Effects of aging, diet, and sex on plasma glucose, fructosamine, and lipid concentrations in barrier-raised Fischer 344 rats

We studied the relationships of plasma glucose, fructosamine, triglycerides, and cholesterol as a function of age, gender, and diet in barrier-raised Fischer 344 rats aged 5 to 26 months, fed a diet either ad libitum or restricted to 60% of the ad libitum caloric intake. The complex relationships of these plasma levels to age, gender, and diet led to the development of a model with age, diet, and sex as covariates. Overall, fasting plasma glucose concentrations were reduced by approximately 25% in rats on the restricted diet, compared to ad libitum-fed animals. There was a significant age-dependent decline in glucose levels in male animals, whereas in females there was an increase in plasma glucose with aging. Plasma fructosamine levels in calorie-restricted animals, overall, were reduced by 7% compared to levels in animals fed ad libitum. There was a significant positive correlation between plasma glucose and fructosamine levels. Mean plasma triglyceride content was decreased by 50% in calorie-restricted rats compared to ad libitum-fed animals. A significant decrease in triglyceride levels with increasing age was seen in male animals, and an increase with aging in females. There was a significant positive correlation between plasma glucose and triglyceride levels. Plasma cholesterol levels in calorie-restricted animals were reduced by 7% compared to levels in ad libitum-fed animals. An increase of cholesterol concentration with aging was significant in both males and females. Analysis of the data showed that there were significant differences between male and female Fischer 344 rats in the response of plasma glucose and fructosamine to aging and calorie restriction. Changes of plasma triglyceride and cholesterol with aging and dietary calorie restriction were also different in males and females. Studies of the effect of aging on glycemia and blood lipid content should take into account the contributions of animal sex.     

Calorie restriction lowers body temperature in rhesus monkeys, consistent with a postulated anti-aging mechanism in rodents

Many studies of caloric restriction (CR) in rodents and lower animals indicate that this nutritional manipulation retards aging processes, as evidenced by increased longevity, reduced pathology, and maintenance of physiological function in a more youthful state. The anti-aging effects of CR are believed to relate, at least in part, to changes in energy metabolism. We are attempting to determine whether similar effects occur in response to CR in nonhuman primates. Core (rectal) body temperature decreased progressively with age from 2 to 30 years in rhesus monkeys fed ad lib (controls) and is reduced by approximately 0.5 degrees C in age-matched monkeys subjected to 6 years of a 30% reduction in caloric intake. A short-term (1 month) 30% restriction of 2.5-year-old monkeys lowered subcutaneous body temperature by 1.0 degrees C. Indirect calorimetry showed that 24-hr energy expenditure was reduced by approximately 24% during short-term CR. The temporal association between reduced body temperature and energy expenditure suggests that reductions in body temperature relate to the induction of an energy conservation mechanism during CR. These reductions in body temperature and energy expenditure are consistent with findings in rodent studies in which aging rate was retarded by CR, now strengthening the possibility that CR may exert beneficial effects in primates analogous to those observed in rodents.     

DNA sequence recognition by bis-linked netropsin and distamycin derivatives

The dihydropyridine receptor (DHPR), a voltage-gated L-type Ca2+ channel, and the Ca2+ release channel/ryanodine receptor isoform-1 (RyR1) are key molecules involved in skeletal muscle excitation-contraction coupling. We have reported age-related decreases in the level of DHPR expression in fast- and slow-twitch muscles from Fisher 344 cross Brown Norway (F344BNX) rats (Renganathan, Messi and Delbono, J. Membr. Biol. 157 (1997) 247-253). Based on these studies we postulate that excitation-contraction uncoupling is a basic mechanism for the decline in muscle force with aging (Delbono, Renganathan and Messi, Muscle Nerve Suppl. 5 (1997) S88-92). In the present study, we extended our studies to older ages and we intended to prevent or retard excitation-contraction uncoupling by restricting the caloric intake of the F344BNX rats from 16 weeks of age. Three age groups, 8-, 18-, and 33-month old caloric restricted rats, were compared with ad libitum fed animals. The number of DHPR and RyR1 and DHPR/RyR1 ratio (an index of the level of receptors uncoupling) in skeletal muscles of 8-month and 18-month rats was not significantly different in either ad libitum fed or caloric restricted rats. However, the age-related decrease in the number of DHPR, RyR1 and DHPR/RyR1 ratio observed in 33-month old ad libitum fed rats was absent in 33-month old caloric restricted rats. These results suggest that caloric restriction prevents age-related decreases in the number of DHPR, RyR1 and DHPR/RyR1 ratio observed in fast- and slow-twitch rat skeletal muscles.     

