Differential effects of gut hormones on pancreatic and intestinal growth during administration of an elemental diet.

Liquid elemental diets (ED) will, in time, cause atrophy of the gut. Pentagastrin (PG), neurotensin (NT), and bombesin (BBS) are peptides that have trophic effects on the gut of normal rats. This study examined the effect of these three agents on gut atrophy produced by ED. Four groups of rats were given an ED and injected with either saline (control), PG (250 micrograms/kg), NT (300 micrograms/kg), or BBS (10 micrograms/kg) subcutaneously every 8 hours for 5 or 10 days. A fifth group was fed rat chow ad libidum. The rats were killed on day 6 or 11; the pancreas and segments of small intestine were removed. Atrophy of ileal mucosa was apparent on days 6 and 11, and atrophy of jejunal mucosa was manifest by day 11. Bombesin prevented jejunal mucosal atrophy and significantly increased ileal mucosal growth (compared with control). Neurotensin prevented the jejunal, but not the ileal, mucosal atrophy produced by ED. Pentagastrin had no effect on gut mucosa. Bombesin and PG, but not NT, stimulated pancreatic growth. Neurotensin stimulates pancreaticobiliary secretions (PBS), which are known to stimulate gut growth. Jejunoileal bypass was performed to determine whether trophic effects of NT on gut mucosa were mediated through stimulation of PBS. After 1 week treatment, animals were killed and segments of intestine removed. As expected NT was trophic for gut mucosa in continuity with the luminal stream; furthermore NT produced significant stimulation of growth of gut mucosa in the bypassed segment. We conclude that both BBS and NT are trophic for intestinal mucosa of rats given ED; both agents have a more pronounced effect on jejunum. The trophic effect of NT is mediated, in part, by a mechanism unrelated to stimulation of PBS. Bombesin and NT may have important regulatory functions in the adaptive growth of small bowel mucosa and in the maintenance of gut mucosal integrity.     

Role of bombesin on gut mucosal growth.

OBJECTIVE: The authors examined the effects of exogenous bombesin (BBS) on gut mucosal growth in chow-fed rats and the mucosal regeneration after gut atrophy brought about by feeding an elemental diet and after intestinal injury produced by methotrexate (MTX). SUMMARY BACKGROUND DATA: Bombesin is one of many gastrointestinal peptides implicated in the regulation of gut mucosal growth. Although BBS is known to stimulate growth of normal pancreatic tissue, the trophic effect of BBS on gut mucosa is less clear and its exact role in gut mucosal regeneration and repair is not known. METHODS: Rats were fed a regular chow diet (control) or an elemental diet plus either saline or BBS (10 micrograms/kg). In another experiment, rats fed a chow diet and treated with saline or BBS were given MTX (20 micrograms/kg) or a single intraperitoneal injection. In all experiments, small and large bowel mucosa and pancreas were removed and analyzed for BBS-mediated proliferation. RESULTS: Bombesin produced significant mucosal proliferation of the small bowel at day 14, but not at day 7, in rats fed regular chow. In contrast, BBS treatment for 7 days produced significant proliferation in both the atrophic and injured gut mucosa of rats given elemental diet or MTX. CONCLUSIONS: Bombesin may be an important enterotrophic factor for normal mucosal proliferation and may be clinically beneficial as an agent to restore or maintain gut mucosa during periods of atrophy or injury.     

Bombesin improves survival from methotrexate-induced enterocolitis.

OBJECTIVE: The authors determined whether bombesin could improve survival from methotrexate (MTX)-induced enterocolitis. SUMMARY BACKGROUND DATA: Bombesin prevents gut mucosal atrophy, which is produced by feeding rats an elemental diet. Administration of MTX produces a lethal enterocolitis in rats fed an elemental diet. METHODS: On treatment day 0, 60 rats were divided randomly into three groups and fed an elemental diet (Vivonex TEN, Sandoz, Minneapolis, MN) as the only source of nutrition. Groups were subdivided further to receive either saline or bombesin (10 micrograms/kg, subcutaneously, three times a day) beginning either on day 0 or day 14. Methotrexate (20 mg/kg, intraperitoneally) was given to all rats 14 days after the start of an elemental diet. RESULTS: Bombesin prevented the mucosal atrophy in the ileum produced by the elemental diet and significantly decreased mortality in rats given MTX (whether given as a pretreatment or at the time of MTX administration). CONCLUSION: Bombesin significantly improved survival in a lethal model of MTX-induced enterocolitis, possibly by maintaining gut mucosal structure. Administration of bombesin to patients receiving chemotherapy may be clinically useful in preventing the severe enterocolitis induced by various chemotherapeutic agents.     

