Swati Kundu scite author profile

Exposure to lead is known to cause vasoconstriction, exact mechanism of which remains to be elucidated. In this study, we investigate contractile responses of rat aortal rings equilibrated with Pb(II) in organ bath system, explore pathways responsible for hypercontraction and examine two ameliorators of lead-induced hypercontraction. At 1 μmol L(-1) Pb(II), aortal rings showed an average increase of 50% in isometric contraction. Incubation of rings, unexposed to Pb(II), with 1 μmol L(-1) sodium nitroprusside (nitric oxide (NO) donor), 100 μmol L(-1) apocynin (reactive oxygen species (ROS) inhibitor), and 100 μmol L(-1) indomethacin (cyclooxygenase inhibitor) lead to decrease in phenylephrine-induced contraction by 31, 27, and 29%, respectively. This decrease of contraction for Pb(II)-exposed rings was 48, 53, and 38%, respectively, indicating that ROS- and NO-dependent components of contractions are significantly elevated in Pb(II)-induced hypercontraction. Cyclooxygenase-dependent contractile component did not show significant elevation. Eugenol and carvacrol are plant-derived phenols known to possess antioxidant activity and hence could act as possible ameliorators of hypercontraction. At saturating concentrations of 100 μmol L(-1), eugenol and carvacrol caused a decrease in contraction by 38 and 42% in unexposed rings and 46 and 50% in Pb(II)-exposed rings. Co-incubation of rings with eugenol/carvacrol and various inhibitors suggests that both these active principles exert their relaxant effect via quenching of ROS and stimulation of NO synthesis. To conclude, Pb(II) is shown to induce hypercontraction of aortal rings through elevation of ROS and depletion of NO. This hypercontraction is effectively mitigated by eugenol and carvacrol.

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Inhibition of As(III) and Hg(II) caused aortic hypercontraction by eugenol, linalool and carvone

Kundu

Shabir

Basir

et al. 2014

J. Smooth Muscle Res.

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Acute and chronic exposure to arsenic and mercury is known to produce vasoconstriction. There is, however, no clarity concerning the pathways leading to this increased contraction. In this study we elicit and compare maximum contractility of rat aortas under resting conditions in the presence of arsenic and mercury, and delineate pathways mediating this effect. Phenylephrine (PE) induced hypercontraction of 37% and 32% were obtained when isolated aortic segments were exposed to 25 µM As(III) and 6 nM Hg(II), respectively. Isometric contraction measurements in presence of apocynin, verapamil and sodium nitroprusside indicates that the major causes of increased contraction are reactive oxygen species (ROS) and depletion of nitric oxide (NO). Calcium influx plays a minor role in arsenic and mercury caused hypercontraction. In unexposed aorta, eugenol causes relaxation by inhibiting ROS and elevating NO, linalool by blocking voltage dependent calcium channel (VDCC) and elevating NO, and carvone by blocking calcium influx through VDDC. Since the arsenic and mercury hypercontraction is mediated by increased ROS and depleted NO, we hypothesize that molecules which neutralize ROS or elevate NO will be better ameliorators. In line with this argument, we found eugenol to be the best ameliorator of arsenic and mercury hypercontraction followed by linalool and carvone.

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Amelioration of lead- and cadmium-induced rat tracheal hypercontraction by linalool and eugenol

Shabir

Kundu

Basir

et al. 2014

Toxicological & Environmental Chemistry

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Lifestyle-induced Stress Drives the Natural Immune Oscillations and COVID-19 Infections

Kundu¹,

Carrasco²,

Kini³

2020

Preprint

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Coronavirus and COVID-19 infections continue to wreak havoc across the world. Interestingly, the COVID-19 infections and deaths display a clear seven-day cycles. Mathematical analysis using linear mixed-effects models show that this periodicity is not due to reporting errors. We hypothesize that these COVID-19 cycles are related to natural immune cycles which also oscillate every seven days. These immune cycles are regulated by stress and mediated through the endocrine and the central nervous systems. Our routine activities and lifestyle of more stressful weekdays flanked by less stressful, relaxing weekends define the seven-day immune cycles. The synchronized low immunity levels in the population is responsible for repeated seven-day waves of pathogenic infections such as COVID-19. The new understanding of the role of immune oscillations will help in developing strategies to enhance our immunity through modified lifestyle and better, innovative prophylactic and therapeutic approaches against infectious diseases.

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Swati Kundu

Inhibition of spleen tyrosine kinase signaling protects against acute lung injury through blockade of NADPH oxidase and IL-17A in neutrophils and γδ T cells respectively in mice

Modulation of Pb(II) Caused Aortal Constriction by Eugenol and Carvacrol

Inhibition of As(III) and Hg(II) caused aortic hypercontraction by eugenol, linalool and carvone

Amelioration of lead- and cadmium-induced rat tracheal hypercontraction by linalool and eugenol

Lifestyle-induced Stress Drives the Natural Immune Oscillations and COVID-19 Infections

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