Tachykinin inhibition of acid-induced gastric hyperaemia in the rat

1 Primary afferent neurones releasing the vasodilator, calcitonin gene-related peptide, mediate the gastric hyperaemic response to acid back-diffusion. The tachykinins neurokinin A (NKA) and substance P (SP) are located in the same neurones and are co-released with calcitonin gene-related peptide. In this study we investigated the effect and possible role of tachykinins in the acid-evoked gastric vasodilatation in urethane-anaesthetized rats. 2 Gastric acid back-diffusion, induced by perfusing the stomach with 15% ethanol in the presence of 0.05 M HCl, increased gastric mucosal blood flow by 60-90%, as determined by the hydrogen clearance technique. NKA and SP (0.14-3.78 nmol min(-1) kg(-1), infused intra-aortically) inhibited the gastric mucosal hyperaemic response to acid back-diffusion in a dose-dependent manner, an effect that was accompanied by aggravation of ethanol/acid-induced macroscopic haemorrhagic lesions. 3 The inhibitory effect of NKA (1.26 nmol min(-1) kg(-1)) on the acid-induced gastric mucosal vasodilatation was prevented by the tachykinin NK2 receptor antagonist, MEN 10,627 (200 nmol kg(-1)) but left unaltered by the NK1 receptor antagonist, SR 140,333 (300 nmol kg(-1)) and the mast-cell stabilizer, ketotifen (4.6 mu mol kg(-1)). 4 Under basal conditions, with 0.05 M HCl being perfused through the stomach, NKA (1.26 nmol min(-1) kg(-1)) reduced gastric mucosal blood flow by about 25%, an effect that was abolished by SR 140,333 but not MEN 10,627 or ketotifen. 5 SR 140,333, MEN 10,627 or ketotifen had no significant effect on basal gastric mucosal blood flow nor did they modify the gastric mucosal hyperaemic reaction to acid back-diffusion. 6 The effect of M(A (1.26 nmol min(-1) kg(-1)) in causing vasoconstriction and inhibiting the vasodilator response to acid back-diffusion was also seen when blood flow in the left gastric artery was measured with the ultrasonic transit time shift technique. 7 Arginine vasopressin (AVP, 0.1 nmol min(-1) kg(-1)) induced gastric mucosal vasoconstriction under basal conditions but was unable to inhibit the dilator response to acid back-diffusion. 8 These data show that NKA has two fundamentally different effects on the gastric circulation. Firstly, NKA reduces gastric blood flow by activation of NK1 receptors. Secondly, NKA inhibits the gastric hyperaemic response to acid back-diffusion through an NK2 receptor-mediated mechanism. These two tachykinin effects appear to take place independently of each other since they are mediated by different receptors. This concept is further supported by the inability of AVP to mimic tachykinin inhibition of the gastric vasodilator response to acid back-diffusion.