Vehicle Rats Research Articles

Effects of n-3 polyunsaturated fatty acids on indomethacin-induced changes in eicosanoid production and blood flow in the gastric mucosa of rats

We investigated the effects of n-3 polyunsaturated fatty acids (PUFAs) on non-steroidal anti-inflammatory drug (NSAID)-induced changes in microcirculation and eicosanoid production in the gastrointestinal mucosa. We measured gastric mucosal blood flow using laser Doppler flowmetry, assessed the fatty acid composition in the mucosal phospholipids, and quantified the production of prostaglandin E 2 (PGE 2), leukotriene B 4, and leukotriene C 4 (LTB 4 and C 4) from the mucosa with the stimulation of calcium ionophore 20 min after an injection of indomethacin or vehicle in rats fed a diet containing different compositions of α-linolenic acid. Four weeks after the initiation of the test diet the arachidonic acid level in gastric mucosal phospholipids was significantly lower in the perilla group than in the other three groups. Conversely, α-linolenic acid and eicosapentaenoic acid (EPA) were significantly higher in the perilla group than in the other three groups. The percent of gastric mucosal blood flow in the three groups administered indomethacin were significantly lower than that in the control group injected with vehicle alone. The percent of gastric mucosal blood flow in the perilla group was significantly higher than that in the corn group. LTB 4 and LTC 4 production from the gastric mucosa in the soybean and corn groups were significantly higher than those in the control group, and the LTC 4 production in the perilla group was significantly lower than that in the corn group. There were no significant differences in PGE 2 production among the four groups. Our results suggest that α-linolenic acid affectively suppressed the indomethacin-induced decreases in gastric mucosal blood flow by increasing EPA and decreasing the levels of arachidonic acid and LTC 4 in the gastric mucosa.

Involvement of endogenous endothelin-1 in exercise-induced redistribution of tissue blood flow: an endothelin receptor antagonist reduces the redistribution.

Endothelin-1 (ET-1) is a potent endothelium-derived vasoconstrictor peptide. Exercise results in a significant redistribution of tissue blood flow, which greatly increases blood flow in active muscles but decreases it in the splanchnic circulation. We reported that exercise causes an increase of ET-1 production in the internal organ and then hypothesized that ET-1 participates in the exercise-induced redistribution of tissue blood flow. We investigated the effects of acute endothelin-A (ETA)-receptor blockade on regional tissue blood flow during exercise in rats. Regional blood flow in the kidney, spleen, stomach, intestine, and muscles was measured using the microsphere technique before and during treadmill running of 30 minutes duration at 30 m/min after pretreatment with either an ETA-receptor antagonist (TA-0201; 0.5 mg/kg) or vehicle in rats. Blood flow in the kidney, spleen, stomach, and intestine was decreased by exercise, but the magnitude of the decrease after pretreatment with TA-0201 was significantly smaller than that after pretreatment with vehicle. Furthermore, the increase in blood flow to active muscles induced by exercise was significantly smaller in rats pretreated with TA-0201 than those pretreated with vehicle. The present study revealed that ET-1-mediated vasoconstriction participates in the decrease of blood flow in the internal organs of rats during exercise, and therefore, that these actions of endogenous ET-1 partly contribute to the increase of blood flow in active muscles during exercise. The data suggest that endogenous ET-1 participates in the exercise-induced redistribution of tissue blood flow.

Regulation of renal calbindin-D28K: the role of calcitonin.

Infusion of calcitonin lowers circulating calcium, but in the distal tubule of the kidney, pharmacological doses of calcitonin increase the active calcium reabsorption. Calbindin-D28k plays a significant role in the calcium reabsorption in the distal convoluted tubule of the kidney. The effect of calcitonin on renal calbindin-D28k in relation to calcium metabolic changes was therefore examined. In study 1, thyroparathyroidectomy followed by autotransplantation of the parathyroid glands (TX) was compared with a sham operation in rats. TX reduced plasma calcitonin from 54 +/- 2 to 9 +/- 1 pg/ml (P < 0.001), whereas ionized calcium and parathyroid hormone were returned to the control value after an initial decrease, indicating a successful implantation of the parathyroid glands. No changes were seen in calbindin-D or plasma 1,25(OH)2D. In study 2, subcutaneous infusion of salmon calcitonin 2.5 U/kg/hour via osmotic pumps was compared with infusion of vehicle in rats. Ionized calcium was reduced from 1.37 +/- 0.01 to 1.33 +/- 0.02 mmol/liter (P < 0.05), whereas no changes were seen in renal or intestinal calbindin-D or in plasma 1,25(OH)2D. After TX, only calcitonin decreased whereas the other calcium metabolic parameters showed no change. This indicates that in rats, selective elimination of calcitonin does not influence other parameters of the calcium metabolism and that the effect of calcitonin on calcium transport in the distal tubule is not mediated via an increase in renal calbindin-D28k.

