The nuclear oxysterol receptor LXRalpha is expressed in the normal human breast and in breast cancer.

The liver X> or = receptor alpha (LXRalpha) is a nuclear receptor with a key role in bile acid biosynthesis and cholesterol metabolism. The present study investigated the expression and function of LXRalpha in the normal and malignant human breast. LXRalpha mRNA transcripts were detected by RT-PCR in nine breast carcinoma cell lines. The nucleotide sequence of the cloned PCR product was identical to the corresponding human LXRalpha cDNA sequence. Expression of LXRalpha protein was confirmed by immunoblot analysis of breast cancer cell lysates. LXRalpha mRNA was expressed in 14/15 (93%) of normal human breast mammoplasty specimens and in 11/15 (73%) of primary breast carcinomas. Oxysterol and nonsteroidal LXRalpha agonists at low micromolar concentrations inhibited proliferation of breast carcinoma cell lines in culture. The importance of LXRalpha signaling in cholesterol homeostasis and the observed expression of LXRalpha in normal breast tissue suggest that this nuclear oxysterol receptor has an important physiological function in the breast. LXRalpha gene expression is regulated by dietary fatty acids implicated in breast carcinogenesis and detection of LXRalpha expression in breast cancer cell lines and breast tumors in the present study indicates that LXRalpha may also be important in breast carcinogenesis. Inhibition of breast cancer cell proliferation suggests that pharmacological LXRalpha agonists may have potential preventive and/or therapeutic antitumor activity in breast cancer.

Gliotoxin is a dual inhibitor of farnesyltransferase and geranylgeranyltransferase I with antitumor activity against breast cancer in vivo.

Gliotoxin is a natural mycotoxin with immunosuppressive and antimicrobial activity. Inhibition of farnesyltransferase (IC50 80 microM) and geranylgeranyltransferase I (IC50 17 microM) stimulated interest in the potential antitumor activity of this epidithiodioxopiperazine. Gliotoxin inhibited proliferation of six breast cancer cell lines in culture with mean +/- SD IC50 289 +/- 328 microM (range 38-985 microM); intracellular farnesylation of Lamin B and geranylgeranylation of Rap1A were inhibited in a dose-dependent manner. In randomized controlled studies using the N-methyl-N-nitrosourea rat mammary carcinoma model, gliotoxin had pronounced antitumor activity in vitro and little systemic toxicity when administered to 10 animals at 10 mg/kg by subcutaneous injection weekly for 4 wk compared with 10 controls. Single doses up to 25 mg/kg were well tolerated. The present studies confirm that gliotoxin is a dual inhibitor of farnesyltransferase and geranylgeranyltransferase I with pronounced antitumor activity and favorable toxicity profile against breast cancer in vitro and in vivo.

C-kit mutation screening in patients with acute myeloid leukaemia: adaptation of a Giemsa-stained bone-marrow smear DNA extraction technique.

The scarcity of viable tissue samples for leukaemia research is widely recognised and currently restrictive. Archival bone-marrow smears present a valuable resource that can be exploited easily for mutational analysis. Here, a modified technique to extract DNA is described, and used subsequently for mutation/polymorphism screening of the stem-cell factor receptor proto-oncogene c-kit in 23 patients with acute myeloid leukaemia (AML). The selected method was straightforward and used bone-marrow material scraped from periodic acid-Schiff, sudan black B and May-Grünwald/Giemsa-stained preparations, and treated initially with proteinase K prepared in digestion buffer to digest all proteinaceous matter. Following incubation, saturated sodium chloride was added and DNA extracted from the supernatant by phenol/chloroform/isoamyl alcohol treatment. Retrieved DNA was precipitated with ethanol at -20 degrees C overnight, washed with 95% ethanol, air-dried, resuspended using purite water and stored at -20 degrees C prior to use in mutational analysis. The extraction method described was compared with a commercial reagent for combined DNA, RNA and protein isolation using cryopreserved cells from 20 patients with AML. The quality of extracted DNA isolated by the two methods was comparable by polymerase chain reaction (PCR) and single-strand conformation polymorphism (SSCP) techniques. Bone-marrow biopsies are performed regularly on each AML patient to monitor the disease; therefore, an extraction method using this resource could liberate a valuable source of DNA for study (e.g. molecular investigations, including mutation/polymorphism screening etc.). This would allow fresh and programme-frozen cells to be reserved for those investigations requiring intact, viable cells. The use of archived bone-marrow smears would permit vast increase in the scope for retrospective testing and large-scale analyses.

