Investigation of the vasodilator and antisecretory role of prostaglandins in the rat gastric mucosa by use of non-steroidal anti-inflammatory drugs

Prostaglandins and serotonin: nonpeptide diarrheogenic hormones

Prostaglandins and serotonin are vasoactive compounds with profound effects on the gastrointestinal tract. Both cause inhibition of gastric acid secretion (although serotonin stimulates gastric pepsin secretion), stimulation of intestinal motility, and conversion of small intestinal mucosa from absorption to secretion of water and electrolytes. Their effects on pancreatic and biliary function are still not clear. Although prostaglandins appear to elicit their effects primarily by a paracrine mode of action, and serotonin is primarily a neurotransmitter (neurocrine), it is clear that even under normal conditions both can function as humoral agents. For example, we have shown that serotonin plays a physiologic role as a humoral inhibitor of gastric acid secretion. However, the effects of these agents become more pronounced in patients with humorally mediated diarrheogenic syndromes. Serotonin (and related indoles, particularly 5-hydroxytryptophan) has been firmly implicated as a cause of diarrhea in patients with carcinoid syndrome; our recent studies suggest that the diagnosis can be more effectively made by measuring circulating immunoreactive serotonin concentrations than urinary excretion of 5-HIAA; that some circulating serotonin escapes hepatic inactivation and, thus, large intestinal tumors can cause carcinoid syndrome in the absence of hepatic metastases; and that large amounts of serotonin are produced by some noncarcinoid diarrheogenic tumors, including medullary carcinomas of the thyroid and tumors associated with the WDHA syndrome. A large number of tumors of probable neural crest origin, including medullary thyroid carcinoma, carcinoids, and tumors associated with the WDHA syndrome, secrete large amounts of prostaglandins, particularly PGE2. The clinical response of at least some of the patients harboring these tumors to inhibitors of prostaglandin synthesis (particularly indomethacin) suggests that prostaglandins play a role in the etiology of these diarrheogenic syndromes.

Actions of prostacyclin (PGI2) and its product, 6-oxo-PGF1alpha on the rat gastric mucosa in vivo and in vitro

The effects of prostacyclin (PGI2) and its breakdown product 6-oxo-PGF1alpha on various aspects of gastric function were investigated in the rat. PGI2 increased mucosal blood flow when infused intravenously. PGI2 was a more potent inhibitor of gastric acid secretion in vivo than PGE2. Like PGE2, PGI2 inhibited acid secretion from the rat stomach in vitro. PGI2 had comparable activity to PGE2 in inhibiting indomethacin-induced gastric erosions. Thus prostacyclin shares several of the activities of PGE2, and may be involved in the regulation of gastric mucosal function.

Mechanisms underlying gastric mucosal damage induced by indomethacin and bile-salts, and the actions of prostaglandins

1 The mechanisms by which -he bile salt, sodium taurocholate, potentiates the formation of gastric mucosal erosions induced by indomethacin has been investigated in the rat. 2 Systemic administration of indomethacin lowered resting mucosal blood flow but had no effect on the acid back-diffusion across the mucosa. 3 Gastric perfusion of taurocholate in acid solution increased acid back-diffusion and lowered the potential differences. This was accompanied by an increase in mucosal blood flow, which may represent a protective mechanism in the mucosa. 4 Administration of indomethacin during acid-taurocholate perfusion reduced this elevated mucosal blood flow without any further change in acid back-diffusion. 5 The results suggest that although a decrease in mucosal blood flow or an increase in acid back-diffusion can lead to a low incidence of erosions, a combination of both produces extensive mucosal damage. 6 The (15S)-methyl analogue of prostaglandin E2 reduced erosion formation induced by indomethacin and acid-taurocholate administration. 7 It is suggested that this protective action of the prostaglandin analogue may be linked to changes in gastric mucosal permeability and in mucosal blood flow.

Effects of aspirin-like drugs on canine gastric mucosal blood flow and acid secretion

1. The effects of aspirin, paracetamol and benorylate were studied on gastric mucosal blood flow (MBF) and acid secretion in canine denervated gastric pouches. 2. Aspirin 20 mM in the unstimulated pouch had no effect; pentagastrin-stimulated acid output, but not MBF, was reduced. Aspirin buffered to pH 6 was ineffective. 3. Aspirin 3-50 mg/kg reaching the pentagastrin-stimulated pouch through the blood, increased acid secretion and MBF, but the MBF:secretion ratio was variably affected. 4. Paracetamol (10 or 20 mg/kg i.v., or 20 mM in the pouch) or benorylate (280 mg/kg orally) mainly had little effect. 5. Circular muscle strips from dog arteries were contracted by prostaglandins E2, F1alpha or F2alpha, and often slightly by indomethacine, but prostaglandin E1 produced variable effects. 6. These results do not favour the view that aspirin causes gastric bleeding in dogs by breakdown of blood vessels due to ischaemia following mucosal vasoconstriction.

Mechanisms underlying gastric mucosal damage induced by indomethacin and bile-salts, and the actions of prostaglandins

1 The mechanisms by which -he bile salt, sodium taurocholate, potentiates the formation of gastric mucosal erosions induced by indomethacin has been investigated in the rat. 2 Systemic administration of indomethacin lowered resting mucosal blood flow but had no effect on the acid back-diffusion across the mucosa. 3 Gastric perfusion of taurocholate in acid solution increased acid back-diffusion and lowered the potential differences. This was accompanied by an increase in mucosal blood flow, which may represent a protective mechanism in the mucosa. 4 Administration of indomethacin during acid-taurocholate perfusion reduced this elevated mucosal blood flow without any further change in acid back-diffusion. 5 The results suggest that although a decrease in mucosal blood flow or an increase in acid back-diffusion can lead to a low incidence of erosions, a combination of both produces extensive mucosal damage. 6 The (15S)-methyl analogue of prostaglandin E2 reduced erosion formation induced by indomethacin and acid-taurocholate administration. 7 It is suggested that this protective action of the prostaglandin analogue may be linked to changes in gastric mucosal permeability and in mucosal blood flow.

Relationship between the prevention of rat gastric erosions and the inhibition of acid secretion by prostaglandins

The formation of gastric mucosal erosions induced by indomethacin in the rat was inhibited in a time- and dose-dependent manner by antisecretory prostaglandins, the methyl analogues of PGE2 being 400 times as active as the parent prostaglandin. PGA2, a methyl analogue of PGF2alpha and the H2-receptor antagonist metiamide, also inhibited erosion formation. There was a variable relationship between the doses required to inhibit erosions and to inhibit gastric acid secretion. In the anaesthetised rat, the low incidence of erosions with indomethacin was markedly increased by concurrent gastric perfusion with acid saline and taurocholate. This mucosal damage was inhibited by the methyl analogues of PGE2, suggesting protective actions on the mucosa other than inhibition of acid secretion.

The role of copper in preventing gastrointestinal damage by acidic anti-inflammatory drugs

The ability of several non-steroidal acidic anti-inflammatory drugs to cause ulceration when given as copper complexes has been examined. The damage caused by clopirac, niflumic acid and aspirin was virtually abolished when they were given as copper complexes whereas the damage caused by indomethacin, ketoprofen and (+)-naproxen was unaltered. The lack of ulceration with three of these preparations appeared to be correlated with a much reduced ability to inhibit prostaglandin synthesis as determined using an in vitro enzyme system.

Proceedings: Stimulation and inhibition of acid secretion from the rat isolated gastric mucosa

Images