Bombesin-induced gastroprotection

Bombesin is an endogenous gut peptide that is prominent in the stomach. In addition to its effects on modulating acid and gut peptide secretion, recent evidence indicates that bombesin is a potent gastroprotective agent. This review article examines the ability of bombesin to prevent gastric injury. Its protective actions appear to be mediated primarily via the release of endogenous gastrin, as gastroprotection is negated by blockade of gastrin receptors. Bombesin-induced gastroprotection and gastrin release are modified by somatostatin. Immunoneutralization of endogenous somatostatin increases the ability of bombesin to prevent gastric injury by increasing gastrin release. In mechanistic studies, ablation of capsaicin-sensitive afferent neurons abolishes bombesin-induced gastroprotection while cyclo-oxygenase inhibition partially reverses this effect. Nitric oxide synthase inhibition also negates bombesin-induced gastroprotection as well as the ability of bombesin to increase gastric mucosal blood flow. Taken together, the available evidence indicates that bombesin causes release of endogenous gastrin that activates sensory neurons located in the gastric mucosa. Activation of sensory neurons causes increased production of nitric oxide through activation of constitutive nitric oxide synthase, which leads to a resultant increase in gastric mucosal blood flow and renders the stomach less susceptible to damage from luminal irritants.     

Recombinant human interleukin-11 prevents mucosal atrophy and bowel shortening in the defunctionalized intestine

BACKGROUND: Mucosal atrophy and bowel shortening are the hallmark of proximal intestinal diversion for extensive necrotizing enterocolitis (NEC) or Thiry-Vella fistulas (TVF), in which the ends of a defunctionalized loop of intestine are exteriorized as stomas. Recombinant human interleukin-11 (rhIL-11) is a pleiotropic cytokine that promotes epithelial regeneration and enhances adaptation after bowel resection. The authors hypothesized that rhIL-11 may prevent mucosal atrophy and bowel shortening in rats with TVF METHODS: After creation of ileal TVF, Sprague-Dawley rats were selected randomly to receive either rhIL-11 or equal volume of 0.1% bovine serum albumin (BSA) subcutaneously daily. On day 14, the TVF were excised and examined morphologically. Enterocyte apoptosis was measured using the TUNEL assay. Mucosal DNA and protein content were measured. RESULTS: Administration of rhIL-11 resulted in a significantly greater weight gain and less shortening of TVF than BSA treatment. TVF from the rhIL-11-treated group showed evidence of hyperplasia and hypertrophy and increased crypt to villus ratio. The BSA group had substantial mucosal atrophy. There was a qualitative decrease in the incidence of apoptosis in the rhIL-11 group. CONCLUSIONS: Recombinant human IL-11 prevents mucosal atrophy and shortening of defunctionalized intestinal loops. It may help reduce the incidence of short gut syndrome in infants with extensive NEC.     

Bombesin stimulates growth of human gastrinoma.

BACKGROUND. We have previously reported the first establishment and characterization of a functioning human gastrinoma (PT) xenograft. Bombesin, the equivalent of the mammalian gastrin-releasing peptide, has trophic effects on normal and neoplastic tissues of the gastrointestinal tract; the effects of gut hormones on the growth of gastrinoma are not known. The purpose of this study was twofold: (1) to determine the presence of various gut peptides in PT and (2) to determine the effect of bombesin on the growth of PT xenografts. METHODS. PT tumors were examined for expression (mRNA and protein) of various gut peptides by Northern hybridization and immunohistochemistry. In addition, PT xenografts were implanted as 3 mm2 pieces bilaterally subcutaneously in athymic nude mice. Mice were divided into two groups to receive either bombesin (5 micrograms/kg) or saline administered as intraperitoneal injections every 8 hours. Tumor area was measured twice weekly until mice were sacrificed (day 28), when tumor and normal pancreas were removed, weighed, and assayed for DNA and protein content. RESULTS. Both mRNAs and peptides of gastrin and chromogranin A were present in PT tumors. Bombesin significantly stimulated growth of PT tumors from day 18 until mice were sacrificed (day 28). As expected, bombesin stimulated pancreatic growth. CONCLUSIONS. We have demonstrated for the first time that bombesin is a trophic hormone for gastrinoma. The unique cell line PT contains gastrin and chromogranin A and will be a useful model to define the biologic mechanisms controlling the growth of human gastrinomas.     