Physiologic basis of pulmonary edema during intestinal reperfusion.

This study quantitates the physiologic forces governing the movement of fluid and protein into the lungs during intestinal reperfusion (IR) and describes the anatomic pattern of protein extravasation. Sprague-Dawley rats underwent IR after which pulmonary microvascular dysfunction was assessed in vivo by measuring the concentration of protein within the airways and by quantitating the extravasation of Evans blue dye (EBD). Pulmonary microvascular dysfunction was quantitated in vitro by determining the capillary filtration coefficient (Kf), protein reflection coefficient (final sigma), and vascular resistance (Rt) using an isolated, perfused lung model. The morphologic pattern of protein extravasation into the lung was qualitatively assessed by fluorescence microscopy following the intravenous administration of fluorescent-labeled proteins of varying molecular weight. Sham-operated animals served as controls. The EBD content of lungs of IR animals was 48% greater than that of controls (P = 0.02). There was no difference in the protein concentration within the airways of these two groups. IR was associated with changes in pulmonary microvascular function favoring the movement of plasma fluid and protein into the interstitium (Kf = 0.02 +/- 0.006 vs 0.005 +/- 0.0005 g/min/mm Hg/100 g body wt; final sigma = 0.95 +/- 0.02 vs 0.99 +/- 0.005; and Rt = 0.94 +/- 0.08 vs 0. 53 +/- 0.04 mm Hg/ml/min/100 g body wt; IR vs SHAM, respectively, P < 0.05). Fluorescence microscopy demonstrated the focal extravasation of labeled proteins into the lungs of animals sustaining IR. These data suggest that both enhanced microvascular permeability and increased hydrostatic pressure contribute to the pulmonary edema associated with IR. Furthermore, the extravasation of protein is relatively focal in nature in contrast to the diffuse leak that characterizes more severe models of lung injury.

In vivo role of glucocorticoids in barotrauma vascular repair and fibrosis.

To determine the important repair events leading to vascular collagen accumulation following barotrauma, in vivo changes were assessed during dexamethasone (DEX) treatment, as well as physiological healing. Hypercholesterolemic rabbits underwent bilateral iliac artery endothelial denudation, followed by angioplasty. Messenger ribonucleic acid (RNA) (procollagen types I, III and transforming growth factor [TGF]beta1), and bio-histometric composition of iliac arteries of animals treated with DEX (2, 7 and 7 days; 1 mg/kg1/day1), were compared to that in controls 2, 7 and 30 days after angioplasty. Type I and III procollagen mRNA transcripts were up-regulated following injury in either group. Similarly, TGFbeta1 mRNA levels were also elevated; however, treatment with DEX led to down-regulation at day 30 post-angioplasty. Linear regression and correlation of the densitometric ratios of procollagen alpha1(I) and TGFbeta1 mRNA during repair were observed significantly in either group (DEX-treated, r2= 0.84; non-treated, r2=0.79). Biochemically derived total vascular RNA concentration decreased transiently (7 days), with DEX-treatment (P = 0.003). Arterial lumen cross-sectional area was reduced between days 2 and 30 (P=<0.02), accompanied by an increase in fibrillar collagen concentration in both groups of animals post-angioplasty. These results suggest that during barotrauma repair, administration of DEX (approximately 1 week), does not affect vascular intimal hyperplasia or fibrosis, and that despite treatment, significant production of type I procollagen mRNA continues, influencing subsequent collagen deposition. The data also confirm a strong correlation between TGFbeta1 and type I procollagen mRNA expression, and modestly with type III procollagen during post-angioplasty repair.

