Regulation of preprotachykinin-A mRNA in genetic hypertensive and normotensive rats

Abstract

It is well-known that central administration of tachykinins (Tks) inhibit salt intake in rats. Recent studies have shown that conditions that arouse salt appetite, such as adrenalectomy and sodium depletion, induce a decrease in preprotachykinin-A (PPT-A) mRNA in discrete regions of the rat brain, suggesting that reduced levels of PPT-A mRNA in the brain may have a permissive role on the expression of salt appetite. It has also been shown that spontaneously hypertensive rats (SHR) show higher avidity for salty solutions than their normotensive control Wistar–Kyoto (WKY) rats. In this regard, the present study tested whether SHR and WKY rats differ in expression of the gene coding for PPT-A, the precursor for Tks peptides. Using semi-quantitative in situ hybridization histochemistry, we examined the level of PPT-A mRNA in discrete rat brain regions of SHR and WKY rats under no treatment, after 1 or 3 days of Na + depletion. Levels of PPT-A mRNA were analysed in the olfactory tubercle (Tu), in the lateral olfactory tubercle (LOT), in the dorsal and ventral caudate putamen (d/v CPu), in the medial preoptic area (mPOA), in the bed nucleus of the stria terminalis (BNST), in the habenula (Hb) and in the postero-dorsal part of the amygdala (MePD). Semi-quantitative analysis of silver grains revealed a 27.5% lower expression of the PPT-A mRNA levels in SHR opposite to WKY rats under no treatment in v-CPu, mPOA, BNST and Hb. 1 day of Na + depletion reduced PPT-A mRNA levels when opposite to Na +-repleted animals in Tu and mPOA in both SHR and WKY rats. On the other hand, when comparing SHR and WKY rats after 1 day of Na + depletion, a 26% lower level of PPT-A mRNA was detected in Tu and d-CPu of SHR opposite to WKYrats whereas a 14% and an 18% lower level was detected in v-CPu and Hb, respectively. A lower expression of PPT-A mRNA in SHR compared to WKY rats was also found in BNST and MePD, although no statistical significance was detected in these two brain areas. In the last experiment, 3 days of Na + depletion reduced PPT-A mRNA levels in mPOA while negligibly increased mRNA levels in d-CPu and v-CPu, in BNST, Hb and MePD, both in SHR and WKY rats. Conversely, when making comparisons between the two strains, a 35% lower level of PPT-A mRNA in SHR with respect to WKY rats was found after 3 days of Na + depletion in d-CPu, v-CPu and mPOA. A lower gene expression, even though not statistically significant, was found in Tu, LOT, MePD. These findings show a consistent difference of PPT-A mRNA levels in discrete regions of the SHR brain opposite to WKY rats and confirm that 1 day of Na + depletion reduces PPT-A mRNA in discrete brain regions. Since SHR are notoriously more salt-avid than WKY rats and Tks are potent inhibitors of sodium intake, the down-regulation of PPT-A mRNA may contribute to the higher natriophilia and, therefore, to the etiology of the hypertensive disease.