Trophic response of gut and pancreas after ileojejunal transposition.

OBJECTIVE: The authors determined whether ileojejunal transposition (IJT) stimulates the growth of the pancreas or the nontransposed segment of small intestine, and ascertained whether this trophic effect is altered by the location of transposed gut segment. SUMMARY BACKGROUND DATA: Transposition of the ileum to the proximal small intestine stimulates a marked mucosal growth of the transposed ileal segment; the cellular mechanisms responsible for this adaptive hyperplasia are not known. METHODS: The distal quarter of the small intestine (distal ileum) was transposed into the proximal (Type I), middle (Type II), or distal (Type III) portions of the remaining small intestine. On postoperative day 28, the pancreas and scraped mucosa from the segments of transposed ileum, proximal ileum, and duodenum were obtained, weighed, and examined for DNA and protein content. RESULTS: All types of IJT increased mucosal weight and DNA content of the transposed ileum. Types I and II IJT produced a significant proliferation of the pancreas and mucosa of the duodenum and proximal ileum. The magnitude of proliferative increases was greatest in Type I IJT. CONCLUSIONS: Ileojejunal transposition appears to be an excellent model to examine the mechanisms by which intestinal epithelial cells proliferate in response to luminal nutrients or humoral factors.     

Burn-induced transcriptional regulation of small intestinal ornithine decarboxylase.

The mechanisms responsible for gut repair after burn injury have not been established. Polyamines are required for eukaryotic cell growth and differentiation. The enzyme ornithine decarboxylase (ODC) catalyzes the rate-limiting step in polyamine biosynthesis. The role of ODC activity in repair of injured small bowel mucosa after burns has not been investigated. This study examined the effects of burn injury on gut mucosal mass and regulation of ODC gene expression and ODC activity in small bowel mucosa. After an overnight fast, 18 male Sprague-Dawley rats (250 to 300 g) were randomized into sham, 20% burn, or 60% burn groups. We measured ODC activity, mucosal weight, deoxyribonucleic acid (DNA) content, and protein content in proximal and distal small bowel mucosa at postburn intervals of 0, 3, 12, 24, and 48 hours. Gut mucosal ODC messenger ribonucleic acid (mRNA) levels were determined. Burn injury caused significant atrophy of the gut mucosa by 12 hours postburn; restoration was evident by 48 hours after burn. ODC activity was increased in the proximal small bowel at 12 and 24 hours after burn in the rats in both the 20% burn and 60% burn groups; by contrast, only rats in the 60% burn group had increased ODC activity in the distal small bowel. ODC mRNA levels increased in the proximal gut mucosa as early as 3 hours after the burn and returned to control values after 24 hours. These data show that mucosal restoration begins soon after burn injury and that the induction of ODC mRNA and ODC activity are important events.     

Neuroendocrine-immune modulation may be useful for allograft-specific immunosuppression in small bowel transplantation

PURPOSE: The authors have previously demonstrated that the neuropeptide bombesin (BBS) prevented allograft mucosal atrophy under tacrolimus (TRL) immunosuppression for rats small bowel transplantation (SBT). The present study investigated whether BBS had immunosuppressive effects on small bowel allografts. METHODS: Allogeneic SBT was performed heterotopically in rats (n = 12) that received daily administration of 0.1 mg/kg/d TRL from postoperative day 0 to day 14. Rats divided into two groups of six rats each were administered BBS or normal saline as a control. Biopsy of the allograft was performed from the stomal site on postoperative days 6, 10, and 14. The state of the graft mucosal villi was evaluated by H & E staining and TUNEL immunohistochemistry. RESULTS: By postoperative day 14, extensive mucosal destruction accompanied by heavy transmural cellular infiltration had developed in the control group. Lymphocytes and plasma cells infiltrated the lamina propria of the allograft without the distorting villous architecture in the BBS group. The TUNEL index of graft mucosa in the control group was 1.26% +/- 0.37% (mean +/- SD) and that in the BBS group, 0.59% +/- 0.20%, respectively (p < .001). CONCLUSION: This study demonstrated an immunosuppressive effect of bombesin on transplanted allografts, which might dramatically reduce the dose of TRL required for postoperative immunosuppression.     