Computer-based study strategies for students with learning disabilities: individual differences associated with adoption level.

This article reports results from a study of the use of technology to support students with learning disabilities in the use of effective study strategies. Thirty secondary students were given laptop computers and taught a variety of computer-based study strategies designed to facilitate information recording, organization, and manipulation. Results suggest that students adopted this innovation at three levels: (a) Power Users (skilled, independent users, integrating the computer into their schoolwork); (b) Prompted Users (skilled computer users, but requiring prompting); and (c) Reluctant Users (having limited knowledge and working only under supervision). Intelligence and reading test scores were associated with adoption levels in a statistically significant way.

Defective fatty acid-mediated beta-cell compensation in Zucker diabetic fatty rats. Pathogenic implications for obesity-dependent diabetes.

Although obesity is associated with insulin resistance, most obese humans and rodents remain normoglycemic because of compensatory hyperinsulinemia. This has been attributed to beta-cell hyperplasia and increased low Km glucose metabolism of islets. Since free fatty acids (FFA) can induce these same beta-cell changes in normal islets of Wistar rats and since plasma FFA are increased in obesity, FFA could be the signal from adipocytes that elicits beta-cell compensation sufficient to prevent diabetes. To determine if FFA-induced compensation is impaired in islets of rats with a diabetogenic mutation, the Zucker diabetic fatty (ZDF) rat, we cultured islets from 6-week-old obese (fa/fa) rats that had compensated for obesity and apparently normal islets from lean ZDF rats (fa/+) in 0, 1, or 2 mM FFA. Low Km glucose usage rose 2.5-fold in FFA-cultured control islets from age-matched Wistar rats, but failed to rise in either the precompensated islets of ZDF rats or in islets of lean ZDF rats. Bromodeoxyuridine incorporation increased 3.2-fold in Wistar islets but not in islets from obese or lean ZDF rats. Insulin secretion doubled in normal islets cultured in 2 mM FFA (p < 0.01) but increased only slightly in islets from lean ZDF rats (not significant) and declined in islets from obese ZDF rats (p < 0.05). We conclude that, unlike the islets of age-matched Wistar rats, islets of 6-week-old heterozygous and homozygous ZDF rats lack the capacity for FFA-induced enhancement of beta-cell function.

In vitro evidence of neutrophil-mediated lung injury after intestinal reperfusion.

This study examines the hypothesis that neutrophils isolated from animals sustaining intestinal reperfusion (IIR) induce pulmonary microvascular dysfunction. Lungs were isolated from normal Sprague-Dawley rats and perfused with a physiologic buffer in vitro. Neutrophils (2 x 10(6)) isolated from animals sustaining IIR (n = 5) or sham operation (SHAM; n = 6) were infused into the isolated lung model. A third group of lungs underwent in vitro perfusion without exposure to neutrophils (n = 5). Lung injury was assessed by measuring wet to dry weight ratios and pulmonary artery pressure (PAP). Pulmonary ultrastructure was assessed by electron microscopy. The wet:dry ratio of lungs from animals sustaining IIR was greater than that of lungs exposed to SHAM neutrophils (p = .03) or perfusate alone (p = .02). The PAP of lungs exposed to IIR neutrophils was nearly 10 times greater than that of lungs exposed to SHAM neutrophils (p = .003) or buffer alone (p = .006). Ultrastructural examination of lungs exposed to IIR neutrophils demonstrated interstitial edema with occasional focal disruptions in the alveolar capillary endothelial cell membrane whereas lungs exposed to SHAM neutrophils were normal. These experiments provide important in vitro correlation of prior in vivo studies suggesting that neutrophils are important pathogenic mediators of IIR-induced lung injury.

