Inhibition of gastric secretion by fat and hypertonic glucose in the dog: role of gastric inhibitory peptide

Basal and histamine-induced gastric acid secretion in alloxan diabetic rats

1. Effects of alloxan-induced diabetes on the rat gastric acid secretion were investigated using a number of biostatistical models described earlier. 2. Histamine-induced gastric acid secretion was found to be decreased in alloxan-diabetic rats when compared with their age-matched controls. 3. Basal acid secretion was also decreased depending on experimentally-induced diabetes. 4. The above results strongly suggest that alloxan-induced diabetes depresses vagal activity and H2-receptor activity in the stomach.

Differences in neurokinin receptor pharmacology between rat and guinea-pig superior cervical ganglia

1. The depolarizations elicited by seven neurokinin receptor agonists were examined in both rat and guinea-pig superior cervical ganglia by use of grease-gap methodology in the presence of tetrodotoxin (0.1 microM). Responses were normalised with respect to 1 microM eledoisin. 2. The rank order of agonist potency in the rat ganglia was senktide greater than substance P greater than substance P methyl ester = eleidosin = Sar-Met-substance P greater than neurokinin B greater than neurokinin A, whereas in guinea-pig superior cervical ganglion (SCG) the rank order was senktide greater than Sar-Met-substance P greater than neurokinin B = eledoisin = substance P methyl ester. The concentration-effect curves for substance P and neurokinin A in guinea-pig ganglia were biphasic which precluded the determination of meaningful potency values. 3. The maximal depolarization achieved by subtype selective ligands was different between these two species. On rat and guinea-pig SCG, the NK3-selective ligand, senktide, produced a maximal depolarization of 27% and 274% respectively, whereas the NK1-selective ligand, substance P methyl ester, produced depolarizations of 77% and 64% respectively. 4. The depolarizations induced by substance P methyl ester and senktide in either species were unaffected by atropine (1 microM), suggesting a lack of involvement of presynaptic neurokinin receptors in the generation of the response. 5. The potency of substance P methyl ester, senktide, and neurokinin A were unaffected by pretreating ganglia with the peptidase inhibitors bacitracin (40 micrograms ml-1), leupeptin (4 micrograms ml-1), and chymostatin (2 micrograms ml-1). Similarly, these peptidase inhibitors had no effect on the maximal depolarizations achieved by any of these agonists.6. It is evident that rat and guinea-pig superior cervical ganglia possess both NK, and NK3 receptors, but that their net contribution to depolarizations are different between the two species. The depolarizations in guinea-pig SCG are mediated predominantly by an NK3 subtype and in rat SCG by an NK, receptor subtype.

Synthesis of a potent agonist of substance P by modifying the methionyl and glutaminyl residues of the C-terminal hexapeptide of substance P. Structure-activity relationships

Analogues of [Orn6]-SP6-11 have been synthesized in which the Met11 residue is replaced by glutamate gamma-alkylesters. These analogues were tested in three in vitro preparations representative of NK-1, NK-2, and NK-3 receptor types. Substitution of the SCH3 group of the Met11 side chain by a COOR (R = methyl, ethyl, n-propyl, n-butyl, cyclohexyl) group results in analogues which are full agonists in NK-1 and NK-2 preparations but show little agonist activity in the NK-3 preparation. When the SCH3 group is replaced by a t-butyl ester group and the resulting analogue is a full agonist in all the above preparations and more active than the parent hexapeptide and SP-OCH3 at NK-1 receptors. It is concluded that for activity at NK-1 receptors methionine can be replaced by gamma-t-butyl glutamate without loss of activity, whilst at NK-2 and NK-3 receptors the above substitution increases the activity of [Orn6]-SP6-11. Other gamma-alkyl esters of the glutamic acid reduce its biological activity.

Synthesis and biological activity of substance P C-terminal hexapeptide and heptapeptide analogues

The analogues [Glu(OBzl)11]SP6-11 and [Glu(OBzl)11]SP5-11 of the C-terminal hexapeptide and heptapeptide of Substance P have been synthesized by conventional solution methods. In each analogue the SCH3 group of Met11 is replaced by the COOCH2C6H5 group. The in vitro activity of both analogues has been determined on three biological preparations: guinea pig ileum (GPI), rat vas deferens (RVD), and rat portal vein (RPV). The selectivity for the different receptors has been studied by utilizing atropine-treated guinea pig ileum (GPI + At). The results showed that both analogues are mainly active on GPI through the NK-1 receptor and that both analogues are equipotent to Substance P.