Elemental diet-induced bacterial translocation can be hormonally modulated.

BACKGROUND: The authors have previously documented that feeding mice an elemental diet resulted in bacterial translocation (BT) that could be prevented by the provision of dietary fiber. To test whether the protective effect of fiber was related to the stimulation of trophic gut hormones, the effects of sandostatin and bombesin were tested. METHODS: Mice fed either chow or the elemental diet were stratified into several groups and the ability of bombesin (10 micrograms/kg, tid) or sandostatin (100 micrograms/kg bid) to modulate BT was examined. After 14 days, mice were sacrificed and BT, cecal bacterial population levels, mucosal protein, and small bowel weight was measured. Segments of the ileum and jejunum were examined histologically. RESULTS: Incidence of elemental diet-induced BT (75%) was reduced by fiber (9%) or the administration of bombesin (13%) (p < 0.01). Although sandostatin did not promote BT in chow-fed mice, it reversed the protective effect of fiber on BT (75%) (p < 0.01). CONCLUSION: Elemental diet-induced bacterial translocation can be modulated hormonally and the beneficial effects of fiber on diet-induced BT appears to be hormonally mediated.     

Neurotensin augments intestinal regeneration after small bowel resection in rats.

Massive small bowel resection (SBR) is characterized by increased proliferation of residual gut mucosa and pancreas. Neurotensin (NT), a gut tridecapeptide, stimulates growth of normal gut mucosa and pancreas. This study examined whether NT affected growth of the small intestine and the pancreas after either distal or proximal SBR. Male Fischer 344 rats were divided into four groups. Group 1 underwent ileal transection with reanastomosis (SHAM) and group 2 underwent 70% distal SBR. Group 3 underwent SHAM operation (jejunal transection), and group 4 underwent 70% proximal SBR. After operation, each group was further subdivided to receive either saline (control) or NT (300 micrograms/kg) subcutaneously in gelatin every 8 hours for 7 days. At death, the pancreas and proximal jejunum (from groups 1 and 2) or distal ileum (from groups 3 and 4) were removed, weighed, and analyzed for DNA, RNA, and protein content. Both proximal and distal SBR significantly increased mucosal growth in the remnant intestine; a more pronounced effect was noted with proximal SBR. Administration of NT significantly augmented the adaptive changes in both groups of rats by mechanisms involving increases in both cell size (hypertrophy) and cell number (hyperplasia). Pancreatic growth was stimulated by distal (but not proximal) SBR; NT did not augment this response. The authors conclude that NT augments intestinal growth after SBR by mechanisms involving an increase in overall mucosal cellularity. Administration of NT may be therapeutically useful to enhance mucosal regeneration during the early period of adaptive hyperplasia after SBR.     

Influence of epidermal growth factor on intestinal function in the rat: comparison of systemic infusion versus luminal perfusion

Epidermal growth factor may be a trophic substance for the small intestine. Previous studies had not evaluated intestinal absorption after long-term continuous administration of epidermal growth factor or compared luminal perfusion with systemic infusion. Epidermal growth factor (150 micrograms/kg/day) was continuously infused either systemically or luminally for 14 days into young adult Fisher strain rats. Luminal studies were performed by creating 10 cm Thiry-Vella loops. At the conclusion of the 14 day infusions, mucosal DNA concentration and absorption of carbon-14 galactose and carbon-14 glycine were determined. The increase in DNA concentration after systemic or luminal infusion of epidermal growth factor was not statistically significant. However, galactose absorption increased 1.9-fold (p less than 0.05) after systemic epidermal growth factor infusion and glycine absorption increased 4.4-fold (p less than 0.01). Luminal epidermal growth factor perfusion increased galactose absorption 2.4-fold (p less than 0.05) and glycine absorption 4.1-fold (p less than 0.01). Thus, both systemic and luminal administration of epidermal growth factor can significantly increase substrate absorption. Additional studies on the physiologic implications and clinical usefulness of these data are warranted.     