Caloric restriction in obese pre-diabetic rats prevents beta-cell depletion, loss of beta-cell GLUT 2 and glucose incompetence.

Pre-diabetic male Zucker diabetic fatty rats (ZDF) become diabetic between 8 and 10 weeks of age. At that time their beta cells exhibit high basal insulin secretion, absent insulin response to glucose and loss of GLUT 2 glucose transporter. Beta-cell volume, which is increased at the onset of non-insulin-dependent diabetes, declines precipitously by age 18 weeks. To determine if expression of this diabetic phenotype was dependent upon the increased food intake of these rats, they were diet-matched to lean littermates for 12 weeks beginning at 6 weeks of age. Untreated control ZDF rats received an unrestricted diet for 3 months. All of the controls became hyperglycaemic by 8 weeks of age, whereas all diet-matched rats remained euglycaemic throughout the 3 months, despite the fact that at 18 weeks of age their mean body weight equaled that of obese rats on an unrestricted diet. In the former rats glucose-stimulated insulin secretion was absent at 12 weeks of age and GLUT-2-positive beta cells had fallen below 30%. The volume fraction of their beta cells was 2.6 times normal at this age but by 18 weeks of age it had declined by 75%. Diet restriction for 3 months prevented the loss of glucose-stimulated insulin secretion and the reduction of beta-cell GLUT-2 and beta-cell volume fraction. However, neither the elevated basal insulin secretion nor the exaggerated arginine-stimulated insulin secretion of the obese rats was reversed or prevented by caloric restriction.(ABSTRACT TRUNCATED AT 250 WORDS)

Increased intragallbladder pressure stimulates gallbladder eicosanoid release.

The stimulus for increased gallbladder eicosanoid synthesis during cholecystitis is unknown. This study examines the hypothesis that increased intragallbladder pressure stimulates endogenous gallbladder eicosanoid release. Rabbit gallbladders were perfused in vitro at 1 ml/minute with oxygenated Krebs-Henseleit buffer and subjected to 0, 12 or 24 mm Hg of intraluminal gallbladder pressure. Release of 6-keto-PGF1 alpha infinity PGE2 and thromboxane B2 were measured in all groups after 15 and 30 and 60 minutes of perfusion by enzyme immunoassay and gallbladders were examined histologically. Increasing intraluminal gallbladder pressure concomitantly increased gallbladder 6-keto-PGF1 alpha release 2 fold or more at all time of perfusion and altered gallbladder mucosal architecture by increasing basolateral edema in the submucosal space. Infusion of indomethacin (10 micrograms/ml in the perfusion media) decreased 6-keto-PGF1 alpha release from the in vitro perfused gallbladders subjected to 24 mm Hg by 70%. Increased gallbladder eicosanoid release during early cholecystitis may in part be related to the physical force of increased gallbladder intraluminal pressure on the gallbladder mucosa.

GLUT-2 function in glucose-unresponsive beta cells of dexamethasone-induced diabetes in rats.

Spontaneous and dexamethasone-induced noninsulin-dependent diabetes mellitus (NIDDM) in rats is associated with loss of glucose-stimulated insulin secretion (GSIS) and a reduction in both GLUT-2-positive beta cells and high Km glucose transport. To determine if the chronology and correlation of these abnormalities is consistent with a causal relationship, Zucker (fa/fa) rats were studied longitudinally before and during 10 d of dexamethasone-induced (0.4 mg/kg per d i.p.) NIDDM. Within 24 h of dexamethasone treatment blood glucose rose and GSIS declined, becoming paradoxically negative (-87 +/- 12 microU/ml per min) on day 10. Blood glucose was negatively correlated with GSIS (r = -0.92; P < 0.001). 3-0-methyl-D-glucose (3MG) transport was unchanged at 12 h, 23% below normal on day 1, and declined further to a nadir 59% below normal. The GLUT-2-positive beta cell area did not decline until 48 h, reaching a nadir of 35% of normal at 10 d. The area of GLUT-2-positive beta cells was correlated with GSIS (r = 0.77; P < 0.005). We conclude that the chronology and correlation between GSIS loss and hyperglycemia is consistent with a cause-effect relationship, but that the subtotal impairment in glucose transport by itself cannot explain the total loss of GSIS if one assumes that normal beta cells are functionally homogenous.