The effects of patterned calorie-restricted diets on mammary tumor incidence and plasma endothelin levels in DMBA-treated rats

Chronic caloric restriction has been shown to inhibit mammary tumor promotion in the 7,12-dimethyl-benz[a]anthracene (DMBA) rat mammary tumor model. The objectives of this study were to determine (i) the effects of chronic caloric cycling (yo-yo dieting) on mammary tumor promotion by high fat diets and (ii) the effect of three dietary regimens +/- superimposed mammary tumor burden on plasma endothelin-1,2 (ET) levels. Female Sprague-Dawley rats were treated with DMBA (5 mg/rat) and divided into three dietary groups: ad libitum (AL) (containing 15% corn oil); 40% calorie restricted (CR) (containing 20% corn oil so consumption of fat was equivalent between AL and CR); a calorie cycled (CC) group fed alternatively AL and CR diets each 48 h period. After 10 weeks, tumor incidences were: AL, 63%; CR, 27%; CC, 57% (AL versus CR, P < 0.05; CC versus CR, P < 0.05; AL versus CC, NSD). ET levels (pg/ml plasma) were: AL, 16.0 +/- 6.54; CR, 32.31 +/- 0.34; CC, 23.44 +/- 5.04 (AL versus CR, P < 0.01; CC versus CR, P < 0.01; AL versus CC, P < 0.05). Plasma ET levels were independent of tumor incidence and tumor burden, but plasma ET levels were significantly increased in rats with a prior history of calorie restriction. As expected, maintained caloric restriction reduced mammary tumor incidence but intermittent caloric restriction (caloric cycling or yo-yo dieting) was without similar benefit.     

Moderate caloric restriction prevents the age-related decline in growth hormone receptor signal transduction

A decline in plasma concentration of insulin-like growth factor-1 (IGF-1) has been hypothesized to contribute to a decrease in tissue protein synthesis and function in aging animals and man. In this study, the effects of aging and long-term caloric restriction on growth hormone receptor signal transduction were assessed in hepatic tissue to determine whether alterations in tissue responsiveness to growth hormone contribute to the decline in IGF-1 gene expression. Liver slices from female C57/BL mice (10, 17, and 31 months) were prepared in media and stimulated with growth hormone (2 nM). An increase in growth hormone receptor binding was observed in 31-month ad libitum-fed animals (p < .01) compared to 10- or 17-month-old animals), and this effect was partially attenuated by moderate caloric restriction. However, growth hormone (2 nM)-induced IGF-1 gene expression was significantly lower in old ad libitum-fed animals (p < .05 compared to 10-month-old ad libitum and 31-month-old caloric-restricted animals). Further analysis revealed that growth hormone receptor and JAK2 kinase phosphorylation as well as mitogen-activated protein (MAP) kinase activity were significantly lower in old animals compared to the adult or middle-age groups (p < .05). Old caloric-restricted animals demonstrated a significant increase in growth hormone receptor and JAK2 kinase phosphorylation and MAP kinase activity in response to growth hormone. The results demonstrate that growth hormone increases growth hormone receptor and JAK2 kinase phosphorylation as well as MAP kinase activity in liver. These responses decrease with age and are attenuated by moderate, long-term caloric restriction.     

Nutrition, aging, old age

In humans there is evidence that the restriction of total caloric intake appears to be more important than the restriction of any particular macronutrient. Today the mechanism of the effect of caloric restriction is unknown. With advancing age and the occurrence of concomitant illness there is an increased risk of developing nutritional deficiencies. Altered nutritional status is associated with the pathogenesis of a number of common diseases of the elderly, thus it would appear that nutritional modulation and manipulation represents one possible approach to successful aging and a healthy longevity. The conceptual framework of the paper suggests the need of a newer light of the aging processes namely by a holistic human-gero-ecological model and a personality oriented geriatry. There are accentuated the role of the nutrients and vitamins, the food intake and drug-nutrients interactions and the meanings of the differences between the normal and pathological aging.     