Glucagon-like peptide 2 is a potent growth factor for small intestine and colon

Factors that stimulate gut mucosal proliferation may be beneficial during periods of gut disuse or atrophy. Recently glucagon-like peptide 2 (GLP-2) has been shown to stimulate small bowel growth. The purpose of our study was to compare the trophic effects of GLP-2 with those of neurotensin (NT), a potent gut trophic factor. Mice were randomized to receive either GLP-2, NT, or saline solution (control) for 10 days. The mice were killed on day 11, at which time the jejunum, ileum, and colon were removed, weighed, and DNA and protein content measured. Mice treated with GLP-2 showed a significant increase in the weight of the jejunum, ileum, and colon compared to both control and NT-treated mice. DNA content, a marker of cellular hyperplasia, was significantly increased in the small bowel and colon by treatment with GLP-2 and NT compared to control tissues. Small intestinal protein content, an indicator of cellular hypertrophy, was significantly increased by GLP-2 compared to both NT and control; protein content of the colon was greater in each of the treatment groups compared with control mice. We have demonstrated, for the first time, that GLP-2 stimulates colonic growth. In addition, GLP-2 is a potent trophic factor of normal small intestine with proliferative effects that are equal to or greater than those of NT Administration of GLP-2 may be useful clinically to enhance small intestinal regeneration and adaptation during periods of disease and in the early phases of the short bowel syndrome. Supported by grants from the National Institutes of Health (PO1 DK35608, ROl AG10885, and T32-DK07633). Presented at the Thirty-Eighth Annual Meeting of The Society for Surgery of the Alimentary Tract, Washington, D.C., May 11–14, 1997, and published as an abstract in Gastroenterology 112:A1455, 1997.     

Bombesin in short bowel syndrome.

Short bowel syndrome comprises the sequel of nutrient, fluid, and weight loss that occurs subsequent to greatly reduced functional surface area of the small intestine. The aim of this study is to investigate the trophic and functional effects of bombesin on remaining gut in rats with experimentally induced short bowel syndrome. Thirty-two rats were allocated randomly and experimental short bowel syndrome was induced by 80% bowel resection in all rats. A regular enteral diet and isocaloric elemental enteral nutrition for 12 days were given in the control group and the elemental nutrition group, respectively. In the bombesin group 10 microg/kg subcutaneous bombesin (t.i.d.) for 10 days with regular enteral diet for 12 days was given. In the elemental nutrition and bombesin group the diet consisted of 10 microg/kg subcutaneous bombesin (t.i.d.) for 10 days with isocaloric elemental enteral nutrition for 12 days was given. All rats underwent physical, histological, and biochemical evaluation. Reduction in weight loss, bowel diameter, fecal fat content, and glycemia, increase in cellularity, and d-xylose absorption were observed in all treatment groups. These changes were more evident in the bombesin treatment groups. Increases in serum protein and albumin levels were seen with bombesin treatment with or without elemental diet, whereas reductions in villous height and crypt depth were observed only with bombesin treatment without elemental diet. Serum calcium, iron, and vitamin B(12) levels were not affected with any treatment. It is concluded that bombesin may be a useful trophic agent contributing to increased absorptive capacity and improved biochemical values even in the absence of elemental nutrition.     