Acute cholecystitis potentiates bradykinin stimulated fibroblast prostanoid release in the rabbit.

Gallbladder explants from control rabbits and rabbits subjected to bile duct ligation (BDL) for 24 and 72 h (cholecystitis model) were placed in cell culture to determine the source for increased gallbladder prostanoid synthesis during cholecystitis. Cultures from control and 24 h BDL gallbladders grew spindle shaped fibroblasts which did not exhibit increased prostanoid synthesis. 72 h BDL gallbladder cell cultures grew large polygonal shaped cells which appeared to be 'stimulated fibroblasts' by light and electron microscopy and were associated with increased basal and bradykinin stimulated 6-keto-PGF1 alpha release and increased content of prostacyclin synthase when measured by enzyme immunoassay and protein immunoblot analysis respectively. Use of bradykinin antagonists showed that the bradykinin BK2 subtype receptor was the most prominent in the 72 h BDL cell cultures. The 'stimulated fibroblasts' were the source of bradykinin stimulated gallbladder 6-keto-PGF1 alpha synthesis in the inflamed rabbit gallbladder which was mediated by the bradykinin B2 subtype receptor.

GLUT2 expression and function in beta-cells of GK rats with NIDDM. Dissociation between reductions in glucose transport and glucose-stimulated insulin secretion.

GLUT2 underexpression has been reported in the beta-cells of Zucker diabetic fatty rats and db/db mice, models of spontaneously occurring NIDDM with antecedent obesity. To determine whether the beta-cells of a nonobese rodent model of NIDDM exhibit the same abnormalities in GLUT2, we studied Goto-Kakizaki rats. In these mildly diabetic animals glucose-stimulated insulin secretion was reduced at all ages examined from 8 to 48 wk. In normal control Wistar rats, immunostainable GLUT2 was present on all insulin-positive cells in the pancreatic islets. Only 85% of beta-cells were GLUT2-positive in GK rats at 12 wk of age, and only 34% were positive at 48 wk of age. GLUT2 mRNA was 50% of normal in 12-wk-old GK rats. In the latter age-group, glucose-stimulated insulin secretion was only 28% of normal at a time when 85% of beta-cells were GLUT2-positive and initial 3-O-methyl-D-glucose transport rate was 77% of the control value. We conclude that although GLUT2 is underexpressed, neither the magnitude of the underexpression of GLUT2 nor of the reduction in GLUT2 transport function in islets of GK rats is sufficient by itself to explain the profound reduction in glucose-stimulated insulin secretion.

Autoantibodies to the GLUT-2 glucose transporter of beta cells in insulin-dependent diabetes mellitus of recent onset.

Purified immunoglobulin G (IgG) from the serum of patients with insulin-dependent diabetes mellitus (IDDM) of recent onset inhibits high-Km uptake of 3-O-methyl-beta-D-glucose by rat pancreatic islets. To determine if the inhibition is the result of antibodies against GLUT-2, the high-Km glucose transporter of beta cells, we incubated IDDM sera with rat islet cells and with AtT-20ins cells transfected to express GLUT-2. IDDM sera inhibited glucose uptake in islet cells and in GLUT-2-expressing AtT-20ins cells but not in AtT-20ins cells transfected to express the low-Km isoform, GLUT-1. In 24 of 30 (77%) patients with newly diagnosed IDDM, IgG binding as measured by immunofluorescence and flow cytometry of the cells transfected to express GLUT-2 was > 2 standard deviations from the mean of the nondiabetic population; 29 of 31 (96%) of nondiabetic children were negative (P < 0.0001). Increased IgG binding could be removed by absorption with GLUT-2-expressing cells but not with GLUT-1-expressing cells. We conclude that most patients with IDDM of recent onset have autoantibodies to GLUT-2.

