring neurons, we suggest a regulatory function for Bj-PRO-10c on the metabolism of this gaseous neurotransmitter in the CNS. Moreover, proliferation of astroglial cells was reduced in the presence of Bj-PRO-10c; however, cell death was not induced. Since NO donors have been studied for the treatment of solid cancers, Bj-PRO-10c may serve as structural model for developing drugs to improve the effects of cancer therapy based on the peptides ability to augment NO production.