Organ Transplantation: From Myth to Reality

Short bowel syndrome comprises the sequel of nutrient, fluid, and weight loss that occurs subsequent to greatly reduced functional surface area of the small intestine. The aim of this study is to investigate the trophic and functional effects of bombesin on remaining gut in rats with experimentally induced short bowel syndrome. Thirty-two rats were allocated randomly and experimental short bowel syndrome was induced by 80% bowel resection in all rats. A regular enteral diet and isocaloric elemental enteral nutrition for 12 days were given in the control group and the elemental nutrition group, respectively. In the bombesin group 10 μg/kg subcutaneous bombesin (tid) for 10 days with regular enteral diet for 12 days was given. In the elemental nutrition and bombesin group the diet consisted of 10 μg/kg subcutaneous bombesin (tid) for 10 days with isocaloric elemental enteral nutrition for 12 days was given. All rats underwent physical, histological, and biochemical evaluation. Reduction in weight loss, bowel diameter, fecal fat content, and glycemia, increase in cellularity, and d-xylose absorption were observed in all treatment groups. These changes were more evident in the bombesin treatment groups. Increases in serum protein and albumin levels were seen with bombesin treatment with or without elemental diet, whereas reductions in villous height and crypt depth were observed only with bombesin treatment without elemental diet. Serum calcium, iron, and vitamin B₁₂levels were not affected with any treatment. It is concluded that bombesin may be a useful trophic agent contributing to increased absorptive capacity and improved biochemical values even in the absence of elemental nutrition.     

Small bowel allografts maintained by administration of bombesin while under immunosuppression

Background/Purpose: The aim of this study was to determine if Bombesin (BBS) could help maintain the mucosal villus state in small bowel allografts without inducing acute rejection under immunosuppression. Methods: Allogeneic small bowel transplantation was performed heterotopically in rats (n = 12). All rats received daily administration of FK506 from postoperative day 0 to day 28. On postoperative day 14, rats were divided into 2 groups of 6 rats each, and administered BBS or normal saline as a control. After 2 weeks of treatment, the rats were killed, and the graft mucosal villus state was evaluated by H[amp ]E staining, and crypt cell proliferation analysis was performed using immunohistochemistry with proliferative cell nuclear antigen (PCNA). Results: Villi were thin, and villus blunting was marked in the control group. The BBS group showed that the villi of the grafts were well maintained, and the volume of the lamina propria mucosa was adequately preserved. The PCNA labeling index of crypt cells in the control group was 40.06 [plusmn] 3.36 (mean [plusmn] SD) and that in the BBS group was 61.02 [plusmn] 4.27. There was a significant difference (P [lt ] .001) between the 2 groups. Conclusions: BBS maintained allograft epithelial cells and the volume of the lamina propria intestinal mucosa, stimulating proliferation of crypt cells under immunosuppression without inducing acute rejection. J Pediatr Surg 38:83-87.     

Mucosal morphology in isolated bowel segments: importance of exposure to luminal contents.

An isolated bowel segment (IBS) is a loop of intestine that has been freed from its mesenteric attachment after the development of vascular collaterals between the antimesenteric surface of the gut and the host organ. Surgical creation of such artificially vascularized isolated bowel segments is of interest to researchers for a variety of studies, and may be useful in the treatment of short bowel syndrome, allowing longitudinal division of the remaining small bowel to double its length. We created four surgical variants to study the ability of the collateral blood supply to maintain mucosal integrity in the presence or absence of normal luminal contents. In all groups, a collateral blood supply was created in a 5- to 7-cm segment of adult rat jejunum by hepatoenteropexy (Iowa model II). In Thiry-Vella (T-V) and isolated bowel segment (IBS) rats, this segment was exteriorized at both ends to exclude luminal contents. Control and IBS in continuity (IBS-C) loops were left in continuity. The mesentery of IBS and IBS-C rats was divided 5 weeks later, leaving the experimental segment entirely dependent on the collateral circulation. All animals were harvested at 7 weeks after the initial surgery. Tissues were analyzed for mucosal weight, protein content per centimeter of bowel, length of villi, depth of crypts, DNA content, and sucrase activity. We found that segments retaining luminal continuity had significantly higher mucosal weight and DNA content per centimeter of bowel compared with exteriorized loops.     