Roles of insulin resistance and beta-cell dysfunction in dexamethasone-induced diabetes.

The roles of insulin resistance and beta-cell dysfunction in glucocorticoid-induced diabetes were determined in Wistar and Zucker (fa/fa) rats. All Wistar rats treated with 5 mg/kg per d of dexamethasone for 24 d exhibited increased beta-cell mass and basal and arginine-stimulated insulin secretion, indicating insulin resistance, but only 16% became diabetic. The insulin response to 20 mM glucose was normal in the perfused pancreas of all normoglycemic dexamethasone-treated rats but absent in every diabetic rat. Immunostainable high Km beta-cell transporter, GLUT-2, was present in approximately 100% of beta-cells of normoglycemic rats, but in only 25% of beta cells of diabetic rats. GLUT-2 mRNA was not reduced. All Zucker (fa/fa) rats treated with 0.2-0.4 mg/kg per d of dexamethasone for 24 d became diabetic and glucose-stimulated insulin secretion was absent in all. High Km glucose transport in islets was 50% below nondiabetic controls. Only 25% of beta cells of diabetic rats were GLUT-2-positive compared with approximately 100% in controls. Total pancreatic GLUT-2 mRNA was increased twofold suggesting a posttranscriptional abnormality. We conclude that dexamethasone induces insulin resistance, whether or not it induces hyperglycemia. Whenever hyperglycemia is present, GLUT-2-positive beta cells are reduced, high Km glucose transport into beta cells is attenuated and the insulin response to glucose is absent.

Cocaine-induced alterations in prostaglandin production in rabbit aorta.

To determine if alterations in endothelial prostaglandin production occur after long-term cocaine use, 26 New Zealand White rabbits were randomized to a low fat diet with (n = 12) or without (n = 14) daily intravenous cocaine (2 mg/kg body weight). Rabbits were killed at 6 or 12 weeks. Segments of aorta were examined in blinded manner for histologic changes. Additional slices were incubated in oxygenated Krebs buffer and release of 6-keto-prostaglandin F1 alpha, thromboxane B2 and prostaglandin E2 was assayed by radioimmunoassay. Minimal intimal histologic changes were seen in the aorta of three cocaine-treated rabbits. At 12 weeks 6-keto-prostaglandin F1 alpha was increased in the cocaine group (p = 0.063) as compared with levels in the control group. When rabbits killed at 6 and 12 weeks were considered together, increases in thromboxane B2 (p = 0.044) and a trend to increased prostaglandin E2 (p = 0.083) were seen in the cocaine group. The ratio of thromboxane B2 to 6-keto-prostaglandin F1 alpha was increased in the cocaine group compared with that in the control group (p less than 0.02). These data suggest that an increase in prostaglandin production occurs in the vascular endothelium of rabbits ingesting cocaine before gross histologic changes are evident. In addition, thromboxane B2 increases disproportionately with respect to 6-keto-prostaglandin F1 alpha, suggesting that a milieu for thrombosis may exist in users of cocaine.

Six criteria to evaluate skill competency documentation.

The documentation of critical care nurses' competence is essential so that required standards are met. The authors set criteria against which a competency documentation system can be evaluated.

Expression of reg/PSP, a pancreatic exocrine gene: relationship to changes in islet beta-cell mass.