The age-associated alterations in late diastolic function in mice are improved by caloric restriction

Caloric restriction reduces the magnitude of many age-related changes in rodents. Cardiac function is altered with senescence in mice, rats, and healthy humans. We examined the effects of life-long caloric restriction on diastolic and systolic cardiac function in situ using Doppler techniques in ad libitum-fed 30- to 32-month-old (AL) and calorically restricted (CR) 32- to 35-month-old female B6D2-F1 hybrid mice. The heart weight to body weight ratio was similar in AL (5.74 +/- .24 mg/g) and CR (5.68 +/- .20 mg/g) mice. Two systolic functional parameters known to decrease with age in both humans and mice, peak aortic velocity and aortic acceleration, were unchanged by CR compared to AL. In contrast, diastolic function was altered by caloric restriction. Although left ventricular peak early filling velocity (E) was not different between CR and AL, peak atrial filling velocity (A) was 50% lower in CR compared to AL (p < .001). The ratio of early diastolic filling to atrial filling (E/A ratio) was 64% higher in the CR (2.74 +/- .31) than the AL (1.55 +/- .07; p = .004). The fraction of ventricular filling due to atrial systole, the atrial filling fraction, was also reduced in CR (.21 +/- .04) compared to AL (.36 +/- .02; p = .007). These changes occurred in CR without alteration in E deceleration time, which is consistent with improved diastolic function in CR. Through mechanisms that remain unknown, lifelong caloric restriction may prevent the age-related impairments in late diastolic function but does not alter the impairments in systolic or early diastolic cardiac function.     

The effect of antral distension on acid secretion and plasma gastrin in duodenal ulcer patients

The effect of antral balloon distension on acid secretion and the plasma gastrin concentration was studied in 8 duodenal ulcer patients. Antral distension significantly increased the acid secretion to about 30% of the peak acid response to pentagastrin without any change in the plasma gastrin concentration. Antral distension and concomitant intragastric neutralization, with the intention of facilitating release of antral gastrin, produced about the same acid response and did not evoke any plasma gastrin increment. The results suggest that the acid response to antral distension in duodenal ulcer patients is evoked without contribution of the gastrin mechanism, and that the acid response is probably mediated via a pyloro-oxyntic reflex. In this respect the duodenal ulcer patient seems to differ from the healthy subject, in whom antral distension produces no acid response, and from the dog, in which release of gastrin as well as pyloro-oxyntic reflex participate in the acid response to antral distension.     

Effect of Tityus serrulatus scorpion toxin on serum gastrin levels in anaesthetized rat

Scorpion toxin induces gastric secretion of acid and pepsin in rats. These effects seem to be mediated by the release of acetylcholine and histamine. However, the role of gastrin in the scorpion-toxin-induced gastric secretion is unknown. We describe the effects of the T1 fraction purified from Tityus serrulatus scorpion venom on serum and on antral tissue gastrin levels in anaesthetized rats. Gastrin levels in serum and in the antral mucosa were measured before and at intervals 5, 15, 30, 60, 90 up to 120 min after the intravenous injection of saline or the T1 fraction of scorpion venom (0.25 mg/kg) into anaesthetized rats. Antral G-cells were submitted to immunocytochemistry and electron microscopy. The data on gastrin were correlated with the gastric juice volume, and the acid and pepsin output increases induced by toxin. Scorpion toxin induced a significant increase in volume, acid output and pepsin output of gastric juice and gastrin serum levels 15-60 min after injection. Simultaneous measurements of antral gastrin levels did not show significant effects. The number of dense, intermediate and empty granules per microm(2) in the cytoplasm of antral G-cells was not significantly changed 60 min after saline or toxin injection. Scorpion toxin significantly increased serum gastrin; levels in rats.     

Midclavicular catheters in the antepartum population. A continuous quality improvement review