Bombesin: A vagally independent stimulator of gastrin release

In this study we demonstrate that bombesin is a potent stimulant of canine gastrin and gastric acid secretion. Bombesin was shown to release almost fourfold more gastrin than a meal by a mechanism which is independent of vagal integrity. An exogenously administered cholinomimetic agent released only minimal amounts of gastrin after vagotomy and virtually none in the intact canine model. The combination of bombesin and bethanechol caused a significant increase in acid secretion compared with bombesin alone and was associated with a marked inhibition of gastrin release both before and after vagotomy. Gastric acid secretion in response to bombesin was not significantly altered by vagotomy. We interpret these data to reflect the sensitivity of bombesin-stimulated gastrin release to gastric luminal pH, although they also suggest the existence of a cholinergic inhibitory mechanism for gastrin release.The data provided by this study are consistent with the hypothesis that bombesin might function as a paracrine neuromodulator of gastrin release. In view of its presence in the nerves and mucosa of human stomach and its potent actions on gastrin release and gastric acid secretion, bombesin may play a role in gastric physiology.     

Gastrin stimulates growth of colon cancer

Gastrin is trophic for normal gastric and colonic mucosa. We examined the potential trophic effects of chronic gastrin administration on the growth of mouse colon adenocarcinoma (MC-26). Thirty-three mice bearing transplantable MC-26 colon cancers were treated with varying doses (125, 250, or 500 micrograms/kg/day) of pentagastrin. Significant increases in tumor weight and DNA content were observed. Fundic mucosal weight and DNA content in these mice showed a dose-related trophic response. The weight of control fundic mucosa was 10 mg and rose to 20, 45, and 65 mg with increasing doses of gastrin. The DNA content of control fundic mucosa was 155 micrograms and rose to 220, 340, and 480 micrograms as the dose of gastrin was increased. Pentagastrin stimulated growth of the MC-26 colon cancer, but the threshold for gastrin-stimulated tumor growth was different from that of normal mucosal growth. The hyperplastic response of the fundic mucosa was increased by increasing gastrin doses; whereas, colon cancer hyperplasia was maximal at the lowest dose tested (125 micrograms/kg/day) and did not increase further with increasing doses of hormone. Mice bearing gastrin-stimulated tumors died at a significantly greater rate than did mice with untreated tumors (80% of control mice and none of the treated mice were alive at day 55). The effects of gastrin treatment on the growth of MC-26 colon cancer persist after treatment is discontinued; mice with tumors that were treated with gastrin for either 7 or 14 days and in which the treatment was stopped were all dead by 35 or 28 days, respectively, after the end of treatment.     

表皮生长因子对大鼠移植小肠黏膜结构的保护作用

目的探讨表皮生长因子(EGF)对大鼠移植小肠黏膜结构的保护作用。方法近交系Wistar(RT1k)大鼠行异位全小肠移植后第2天开始给予完全胃肠外营养(TPN)至第10天,对照组(10只)行常规TPN支持,EGF组(10只)行常规TPN支持的同时加用重组人(rh)EGF 200μg·kg~(-1)·d~(-1),观察移植小肠黏膜的形态学变化(参数：绒毛高度、绒毛宽度、隐窝深度、黏膜厚度及绒毛表面积)和肠上皮细胞超微结构变化及肠黏膜蛋白质和DNA含量改变。结果移植前,肠黏膜形态学参数变化两组间差异无统计学意义(P＞0．05)。移植并TPN后,对照组各项参数明显低于移植前(P＜0．05),而EGF组各参数与移植前比较变化不明显(P＞0．05)。EGF组移植肠绒毛高度为(284．47±31．58)μm,绒毛宽度为(99．37±11．57)μm,隐窝深度为(98．78±10．83)μm,黏膜厚度为(389．56±31．72)μm,绒毛表面积为(0．089±0．009)mm~2；明显高于对照组的(176．45±14．62)μm、(74．2±16．85)μm、(74．45±8．34)μm、(259．38±24．65)μm和(0．041±0．005)mm~2,P均＜0．01。EGF组移植肠黏膜蛋白质含量[(84．65±8．32)mg/g wet wt]也明显高于对照组的[(53．73±11．45)mg/g wet wt,(P＜0．05)]而与基准值[(92．64±10．52)mg/g wet wt]接近；DNA含量[(0．86±0．10)mg/g wet wt]也显著高于对照组[(0．51±0．06)mg/g wet wt,(P＜0．01)]。EGF组移植肠上皮细胞超微结构基本保持完好,而对照组则出现明显线粒体肿胀,嵴短小紊乱和微绒毛萎缩。结论EGF能较好保护大鼠移植小肠黏膜结构,维持移植肠上皮细胞超微结构的完整。