A cDNA termed reg was recently isolated by differential screening of a library prepared from regenerating islets isolated from pancreatic remnants of rats subjected to 90% pancreatectomy and nicotinamide treatment. This led to speculation that this gene may be involved in expansion of beta-cell mass. In the current study we have measured reg expression after implantation and resection of a solid insulinoma tumor into rats, maneuvers known, respectively, to reduce and reexpand the volume of beta-cells in the islet. Animals with an implanted insulinoma tumor became profoundly hypoglycemic. Islet beta-cells declined from the normal 75% of total islet volume to less than 30%, in concert with a marked reduction in the reg mRNA level. Removal of the tumor resulted in a sharp increase in beta-cell replication, as measured by [3H]thymidine incorporation and a return to normal beta-cell volume within 4 days of tumor resection. This was associated with a transient induction in reg expression compared to that in tumor-bearing animals, effectively returning the amount of reg mRNA to the levels found in normal animals within 48 h; at later time points after tumor removal (3-7 days) reg expression declined, but then rose toward normal. In situ hybridization analysis localized the initial induction in reg mRNA expression to the exocrine pancreas. Continuous infusion of insulin into normal rats for 4 days, a maneuver that does not significantly reduce beta-cell mass, resulted in dramatically reduced insulin mRNA in islets, but no change in the levels of reg mRNA. We conclude that the diminution in pancreatic beta-cell mass caused by subcutaneous implantation of an insulinoma is associated with reduced reg gene expression and that the increase in beta-cell replication after resection of the tumor is preceded by return of reg gene expression toward normal.

Evidence that down-regulation of beta-cell glucose transporters in non-insulin-dependent diabetes may be the cause of diabetic hyperglycemia.

Non-insulin-dependent diabetes mellitus (NIDDM) is attributed to a failure of pancreatic beta cells to maintain insulin secretion at a level sufficient to compensate for underlying insulin resistance. In the ZDF rat, a model of NIDDM that closely resembles the human syndrome, we have previously reported profound underexpression of GLUT-2, the high-Km facilitative glucose transporter expressed by beta cells of normal animals. Here we report that islets of diabetic rats exhibit a marked decrease in the volume of GLUT-2-positive beta cells and a reduction at the electron-microscopic level in the number of GLUT-2-immunoreactive sites per unit of beta-cell plasma membrane. The deficiency of GLUT-2 cannot be induced in normal beta cells by in vivo or in vitro exposure to high levels of glucose nor can it be prevented in beta cells of prediabetic ZDF rats by elimination of hyperglycemia. We conclude that this dearth of immunodetectable GLUT-2 in NIDDM is not secondary to hyperglycemia and therefore that it may well play a causal role in the development of hyperglycemia.

Effect of truncal vagotomy on parietal cell mass and antral gastrin cell mass in dogs.

Vagotomy is known to reduce acid secretion and to increase serum gastrin concentrations. However, there is minimal information on the effect of vagotomy on parietal cell mass or gastrin cell mass. Basal and maximal acid secretions and fasting serum gastrin concentrations were measured in 22 gastric fistula dogs with pyloromyotomy before and up to 56 days following complete bilateral truncal vagotomy (n = 11) or sham vagotomy (n = 11). Dogs underwent total gastrectomy on postoperative days 9 (n = 5 per group) or day 56 (n = 6 per group). Parietal cells were stained with Luxol fast blue and parietal cell mass determined with computer-assisted histomorphometry. Parietal cell mass averaged 10.68 +/- 0.90 billion in control dogs and correlated significantly with maximal acid output (r = 0.76; P less than 0.01). Vagotomy reduced maximal acid output by 40%-50% (P less than 0.001) but had no significant effect on parietal cell mass (8.99 +/- 1.00 billion). Vagotomy increased serum gastrin concentrations significantly, but antral gastrin cell mass in vagotomized dogs (5.66 +/- 1.00 million) was not significantly different than that in control dogs (4.74 +/- 0.50 million). Thus, vagotomy did not lead to parietal cell hypoplasia or gastrin cell hyperplasia despite profound alterations in parietal cell and gastrin cell function.