The obese gene (OB) product, leptin, has been shown to exert control on metabolic processes such as food intake and body weight homeostasis, possibly through a neuropeptide Y (NPY) neurotransmission. More recently, leptin has been shown to control several neuroendocrine axes, modulating pituitary hormone secretions in function of metabolic conditions. Since in the rat growth hormone (GH) secretion is dependent upon prevailing metabolic conditions, and NPY has been shown to be implicated in the feedback mechanisms of this hormone, we reasoned that leptin could also exert control over GH secretion and we examined this hypothesis in male rats submitted to a 3-day fast. Circulating leptin concentrations measured by RIA abruptly fell to low values after 24 h of fasting and remained low thereafter. Upon refeeding, leptin secretion regularly increased. As shown by others, pulsatile GH secretion had disappeared after 3 days of fasting. Centrally administered leptin (10 microg/day, i.c.v. infusion initiated at the beginning of the fasting period) totally prevented the disappearance of pulsatile GH secretion. No leak of centrally administered leptin to the general circulation was observed. Infusing the same amount of leptin intracerebroventricularly to rats receiving ad libitum feeding produced a severe reduction in food intake but maintained a normal GH secretory pattern. In contrast, pair-fed rats, submitted to the same food restriction, exhibited a marked reduction in GH secretion. Hypothalamic NPY gene expression, estimated by Northern blot analysis, was significantly increased in fasting rats, and decreased in leptin-treated, fasting rats. In rats receiving ad libitum feeding, leptin treatment reduced NPY gene expression, consistent with the observed reduction in food intake, whereas pair-fed animals logically exhibited increased NPY gene expression. In both situations with reduced feeding, normal GH secretion was seen in leptin-treated animals exhibiting low NPY gene expression, whereas decreased or abolished GH secretion was seen in animals not receiving leptin and exhibiting increased NPY mRNA levels. Interestingly, despite maintenance of normal GH secretion in leptin-treated, fasting rats, plasma IGF-I levels were low, as in vehicle-treated rats. Indeed, hepatic gene expression for both GH receptor and IGF-I was markedly reduced by fasting, and no correction was seen with leptin treatment. In summary, the regulation of GH secretion, at least the changes linked with malnutrition, appears to be dependent upon a leptin signal, perceived centrally, possibly related to circulating levels of this new hormone. The present data suggest that leptin can rescue normal pulsatile GH secretion by preventing the documented inhibitory action of NPY on GH secretion.     

Calorie restriction, stress and the ubiquitin-dependent pathway in mouse livers

Calorie restriction (R), the only known method to delay the aging process and extend mean and maximal lifespan, has been shown to delay the age-related decline in protein degradation. There are several proteolytic pathways. The ubiquitin- and ATP-dependent proteolytic pathway (UPP) is frequently associated with degradation of damaged abnormal and/or regulatory proteins. We examined the effect of aging and R on supernatants of livers taken from young (4.5 months) and old (23 months) Emory mice. Aging was associated with increased levels of endogenous ubiquitin conjugates, enhanced ability to form high molecular weight conjugates and ubiquitin activating (E1) and ubiquitin conjugating (E2) activity in the control (C) liver supernatants. The age-related increase in levels of endogenous ubiquitin conjugates in liver appears to be primarily due to increased E1 and E2 activities. R prevented the age-related increase in E1 and E2 activity, and thus prevented the age-related increase in levels of ubiquitin conjugates. In spite of the age-related increase in ubiquitin conjugates, no age-related changes in ubiquitin-dependent proteolytic pathway were observed in the C animals. R was associated with an enhanced ability (130%) to degrade beta-lactoglobulin by the ubiquitin-dependent proteolytic pathway in livers from 4.5-month-old animals relative to age-matched C livers. However, rates of the ubiquitin-dependent degradation of beta-lactoglobulin in the 23-month-old C and R animals were indistinguishable. There were no age- or diet-related differences in the ability to degrade another substrate, oxidized ribonuclease (RNase).     

Influence of fat intake and caloric restriction on bone in aging male rats

Caloric and fat intake may have important skeletal consequences. To evaluate this possibility, skeletal effects of adult-onset caloric restriction (CR) at differing fat intakes were assessed in male Lobund-Wistar rats. At age 17 months, two groups of animals received an anti-obesity diet, restricted approximately 35% from individual ad libitum baseline calorie consumption, and two groups received a diet approximately 50% restricted. Dietary fat concentrations were 5, 15, 15, and 25% by weight, respectively. At ages 20, 24, 28, 30, and 32 months, ex vivo femoral bone densitometry and serum biochemical analyses were performed. Body weight (BW) decreased with time on CR in each group (p < .005), declining faster at the more severe restriction (p = .001). Femoral bone mineral contents (BMC) were also reduced. After adjusting for bone area and BW differences among groups, the only significant difference was a reduction in distal femur BMC in the 25% fat group subjected to more severe CR (p = .02). No differences were observed in serum parathyroid hormone, calcium, phosphorus, or creatinine. Femoral bone loss occurred with CR. This was entirely accounted for by reduction in BW. Higher dietary fat content did not affect BW in CR animals, but did result in lower distal femur BMC.     