Induction of specific IgA responses in rats after oral vaccination with biodegradable microspheres containing a recombinant protein

Diseases which affect mucosal surfaces cause considerable mortality and morbidity. New vaccine technologies are now available which justify a reappraisal of oral delivery not only for infectious disease control but also to control mucosal physiological processes such as fertility. Biodegradable microspheres have been investigated for their use as an oral delivery vehicle in rats using a recombinant antigen derived from fox sperm. Unencapsulated antigen administered in saline by the oral route produced a negligible response although an improved response was obtained if administered directly into the duodenum. This response was considerably enhanced if Peyer's patch (PP) priming was performed by direct injection of antigen in Freund's complete adjuvant (FCA) prior to intraduodenal (ID) delivery. In contrast, microencapsulated antigen given orally produced a substantial response, which was predominantly IgA specific, and almost equal in magnitude to that obtained by PP priming and ID boosting with native antigen. Direct ID delivery produced a similar response but when PP were primed with microencapsulated antigen in FCA the response to ID boosting was greater than with any of the other protocols investigated. These data demonstrate the efficacy of biodegradable microspheres in producing an IgA antibody response following oral vaccination.

Feedback and facilitation in the adrenocortical system: unmasking facilitation by partial inhibition of the glucocorticoid response to prior stress.

Previously stressed animals remain responsive to subsequent stressors, despite secreting an adequate corticosteroid signal during the first stress which should act to damp the response to a second stress. We have previously postulated that stress acts to facilitate subsequent responses in the adrenocortical system, and that this facilitation is balanced by the corticosteroid feedback signal. To test this hypothesis directly, we treated young male rats with cyanoketone (CK) to partially block the adrenal capacity to synthesize corticosterone (B). Subsequently, groups of CK- or vehicle (VEH)-treated rats were exposed to the FIRST stress of 30-min restraint with small blood samples collected at 0, 15, and 30 min. The FIRST stress was given to subgroups of rats 12, 9, 6, or 3 h before lights off (12 h) or lights on (24 h). At 12 or 24 h, rats were again restrained with blood samples at 0 ("basal") and 30 min (SECOND stress). Control groups were stressed for the first time when the experimental groups received their SECOND stress. Plasma ACTH and B concentrations were measured. Although in the absence of stress, basal B concentrations were normal in CK-treated compared to VEH-treated rats throughout the day, the B response to the FIRST stress was reduced by 60% in the CK- compared to the VEH-treated group. When the FIRST stress was performed during the time of lights on, "basal" plasma ACTH was elevated in CK groups at 12 h (lights off) compared to levels in both previously stressed VEH groups and unstressed CK controls. There was no difference at this time of day in the magnitude of the ACTH response to the SECOND stress in CK rats compared to that in CK rats receiving their only stress (controls) or that in VEH-treated rats receiving the SECOND stress. When first stress was performed during the time of lights off, "basal" plasma ACTH at 24 h (lights on) in CK and VEH rats were not different compared to levels in their respective unstressed controls. The ACTH response to the SECOND stress at 24 h was elevated in all previously stressed CK groups compared to that in either CK control or VEH groups. At neither time of day were SECOND stress ACTH concentrations in VEH rats different from those in control VEH rats. At 12 h (lights off), but not at 24 h (lights on), "basal" ACTH was significantly elevated in VEH rats above the unstressed VEH control values.(ABSTRACT TRUNCATED AT 400 WORDS)

Hypothalamic Secretion of Somatostatin and Growth Hormone-Releasing Factor into the Hypophysial-Portal Circulation Is Reduced in Streptozotocin Diabetic Male Rats

Growth hormone (GH) secretory patterns are disrupted in streptozotocin (STZ) diabetic rats. Alterations in hypothalamic growth hormone-releasing factor (GRF) or hypothalamic somatostatin (SRIF) secretion, increased systemic SRIF secretion, and changes in somatotroph sensitivity to these hypothalamic factors have been advanced as potential underlying mechanisms for the observed attenuation of GH secretion after STZ treatment. Two weeks after STZ treatment, the mean circulating GH level was attenuated by 58%, plasma glucose concentration was 4-fold higher, and systemic SRIF concentration was elevated 6.8-fold with respect to vehicle (VEH)-treated rats. The hypothalamic content of neither SRIF nor GRF was significantly different between VEH and STZ groups. Total hypophysial-portal SRIF concentration, which represents the sum of both peripheral and hypothalamic SRIF contributions, was significantly elevated in the STZ versus VEH group (p less than 0.007). However, when corrected for the contribution of peripheral SRIF, the mean portal SRIF concentration in STZ rats was only 44% of the mean portal SRIF in VEH rats. A reduction in hypophysial-portal GRF concentration in STZ diabetic rats was also observed. Overall, these observations suggest that elevated peripheral SRIF levels characteristic of STZ diabetic rats play a major role in mediating the suppression of GH secretion in this model. Furthermore, the data are suggestive of an inhibitory effect of peripheral SRIF on hypothalamic SRIF release.