Wang Hong, Ortiz Pablo A, Romero Cesar A
Hypertension and Vascular Research Division, Department of Internal Medicine, Henry Ford Hospital, Detroit, MI, USA.
Renal Medicine Division, Department of Medicine, Emory University School of Medicine, 101 Woodruff Circle, Woodruff Memorial Research Building, Office 338A, Atlanta, GA, 30322, USA.
Clin Exp Nephrol. 2025 May;29(5):541-547. doi: 10.1007/s10157-024-02615-2. Epub 2025 Jan 12.
Renal autoregulatory mechanisms modulate renal blood flow. Connecting tubule glomerular feedback (CNTGF) is a vasodilator mechanism in the connecting tubule (CNT), triggered paracrinally when high sodium levels are detected via the epithelial sodium channel (ENaC). The primary activation factor of CNTGF-whether NaCl concentration, independent luminal flow, or the combined total sodium delivery-is still unclear. We hypothesized that increasing luminal flow in the CNT induces CNTGF via O2 generation and ENaC activation.
Rabbit afferent arterioles (Af-Arts) with adjacent CNTs were microperfused ex-vivo with variable flow rates and sodium concentrations ranging from < 1 to 80 mM and from 5 to 40 nL/min flow rates.
Perfusion of the CNT with 5 mM NaCl and increasing flow rates from 5 to 10, 20, and 40 nL/min caused a flow-rate-dependent dilation of the Af-Art (P < 0.001). Adding the ENaC blocker benzamil inhibited flow-induced Af-Art dilation, indicating a CNTGF response. In contrast, perfusion of the CNT with < 1 mM NaCl did not result in flow-induced CNTGF vasodilation (P > 0.05). Multiple linear regression modeling (R = 0.51; P < 0.001) demonstrated that tubular flow (β = 0.163 ± 0.04; P < 0.001) and sodium concentration (β = 0.14 ± 0.03; P < 0.001) are independent variables that induce afferent arteriole vasodilation. Tempol reduced flow-induced CNTGF, and L-NAME did not influence this effect.
Increased luminal flow in the CNT induces CNTGF activation via ENaC, partially due to flow-stimulated O2- production and independent of nitric oxide synthase (NOS) activity.
肾脏自身调节机制可调节肾血流量。连接小管肾小球反馈(CNTGF)是连接小管(CNT)中的一种血管舒张机制,当通过上皮钠通道(ENaC)检测到高钠水平时,通过旁分泌触发。CNTGF的主要激活因子——是氯化钠浓度、独立的管腔流量还是总的钠输送量——仍不清楚。我们假设增加CNT中的管腔流量通过氧气生成和ENaC激活诱导CNTGF。
将带有相邻CNT的兔传入小动脉(Af-Arts)离体以可变流速和钠浓度进行微灌注,钠浓度范围为<1至80 mM,流速范围为5至40 nL/min。
用5 mM氯化钠灌注CNT并将流速从5增加到10、20和40 nL/min会导致Af-Art出现流速依赖性舒张(P<0.001)。添加ENaC阻滞剂苯甲酰胺可抑制流速诱导的Af-Art舒张,表明存在CNTGF反应。相比之下,用<1 mM氯化钠灌注CNT不会导致流速诱导的CNTGF血管舒张(P>0.05)。多元线性回归模型(R = 0.51;P<0.001)表明,肾小管流量(β = 0.163±0.04;P<0.001)和钠浓度(β = 0.14±0.03;P<0.001)是诱导传入小动脉血管舒张的独立变量。Tempol可降低流速诱导的CNTGF,而L-NAME不影响此效应。
CNT中管腔流量增加通过ENaC诱导CNTGF激活,部分原因是流量刺激的氧气生成,且独立于一氧化氮合酶(NOS)活性。
