Pulmonary Arterial Hypertntion Causes Disregultion of Systemic Circulation via Supressesion of Baroceptor Control of the Heart Rhytm

Pulmonary arterial hypertension (PAH) is characterized by an increase of a pressure in the pulmonary circulation; PAH is accompanied by activation of the sympathetic (SNS) and the renin-angiotensin-aldosterone system (RAAS). However, PAH-associated changes in baroreceptor regulation of systemic circulation, which is tightly interwoven with SNS and RAAS, have not been studied. The baroreceptor response (BRR) was studied in a chronic monocrotaline (MCT) model of PAH in rats (Wistar, 290 ± 30 g, 2–4 months). Phenylephrine as an agonist of α1-adrenergic receptor and sodium nitroprusside as NO donor were gradually administered to chronically catheterized, non-anesthetized control animals and animals with PAH (4 weeks after MCT administration) to induce vasomotor responses. Mean arterial pressure and heart rate (HR) were recorded under the action of vasoactive compounds alone or under the action of vasoactive compounds in presence of angiotensin-II (ATII), atropine. The parameters characterizing baroreceptor change in HR including maximal and minimal heart rate (HR max , HR min ), reflex tachycardia (T BRR ) and bradycardia (B BRR ), range (A BRR ) and the baroreceptor response sensitivity index (SI BRR ) were calculated. A significant decrease in HR max , T BRR , A BBR (but not B BRR ), as well as the sensitivity index of BRR was observed in rats with PAH. ATII induces significant and different changes in the BRR parameters in control rats and in rats with PAH if administered 4 weeks after the start of the experiment. In rats with PAH, ATII causes less pronounced changes in HR max , T BRR , and B BRR than in control animals. ATII insignificantly affects parasympathetic component of the baroreceptor reflex in rats with PAH. Thus, at least in the MCT-mediated model in rats, PAH significantly deteriorates the baroreceptor regulation of HR. This effect manifests in a decrease in the range and sensitivity of the baroreceptor response. Also, PAH unequally affects the sympathetic and parasympathetic control of the baroreceptor regulation of HR. On the other hand, ATII exhibits weak ability to alter BRR in rats with HAP. In conclusion, PAH leads to a disfunction of immediate, reflex mechanisms HR and systemic circulation control.