Current problems in the measurement of gastrin release. A reproducible measure of physiological gastrin release

The interpretation of gastrin release is confused because of variation in the technique of the radioimmuoassay of gastrin, the lack of a standard stimulus for the release of gastrin and diversity in the method used to express the results. These problems have been analysed (a) by examining the cross-reactivity of three gastrin antisera and using each of the antisera to measure basal gastrin levels in fasting normal subjects, duodenal ulcer and post-vagotomy patients; (b) by determining a satisfactory stimulus for gastrin release in normal subjects; (c) by examining the results to determine the best method of presenting the data. The different a ntisera used were found to give different levels of plasma gastrin in the same sample of plasma. This was not related to the cross reactivity of the antisera. An English breakfast was found to be the most satisfactory stimulus for the release of gastrin. The expression of the results of such a stimulus of gastrin release was affected least by assay variation when the incremental integrated gastrin response was used. It is concluded that the incremental integrated gastrin response to an English breakfast is a satisfactory method for exploring variations in gastrin release.     

Pancreatic enzymes: secretion and luminal nutrient digestion in health and disease

Leptin is a hormone secreted by the adipocytes that regulates food intake and energy expenditure. It is known that growth hormone (GH) secretion is markedly influenced by body weight, being suppressed in obesity and cachexia, and recent data have demonstrated that GH release is regulated by leptin levels. Although one of the sites of action of leptin is likely to be the hypothalamus, since leptin receptor mRNA is particularly abundant in several hypothalamic nuclei, the mechanisms by which leptin regulates GH secretion are not yet known. The aim of the present study was to investigate whether leptin could act at the hypothalamic level modulating somatostatin and GH-releasing hormone (GHRH) expression. The administration of anti-GHRH serum (500 microl, i.v.) completely blocked leptin-induced GH release in fasting rats. In contrast, the treatment with anti-somatostatin serum (500 microl, i.v.) significantly increased GH release in this condition. Furthermore, leptin administration (10 microg, i.c.v.) to intact fasting animals reversed the inhibitory effect produced by fasting on GHRH mRNA levels in the arcuate nucleus of the hypothalamus, and increased somatostatin mRNA content in the periventricular nucleus. Finally, leptin administration (10 microgram, i.c.v.) to hypophysectomized fasting rats increased GHRH mRNA levels, and decreased somatostatin mRNA content, indicating an effect of leptin on hypothalamic GHRH- and somatostatin-producing neurons. These findings suggest a role for GHRH and somatostatin as mediators of leptin-induced GH secretion.     

Lipolytic response of rat adipocytes to epinephrine: effect of age and cell size

Isolated fat cells from 3, 12 and 28 month old rats were compared intheir lipolytic response to various doses of L-epinephrine. With increasing age a progressive decline in the response occurred when comparing rats with unmatched mean adipocyte diameters. However, this apparently age-related decrease was no longer evident if the diameters were matched since the 28 month old animals had a lipolytic response less than the 3 month old rats but greater than the 12 month olds. Body weight differences between these ages may account for these observations. The biphasic dose response curve to hormone stimulation in the 3 and 12 month olds was monophasic at 28 months. Within each age group the initial lag in glycerol release decreased and the lipolytic response increased as mean cell size increased. The rate of hormone stimulated glycerol release varied inversely with incubations of 3,700 to 25,000 cells/ml and aging had no effect on this parameter. DNA content per fat cell remained constant with age.     

Effects of carbamylcholine chloride on human antral gastrin mRNA levels

The effects of the muscarinic receptor agonist, carbamylcholine chloride (carbachol), on gastrin release and gastrin mRNA levels in human antral mucosa (n = 15) were determined. During a-2-h incubation period, carbachol (10(-6)-10(-4) M) decreased gastrin mRNA levels to 71 +/- 8% (10(-6) M), 40 +/- 8% (10(-5) M), and 33 +/- 5% (10(-4) M) of control levels. Carbachol (10(-5) M) decreased intracellular gastrin (from 1634 +/- 103 to 1272 +/- 126 pg/mg tissue protein), while it increased gastrin release into the medium (from 609 +/- 48 to 918 +/- 68 pg/ml per mg tissue protein). After 6- and 9-h culture, carbachol gradually increased gastrin mRNA levels, by 96 +/- 12% and 126 +/- 23%, respectively. Atropine sulfate (10(-5) M) completely inhibited the carbachol-induced changes. Cycloheximide markedly decreased tissue gastrin concentration, but increased gastrin mRNA levels, whereas it had no effects on gastrin release. These findings suggested that carbachol may have a time-related biphasic action on human antral gastrin biosynthesis.     

