Catecholamine-related gene expression correlates with blood pressures in SHR

In this study we aimed to determine whether the levels of gene expression for phenylethanolamine-Nmethyltransferase (PNMT), noradrenaline transporter (NAT), alpha(1A)-receptor (alpha(1A)-R), and alpha(2A)-receptor (alpha(2A)-R) vary with resting systolic blood pressure in spontaneously hypertensive rats (SHR) compared with normotensive Wistar-Kyoto (WKY) or Sprague-Dawley (SD) rats. Sites examined included central and peripheral regions associated with the control of arterial pressure. Twenty week old SD (n=6), WKY (n=6), and SHR (n=6) were used. Systolic blood pressure was measured using tail cuff plethysmography 2 weeks before tissue extraction. RNA was isolated and reverse-transcribed into cDNA. Gene expression levels were measured, using quantitative real time PCR, relative to the expression of GAPDH. PNMT, NAT, and a1A-R mRNA expression was significantly greater in SHR tissue samples compared with normotensives. In the rostral ventrolateral medulla, PNMT mRNA in SHR was 3 times greater than that in WKY (SHR: 0.82+/-0.02%; WKY: 0.29+/-0.02%). The amount of alpha(2A)-R mRNA was significantly lower in SHR compared with normotensives. For example, the level of alpha(2A)-R mRNA in spinal cord of SHR was 3 times less than that found in WKY (SHR: 1.85+/-0.04%; WKY: 3.26+/-0.07%). PNMT, NAT, and alpha(1A)-R mRNA levels were positively correlated with systolic blood pressure in all central tissue investigated. Conversely, alpha(2A)-R mRNA levels in central sites were negatively correlated with systolic blood pressure. Clearly, a decrease in central alpha(2A)-R and an increase in alpha(1A)-R is consistent with the elevated blood pressure and sympathetic activity observed in SHR.