Abstract MP67: Differential Effects Of Selective Renal Denervation On Intrarenal Neurohormone System Involved In Blood Pressure Regulation

Abstract

Aims: To investigate alterations of intrarenal neurohormonal system involved in BP regulation after renal nerve stimulation (RNS)-guided renal denervation (RDN), and compare the significance of ablation on different BP-elevated magnitude sites. Methods and Results: Twenty-one dogs that met inclusion criteria were randomized to receive RDN at strong (SRA group, n=7) or weak (WRA group, n=7) BP-elevation response sites guided by RNS, or underwent RNS only (RNS-control, RSC, n=7), and fully recovered from the acute experiments. After 4 weeks, renal sympathetic and renin angiotensin system activity parameters, and major transporter expression were assessed by immunology and histochemistry. Compared with RSC group, RDN therapy significantly attenuated renal norepinephrine and tyrosine hydroxylase levels, alleviated renin release, and inhibited onsite generation of angiotensinogen. Meanwhile, the expression of exciting axis components, including angiotensin-converting enzyme (ACE), angiotensin II and angiotensin II type-1 receptor, were down-regulated, while the protective axis components such as ACE2 and Mas receptors, were up-regulated in both WRA and SRA group. Moreover, RDN reduced the abundance of aquaporin-1 and aquaporin-2 in kidneys. Although RDN had a minimal effect on overall NKCC2 expression, its activation (p-NKCC2) and directional enrichment in the apical membrane (mNKCC2) were dramatically blunted. Further analysis showed that all these changes were more significant in SRA group than WRA group. Conclusions: RDN effectively reduced systemic BP by affecting renal neurohormone-receptor axis, as well as expression and/or activation of major transporters. Selective RDN at strong BP-response sites presented a more superior beneficial effect, reconfirmed the feasibility of RNS-guided RDN.