Comparison of organ uptake and disappearance half-time of human epidermal growth factor and insulin

Epidermal growth factor (EGF), which was originally identified in salivary glands and saliva, has been also found in the kidney and urine, suggesting that the kidney may be an alternate source of this peptide. Liver was considered as the major site of the degradation of EGF but the involvement of other organs has been little studied. Therefore, we carried out comparative studies on the organ uptake and the disappearance half-time of EGF and insulin (having similar molecular size) in the same model of anesthetized dog with arterial (from aorta) and venous (from mesenteric, portal, hepatic, renal, femoral and jugular veins) blood sampling from various organs. Basal plasma level of EGF (1.32 +/- 0.33 pmol/l) and insulin (62.1 +/- 13.8 pmol/l) in the aorta was not significantly different from that recorded at various sampling sites. During i.v. infusion of EGF at 41.6 and 166.6 pmol/kg/h, the respective arterial EGF concentrations averaged 103 +/- 21 and 240 +/- 49 pmol/kg/h and the percent reduction in plasma EGF after passage through the head, leg, intestines and liver was about 30-50% and that after passage through the kidney was about 95%. During insulin (6.9 pmol/kg/h) infusion, the arterial hormone level averaged 227 +/- 21 pmol/l and this level was significantly reduced (by 23-42%) after passage through the head, leg, intestine, liver and kidney but no significant difference was found between various venous sampling sites. EGF and insulin appearing in the urine during EGF or insulin infusion accounted for about 40 and 7% of the difference between the entering and leaving renal masses of the peptide. Mean disappearance half time on stopping of EGF and insulin infusion was, respectively, 2.32 +/- 0.58 and 6.88 +/- 1.25 min. We conclude that unlike insulin, which is removed to similar extent by various organs including the kidney and the liver, EGF is taken up mainly by kidney and EGF present in urine originates mainly from renal clearance of peptide.

Comparison of gastric inhibitory polypeptide and intraduodenal or intravenous fat on gastric acid secretion from vagally innervated and denervated canine stomach

Gastric inhibitory polypeptide (GIP), given to dogs in graded doses (range 0.25-2 micrograms/kg/hr) against a constant background stimulation with pentagastrin (4 micrograms/kg/hr), failed to affect the acid secretion at all doses used except the largest one (2 micrograms/kg/hr) which significantly reduced the acid secretion only from the vagally denervated portion of the stomach (Heidenhain pouch, HP) while raising plasma GIP two to three times above the levels reached with duodenal fat. GIP infused in a constant dose (1 microgram/kg/hr) significantly reduced the HP responses to lower (0.5-2 micrograms/kg/hr) but not to higher (4-16 micrograms/kg/hr) doses of pentagastrin, the kinetics of this inhibition being of competitive type. GIP was ineffective against a constant near maximal stimulation with pentagastrin (4 micrograms/kg/hr), histamine (40 micrograms/kg/hr), or liver extract meal, whereas fat (10 g), given intraduodenally or intravenously, was a powerful inhibitor of acid responses to these stimulants both from the innervated and denervated stomach. Plasma GIP reached similar levels with exogenous GIP and duodenal fat but remained unchanged with intravenous infusion of fat.

The effect of substance P on the mechanical and electrical responses of frog, chick and rat skeletal muscle

The effect of substance P (SP) on the electrical and contractile responses of skeletal muscles of frog, chick and rat were studied using electrophysiological techniques. In low concentrations, SP increased the amplitude of twitch and tetanic contractions in response to motor nerve stimulation of frog, chick and rat preparations, increased the amplitude and duration of frog sciatic nerve compound action potential and reduced the contracture responses produced by acetylcholine (ACh) or tetraethylammonium (TEA) in the chick skeletal muscle. In all these actions, the effect of SP was calcium-dependent. The results provide evidence that SP had a dual action; a prejunctional facilitatory effect by causing a further release of ACh and/or Ca2+ entry or release, and postjunctional effect by reducing the sensitivity of the postjunctional membrane to depolarizing drugs.