Jaime A. Rodrı́guez scite author profile

Methanol, MeOH/water extracts, infusion, and decoction of Cymbopogon citratus were assessed for free radical scavenging effects measured by the bleaching of the 1,1-diphenyl-2-picryl-hydrazyl (DPPH) radical, scavenging of the superoxide anion, and inhibition of the enzyme xanthine oxidase (XO) and lipid peroxidation in human erythrocytes. The extracts presented effect in the DPPH and superoxide anion assay, with values ranging between 40 and 68% and 15-32% at 33 and 50 microg/mL, respectively, inhibited lipid peroxidation in erythrocytes by 19-71% at 500 microg/mL and were inactive toward the XO at 50 microg/mL. Isoorientin, isoscoparin, swertiajaponin, isoorientin 2' '-O-rhamnoside, orientin, chlorogenic acid, and caffeic acid were isolated and identified by spectroscopic methods. Isoorientin and orientin presented similar activities toward the DPPH (IC(50): 9-10 microM) and inhibited lipid peroxidation by 70% at 100 microg/mL. Caffeic and chlorogenic acid were active superoxide anion scavengers with IC(50) values of 68.8 and 54.2 microM, respectively, and a strong effect toward DPPH. Caffeic acid inhibited lipid peroxidation by 85% at 100 microg/mL.

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Arterial baroreflex alters strength and mechanisms of muscle metaboreflex during dynamic exercise

Kim¹,

Sala‐Mercado²,

Rodrı́guez³

et al. 2005

American Journal of Physiology-Heart and Circulatory Physiology

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. Arterial baroreflex alters strength and mechanisms of muscle metaboreflex during dynamic exercise. Am J Physiol Heart Circ Physiol 288: H1374 -H1380, 2005. First published November 11, 2004; doi:10.1152/ajpheart.01040. 2004.-Previous studies showed that the arterial baroreflex opposes the pressor response mediated by muscle metaboreflex activation during mild dynamic exercise. However, no studies have investigated the mechanisms contributing to metaboreflex-mediated pressor responses during dynamic exercise after arterial baroreceptor denervation. Therefore, we investigated the contribution of cardiac output (CO) and peripheral vasoconstriction in mediating the pressor response to graded reductions in hindlimb perfusion in conscious, chronically instrumented dogs before and after sinoaortic denervation (SAD) during mild and moderate exercise. In control experiments, the metaboreflex pressor responses were mediated via increases in CO. After SAD, the metaboreflex pressor responses were significantly greater and significantly smaller increases in CO occurred. During control experiments, nonischemic vascular conductance (NIVC) did not change with muscle metaboreflex activation, whereas after SAD NIVC significantly decreased with metaboreflex activation; thus SAD shifted the mechanisms of the muscle metaboreflex from mainly increases in CO to combined cardiac and peripheral vasoconstrictor responses. We conclude that the major mechanism by which the arterial baroreflex buffers the muscle metaboreflex is inhibition of metaboreflex-mediated peripheral vasoconstriction. sinoaortic denervation; cardiac output; pressor response THE MUSCLE METABOREFLEX is activated when intramuscular metabolites accumulate because of a mismatch between blood flow and metabolism, and this accumulation stimulates group III and IV afferent neurons within the active muscle. Activation of these nerves transmits signals to the brain stem, which elicits a reflex increase in sympathetic nerve activity and systemic arterial blood pressure (10,11,27). The reflex acts to partially restore blood flow to the hypoperfused muscle (22). This muscle metaboreflex mediated-pressor response is attributable to increases in cardiac output (CO) and peripheral vasoconstriction (12,18,39).Previous studies showed that during mild to moderate exercise the pressor response primarily depends on increased CO to improve the ischemic condition in active skeletal muscles (16,18,39). If a reduction in blood flow to active skeletal muscle occurs when there is sufficient cardiac reserve during mild to moderate exercise, the metaboreflex will increase CO and thus the total amount of blood flow available to active skeletal muscle. O'Leary and Augustyniak (18) demonstrated that activation of the muscle metaboreflex in conscious dogs during dynamic exercise produced significant increases in CO via the reflex tachycardia with constant stroke volume (SV), and this was the major mechanism causing the reflex increase in arterial pressure. However, when CO is at or near maximal l...

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Free radical scavengers and antioxidants from Baccharis grisebachii

Tapia

Rodrı́guez

Theoduloz

et al. 2004

Journal of Ethnopharmacology

108

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Free radical scavenging activity and phenolic content in achenes and thalamus from Fragaria chiloensis ssp. chiloensis, F. vesca and F. x ananassa cv. Chandler

et al. 2007

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Cytotoxicity of trans-Dehydrocrotonin from Croton cajucara on V79 Cells and Rat Hepatocytes

Rodrı́guez

Haun²

1999

Planta med

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The cytotoxicity of trans-dehydrocrotonin (DHC), an antiulcerogenic diterpene from Croton cajucara (Euphorbiaceae), was assessed on a V79 fibroblast cell line and on rat hepatocytes. Three independent endpoints for cytotoxicity were evaluated: DNA content, MTT reduction and neutral red uptake (NRU). For the V79 cells IC50 values of 253 and 360 microM were obtained for the NRU and MTT tests. The cytotoxic effect of DHC was time exposure dependent and no ability to recover after treatment was observed. For the rat hepatocytes IC50 values of 8, 300 and 400 microM for the MTT, DNA and NRU assays were obtained. The greater toxicity observed for the MTT test was inhibited when the experiment was performed using non-fresh hepatocytes in an age-dependent fashion. The treatment of V79 cells with the conditioned medium resulting after hepatocyte incubation with DHC showed an enhancement of MTT reduction without any evident toxic effects on fibroblasts. These results suggest that DHC has basal cytotoxic effects as observed on V79 fibroblasts and expresses a selective cytotoxicity after its metabolization by the hepatocytes. The bioactivation of DHC is mediated by cytochrome P450 and could generate metabolites that have no toxicity for V79 fibroblasts.

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