Effect of Angiotensin receptor blockade on Plasma Osmolality and Neurohumoral Responses to High Environmental Temperature in Rats Fed a High Salt Diet.

Q4 Medicine
Francis Agbaraolorunpo, Ahmed Kolade Oloyo, S A Ogunnowo, C N Anigbogu, Olusoga Sofola
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Abstract

Plasma osmolality (pOsmol) and neurohumoral signals play important roles in the pathophysiology of cardiovascular diseases. Our study investigated the effect of high environmental temperature (HET) on neurohumoral responses and pOsmol in rats fed a high salt diet (HSD), with and without angiotensin II receptor blockade (ARB), using telmisartan.  Fifty-six male 8-week old Sprague-Dawley rats (95-110g) were randomly assigned into seven groups of 8 rats. These included control rats (I) fed with 0.3% NaCl diet (normal diet, ND); salt-loaded rats (II) fed with 8% NaCl (high salt) diet; ND rats (III) exposed to HET (38.5±0.5oC ) 4 hours daily per week; rats (IV) fed with 8% NaCl diet and exposed to HET daily. Others included rats (V) fed with 8% NaCl diet and treated with telmisartan (30mg/kg); ND rats (VI) exposed to HET and treated with telmisartan; rats (VI) fed with 8% NaCl diet, exposed to HET and treated with telmisartan. Plasma angiotensin II, aldosterone, vasopressin and norepinephrine (NE) concentrations were determined by ELISA technique; pOsmol from plasma K+, Na+ and Urea. HSD combined with HET in rats synergistically increased pOsmol (P<0.001) with an associated non-synergistic rise in fluid intake (P<0.001), fluid balance (P<0.001), plasma angiotensin II (P<0.01) and aldosterone (P<0.05), NE (P<0.001) and vasopressin (P<0.05) concentrations compared to control. Telmisartan did not alter pOsmol in all the treated-rats, but normalized fluid intake levels and plasma vasopressin in the rats exposed to either HSD or HEt alone. Prolonged exposure of rats to hot environment exacerbated the effect of excess dietary salt on pOsmol, with no effect on angiotensin II-mediated neurohumoral responses.

血管紧张素受体阻断剂对高盐饮食大鼠血浆渗透压和对高环境温度的神经体液反应的影响。
血浆渗透压(pOsmol)和神经体液信号在心血管疾病的病理生理学中起着重要作用。我们的研究使用替米沙坦研究了高环境温度(HET)对高盐饮食(HSD)大鼠的神经体液反应和pOsmol的影响,其中包括和不包括血管紧张素II受体阻断剂(ARB)。将56只8周龄雄性Sprague-Dawley大鼠(95-110g)随机分为7组,每组8只。这些包括对照大鼠(I)喂食0.3%NaCl饮食(正常饮食,ND);盐负荷大鼠(II)喂食8%NaCl(高盐)饮食;ND大鼠(III)每周每天暴露于HET(38.5±0.5oC)4小时;大鼠(IV)喂食8%NaCl饮食并每天暴露于HET。其他包括用8%NaCl饮食喂养并用替米沙坦(30mg/kg)处理的大鼠(V);ND大鼠(VI)暴露于HET并用替米沙坦治疗;喂食8%NaCl饮食、暴露于HET并用替米沙坦处理的大鼠(VI)。ELISA法测定血浆血管紧张素Ⅱ、醛固酮、血管加压素和去甲肾上腺素(NE)浓度;pOsmol。HSD与HET联合应用对大鼠pOsmol的增效作用(P
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来源期刊
Nigerian Journal of Physiological Sciences
Nigerian Journal of Physiological Sciences Medicine-Physiology (medical)
CiteScore
0.80
自引率
0.00%
发文量
23
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