Reduced tubuloglomerular feedback activity and absence of its synchronization in a connexin40 knockout rat.

Heather L More, Branko Braam, William A Cupples
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Abstract

Introduction: Tubuloglomerular feedback (TGF) is the negative feedback component of renal blood flow (RBF) autoregulation. Neighbouring nephrons often exhibit spontaneous TGF oscillation and synchronization mediated by endothelial communication, largely via connexin40 (Cx40). Methods: We had a knockout (KO) rat made that lacks Cx40. One base pair was altered to create a stop codon in exon 1 of Gja5, the gene that encodes Cx40 (the strain is WKY-Gja55em1Mcwi). Blood pressure (BP)-RBF transfer functions probed RBF dynamics and laser speckle imaging interrogated the dynamics of multiple efferent arterioles that reach the surface (star vessels). Results: The distribution of wild type (WT), heterozygote, and KO pups at weaning approximated the Mendelian ratio of 1:2:1; growth did not differ among the three strains. The KO rats were hypertensive. BP-RBF transfer functions showed low gain of the myogenic mechanism and a smaller TGF resonance peak in KO than in WT rats. Laser speckle imaging showed that myogenic mechanism had higher frequency in KO than in WT rats, but similar maximum spectral power. In contrast, the TGF frequency was similar while peak power of its oscillation was much smaller in KO than in WT rats. In WT rats, plots of instantaneous TGF phase revealed BP-independent TGF synchronization among star vessels. The synchronization could be both prolonged and widespread. In KO rats TGF synchronization was not seen, although BP transients could elicit short-lived TGF entrainment. Discussion: Despite the reduced TGF spectral power in KO rats, there was sufficient TGF gain to induce oscillations and therefore enough gain to be effective locally. We conclude that failure to synchronize is dependent, at least in part, on impaired conducted vasomotor responses.

Abstract Image

Abstract Image

Abstract Image

connecin40基因敲除大鼠的小管肾小球反馈活性降低和缺乏同步。
导言:管肾小球反馈(TGF)是肾血流(RBF)自动调节的负反馈成分。邻近的肾单位经常表现出自发的TGF振荡和同步,主要是通过内皮细胞的通讯介导,主要是通过connexin40 (Cx40)。方法:制备缺乏Cx40基因敲除(KO)大鼠。一个碱基对被改变,在编码Cx40的基因Gja5的外显子1上产生一个停止密码子(菌株是WKY-Gja55em1Mcwi)。血压(BP)-RBF传递函数探测RBF动力学,激光散斑成像询问到达表面的多个传出小动脉(星形血管)的动力学。结果:野生型(WT)、杂合子和KO幼崽在断奶时的分布近似于孟德尔比例1:2:1;三个菌株之间的生长没有差异。KO大鼠有高血压。BP-RBF传递函数在KO大鼠中表现出较低的成肌机制增益和较低的TGF共振峰。激光散斑成像显示,KO大鼠的肌生成机制频率高于WT大鼠,但最大光谱功率相似。相比之下,KO大鼠的TGF频率相似,其振荡的峰值功率远小于WT大鼠。在WT大鼠中,瞬时TGF相位图显示了星形血管中与bp无关的TGF同步。这种同步可能是长期和广泛的。在KO大鼠中没有观察到TGF同步,尽管BP瞬态可以引起短暂的TGF携带。讨论:尽管在KO大鼠中TGF谱功率降低,但有足够的TGF增益诱导振荡,因此有足够的增益局部有效。我们的结论是,同步失败至少部分依赖于传导血管舒缩反应受损。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.70
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