A dual effect of 1-methyl-4-phenylpyridinium (MPP+)-analogs on the respiratory chain of bovine heart mitochondria

Various gastrointestinal functions such as mucosal blood flow and mucus secretion can be influenced immunologically. Rats were systemically sensitized with 4-hydroxy-3-iodo-5-nitro-phenylacetic acid (NIP), a synthetic antigen. Mucosal release of gastrin, prostaglandin F2 alpha, 6-keto-prostaglandin F1 alpha, and leukotriene C4 was measured after intragastric or in vitro antigen challenge. Gastric protection from ethanol was determined. In sensitized rats, intragastric antigen challenge increased release of gastrin from the antral mucosa ex vivo and tended to increase release of prostaglandin F2 alpha. Likewise, antral mucosa of sensitized rats released significantly more gastrin and prostaglandin F2 alpha during in vitro antigen challenge than during incubation in the absence of antigen. Release of 6-keto-prostaglandin F1 alpha and leukotriene C4 was not affected by the immunologic reaction. Topical antigen challenge in sensitized rats reduced gastric mucosal damage caused by ethanol by 50%. The immunologically induced gastroprotection was significantly attenuated by pretreatment with indomethacin. The findings show that specific antigen challenge renders the gastric mucosa more resistant against the injurious effect of ethanol indicating that the stomach is a target organ of immunological reactions. As gastrin and prostaglandins exert potent protective effects, release of these mediators may contribute to the protective response to gastric mucosal immune activation.     

Effect of ileo-jejunal transposition on the growth of the GI tract and pancreas in young and aged rats

BACKGROUND: Ileo-jejunal transposition (IJT; transposition of the distal quarter of the small intestine into the proximal jejunum) is known to stimulate mucosal growth of the transposed ileum, but the effects on other parts of the small intestine are controversial. The effect of aging on the trophic action of IJT is not known. METHODS: We examined the trophic effect of IJT (3 weeks post-operation) on the gastrointestinal tract and pancreas, and on plasma levels of neurotensin and gastrin in three different aged groups of Fischer 344 rats (4, 12, and 24 months old). RESULTS: Three weeks after IJT, the mucosal mass, villus height, and crypt depth increased significantly in the transposed ileum as well as in the remainder of the small intestine. The weights of the colon and pancreas increased significantly after IJT. These responses were not affected by aging. In each of the three age groups, IJT did not affect plasma gastrin level, but significantly increased plasma level of neurotensin. CONCLUSIONS: The distal ileum appears to play an important role in the regulation of growth in the intestine and pancreas; this role is preserved in aged rats. Neurotensin may play an important role in this mechanism.     

Mechanisms of insulin-induced relaxation of the canine proximal stomach after proximal gastric vagotomy

The aim of this study was to determine whether insulin-induced relaxation of the proximal stomach after proximal gastric vagotomy is mediated by vagal release of antral gastrin. In six conscious, fasted dogs following proximal gastric vagotomy, the effects of intravenous insulin (1 U/kg) and intravenous gastrin (1 microg/kg) on proximal gastric motility, as measured by a gastric barostat, on plasma glucose, and on plasma gastrin, as measured by radioimmunoassay, were assessed 1 hour before and for 2 hours after injection. The effects of a cholecystokinin (CCK)-A receptor antagonist and a CCK-B receptor antagonist on insulin-induced or gastrin-induced relaxation of the proximal stomach and on plasma glucose and gastrin were also determined. Intravenous insulin decreased plasma glucose (before [mean +/- SD], 97 +/- 5 mg/dl vs. after, 45 +/- 3 mg/dl; P <0.05), increased plasma gastrin (before, 240 +/- 59 pg/ml vs. peak after, 387 +/- 85 pg/ml; P <0.05), and relaxed the proximal stomach (100% +/- 0% barostat volume vs. 202% +/- 15% volume; P <0.05). Exogenously administered gastrin also relaxed the proximal stomach without decreasing plasma glucose. CCK-B blockade diminished, but did not abolish, the gastric relaxation caused by insulin or gastrin, whereas CCK-A blockade had little effect. It was concluded that insulin-induced relaxation of the proximal stomach after proximal gastric vagotomy is mediated, in part, by vagal release of antral gastrin.