Limas C, Goldman P, Limas C J, Iwai J
Hypertension. 1981 Mar-Apr;3(2):219-24. doi: 10.1161/01.hyp.3.2.219.
The effect of high salt intake on vascular and renomedullary prostaglandin (PG) synthesis was compared in Sprague-Dawley and salt-sensitive (S) and -resistant (R) Dahl rats. Animals were given a diet containing either 0.6% or 8% NaCl starting at 5 weeks of age, and were sacrificed 6 weeks later. Systolic blood pressure of S rats increased to 220 +/- 7 mm Hg but was unaffected in R and Sprague-Dawley rats. Prostaglandin synthesis was studied in aortic rings and renomedullary microsomes using 14C-arachidonate as substrate. [3H]PGE2 degradation was measured in the renocortical cytosol. In Sprague-Dawley and R rats, aortic PGI2 synthesis was not affected by high salt intake, while a significant increase compared to animals on 0.6% NaCl (from 608 +/- 84 to 992 +/-108 pmoles/60 min, p less than 0.05) was noted in S rats. Enhancement of PGI2 synthesis in S rats may be secondary to the hypertension. Salt-loading consistently stimulated renomedullary PGE2 synthesis in all three animal groups. S rats, however, had the lowest PG synthesis in renal medullas compared to Sprague-Dawley and R rats when placed on either diet. Thus, even after 6 weeks on high salt, S rats did not reach the levels of PGE2 synthesis seen in R or Sprague-Dawley rats on regular diet. The activity of cortical 15-hydroxyprostaglandin dehydrogenase was increased by salt-loading in S and Sprague-Dawley, but not in R rats. R rats had lower dehydrogenase activity than the other two groups when placed on either diet. The observed differences in PG synthesis and catabolism will tend to maintain the net output of renal PGs highest in R and lowest in S rats. These differences correlate with the reported differences in renal papillary flow between these two rat strains and may be relevant to their susceptibility or resistance to hypertension in response to salt.
在斯普拉格 - 道利大鼠以及盐敏感(S)和盐抵抗(R)的达尔大鼠中,比较了高盐摄入对血管和肾髓质前列腺素(PG)合成的影响。从5周龄开始,给动物喂食含0.6%或8%氯化钠的饮食,6周后处死。S大鼠的收缩压升至220±7毫米汞柱,但R大鼠和斯普拉格 - 道利大鼠的收缩压未受影响。以14C - 花生四烯酸为底物,在主动脉环和肾髓质微粒体中研究前列腺素合成。在肾皮质胞质溶胶中测量[3H]PGE2降解。在斯普拉格 - 道利大鼠和R大鼠中,高盐摄入不影响主动脉PGI2合成,而与喂食0.6%氯化钠的动物相比,S大鼠的主动脉PGI2合成显著增加(从608±84增加到992±108皮摩尔/60分钟,p<0.05)。S大鼠中PGI2合成的增强可能继发于高血压。盐负荷在所有三个动物组中均持续刺激肾髓质PGE2合成。然而,与喂食任何一种饮食的斯普拉格 - 道利大鼠和R大鼠相比,S大鼠肾髓质中的PG合成最低。因此,即使在高盐饮食6周后,S大鼠的PGE2合成水平仍未达到正常饮食的R大鼠或斯普拉格 - 道利大鼠的水平。在S大鼠和斯普拉格 - 道利大鼠中,盐负荷增加了皮质15 - 羟基前列腺素脱氢酶的活性,但在R大鼠中未增加。当喂食任何一种饮食时,R大鼠的脱氢酶活性低于其他两组。观察到的PG合成和分解代谢的差异将倾向于使肾PG的净输出在R大鼠中最高,在S大鼠中最低。这些差异与这两种大鼠品系之间报道的肾乳头血流差异相关,并且可能与它们对盐诱导高血压的易感性或抗性有关。
