Wioletta Pijacka scite author profile

In the spontaneously hypertensive (SH) rat, hyperoxic inactivation of the carotid body (CB) produces a rapid and pronounced fall in both arterial pressure and renal sympathetic nerve activity (RSA). Here we show that CB de-afferentation through carotid sinus nerve denervation (CSD) reduces the overactive sympathetic activity in SH rats, providing an effective antihypertensive treatment. We demonstrate that CSD lowers RSA chronically and that this is accompanied by a depressor response in SH but not normotensive rats. The drop in blood pressure is not dependent on renal nerve integrity but mechanistically accompanied by a resetting of the RSA-baroreflex function curve, sensitization of the cardiac baroreflex, changes in renal excretory function and reduced T-lymphocyte infiltration. We further show that combined with renal denervation, CSD remains effective, producing a summative response indicative of an independent mechanism. Our findings indicate that CB de-afferentation is an effective means for robust and sustained sympathoinhibition, which could translate to patients with neurogenic hypertension.

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Purinergic receptors in the carotid body as a new drug target for controlling hypertension

Pijacka

Moraes

Ratcliffe

et al. 2016

Nat Med

162

173

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Given the proportion of individuals with resistance to, and poor compliance or tolerance of, antihypertensive medication new drugs to treat this syndrome are required urgently. We show that peripheral chemoreceptors generate aberrant signalling contributing to high blood pressure in hypertension and thus reveal a novel target. We discovered that P2x3 receptor mRNA expression was up regulated substantially in chemoreceptive petrosal sensory neurones in hypertensive rats. These neurones generated both tonic drive and hyperreflexia in hypertensive (but not normotensive rats), and both phenomena were normalised by blockade of P2X3 receptors. Antagonism of P2X3 receptors also reduced arterial pressure and basal sympathetic activity and normalised carotid body hyperreflexia in conscious hypertensive rats; no effect was observed in normotensive rats. These preclinical data support the P2X3 receptor as a putative novel target for controlling human

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‘happy on norflurazon’ (hon) mutations implicate perturbance of plastid homeostasis with activating stress acclimatization and changing nuclear gene expression in norflurazon‐treated seedlings

et al. 2011

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). † These authors contributed equally to this work. SUMMARYVarious mutant screens have been undertaken to identify constituents involved in the transmission of signals from the plastid to the nucleus. Many of these screens have been performed using carotenoid-deficient plants grown in the presence of norflurazon (NF), an inhibitor of phytoene desaturase. NF-treated plants are bleached and suppress the expression of nuclear genes encoding chloroplast proteins. Several genomes uncoupled (gun) mutants have been isolated that de-repress the expression of these nuclear genes. In the present study, a genetic screen has been established that circumvents severe photo-oxidative stress in NF-treated plants. Under these modified screening conditions, happy on norflurazon (hon) mutants have been identified that, like gun mutants, de-repress expression of the Lhcb gene, encoding a light-harvesting chlorophyll protein, but, in contrast to wild-type and gun mutants, are green in the presence of NF. hon mutations disturb plastid protein homeostasis, thereby activating plastid signaling and inducing stress acclimatization. Rather than defining constituents of a retrograde signaling pathway specifically associated with the NF-induced suppression of nuclear gene expression, as proposed for gun, hon mutations affect Lhcb expression more indirectly prior to initiation of plastid signaling in NF-treated seedlings. They pre-condition seedlings by inducing stress acclimatization, thereby attenuating the impact of a subsequent NF treatment.

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