Paracetamol-induced metabolic and cardiovascular changes are prevented by exercise training.

Paracetamol (PAR) is the most frequently consumed non-prescription drug, yet it is well known to induce toxicity. Here, we have evaluated the effects of exercise training on vascular dysfunction induced by PAR. Rats were distributed among four groups: (a) Sedentary; (b) Exercise; (c) Sedentary+PAR; and (d) Exercise+PAR. The exercise comprised swimming 50 min/d, 5 d/wk for 6 weeks (+PAR in the last 2 weeks, at 400 mg/kg/d/p.o.). After killing, the rats' blood and aortas were collected for biochemical analysis of hepatic transaminases, TBARs reaction, glutathione, glutathione reductase, SOD, and catalase. In vitro vascular relaxation was measured using acetylcholine and sodium nitroprusside in the presence or absence of tiron (an antioxidant). Vascular protein expression (eNOS and sGC) also were analysed. Increased transaminases after PAR treatment were found to be reduced by exercise. Vasodilation was impaired by PAR only in the sedentary group. Exercise prevented alterations in lipoperoxidation and glutathione levels after PAR exposure. Glutaathione reductase and SOD also were increased by PAR but were normalized in the exercised group. Catalase activity and protein expressions did not change in any group. PAR treatment caused impairment in both vasodilation and redox balance; however, exercise training prevented the vascular and redox system dysfunction induced by PAR treatment.

Radical Scavenger Capacity of Jabuticaba Fruit (Myrciaria cauliflora) and Its Biological Effects in Hypertensive Rats.

Jabuticaba is an exotic fruit native to Brazil that has been arousing medicinal interest. Using chemical (HPLC-PDA, resonance mass spectra, and NMR), electroanalytical (differential pulse voltammetry, radical scavenging assay), and pharmacological (in vivo and in vitro) approaches, we have identified its bioactive compounds and hypotensive effects on hypertensive rats. The hydroalcoholic extract of jabuticaba (HEJ) presents a great quantity of phenolic compounds, and several molecules with hydroxyl groups present high efficiency as an antioxidant. The treatment with HEJ (100 and 300 mg/kg/day, for four weeks) presented hypotensive effects on L-NAME-induced hypertensive rats, possibly improving the nitric oxide bioavailability because of its high antioxidant potential. Furthermore, renal and cardiac hypertrophies were also attenuated after the HEJ treatment. Moreover, the vascular responses to contractile and dilating agonists were improved with the HEJ treatment, which is also able to induce nitric oxide production in endothelial cells.

Blocking the L-type Ca2+ channel (Cav 1.2) is the key mechanism for the vascular relaxing effect of Pterodon spp. and its isolated diterpene methyl-6α-acetoxy-7ß-hydroxyvouacapan-17ß-oate.

Pterodon spp. Vogel (Fabaceae), popularly known as "sucupira", has ethnopharmacological application which is described as having antispasmodic and relaxant effects. Hence, it was hypothesized that sucupira oil-resin (SOR) could induce smooth muscle relaxation. So, this study investigated the mechanisms involved in the vasorelaxant effect of SOR and its isolated diterpene (methyl-6α-acetoxy-7ß-hydroxyvouacapan-17ß-oate). Vascular reactivity experiments were performed using rat aortic rings (n=5-8) with (E+) or without endothelium (E-) in an isolated bath organ. The SOR (0-56 µg/mL) relaxed phenylephrine (E+: 86.7±7.1%; E-: 92.3±4.7%) and KCl contracted rings (E-: 97.1±2.8%). In the same way, diterpene (0-48 µg/mL) also relaxed phenylephrine (E+: 94.5±3.6%; E-: 92.2±3.4%) and KCl contracted rings (E-: 99.7±0.2%). The pre-incubation of arterial rings with cyclopiazonic acid (reticular Ca2+-ATPase inhibitor), tetraethylammonium (K+ channels blocker) or MDL-12,330A (adenylyl cyclesinhibitor) did not modify either SOR- or diterpeneinduced vasorelaxation. However, ODQ (guanylyl cyclase inhibitor) impaired only diterpene-induced vasorelaxation. SOR and diterpene significantly reduced CaCl2-induced contraction stimulated by Bay K8644 (1 µM), phenylephrine (0.1 µM) or KCl solution (40 mM). Computational molecular docking studies demonstrated that the vasodilator effect of diterpene relies on blocking the Cav 1.2 channel, and patch clamp results showed that diterpene substantially decreased the ionic current through Cav 1.2 in freshly dissociated vascular smooth muscle cells. These findings suggest that SOR and its isolated diterpene induce endothelium-independent vascular relaxation by blocking the L-type Ca2+ channel (Cav 1.2).