Maternal milk regulation of cell infiltration and interleukin 18 in the intestine of suckling rat pups.

BACKGROUND: and aims: In neonates the gastrointestinal tract is exposed to food and bacterial antigens at a time when the gut mucosal immune system has not developed the ability to induce oral tolerance. This increases the risk for an inappropriate immune response to oral antigens. Transforming growth factor beta (TGF-beta) is an immunoregulatory cytokine present in high concentration in maternal milk. Interleukin 18 (IL-18) is a cytokine that mediates early immune events, and drives T cell development. We assessed the role of TGF-beta in mediating mucosal immune development and specifically the effect on endogenous IL-18. METHODS: Rat pups were randomly assigned to the following groups, naturally suckled, maternal milk via cannula, and formula fed with and without physiological levels of TGF-beta2. A comparison of the immune response profile was then carried out. Cytokine profiles, dendritic cell, intestinal mast cell, and eosinophil numbers were assessed. RESULTS: We show that feeding formula deficient in TGF-beta2 resulted in accumulated IL-18 protein release from intestinal epithelial cells and IL-18 mRNA up regulation. A proinflammatory cytokine profile resulted in the gut, along with increased numbers of activated dendritic cells, eosinophils, and mast cells. Supplementation of the formula with TGF-beta2 down regulated the proinflammatory cytokine mRNA as well as the number of activated lymphocytes, eosinophils, mast cells, CD80, and CD86 positive dendritic cells. CONCLUSION: The data suggests an important role for maternal milk, in regulating immune responses after exposure to food antigens, which might otherwise induce deleterious immune responses in the intestine of suckling neonates. This regulation is potentially mediated by milk TGF-beta2, as well as endogenous IL-18.

Applicability of the Ussing chamber technique to permeability determinations in functionally distinct regions of the gastrointestinal tract in the rat.

BACKGROUND: Ussing chambers are commonly utilized for in vitro investigations into gastrointestinal permeability. However, their sensitivity and applicability to the small intestine have not been well characterized. METHODS: In order to investigate the effects of experimentally induced damage and the relative contribution of the mucosa and muscularis externa layers to transmural permeability in the small intestine, stomach and colon, normal rat intestinal tissues were mounted in Ussing chambers with or without removal of the muscularis externa or mucosal layers. Gastric tissues were damaged in vivo by exposure to indomethacin (100 mg kg(-1)), while ileal tissues were damaged in vitro by 0.4 M NaCl. Tissue damage was assessed histologically, while permeability parameters included conductance (G), potential difference (PD) and mucosal to serosal flux of horseradish peroxidase (HRP). RESULTS: Damage localized to the tissue edges (edge damage) accounted for 25%-50% of the exposed epithelial length in the ileum, while less than 20% of stomach and colon epithelium was affected by edge damage. In the damaged stomach, a 20% reduction in epithelialization was accompanied by increases in G (P < 0.001) and HRP (P < 0.01) flux. Removal of the muscularis externa did not affect mucosal viability in the undamaged ileum or colon although HRP flux in the colon, but not ileum, was increased (P < 0.01). Removal of the ileal mucosa produced increases in G and HRP flux, while PD was maintained. CONCLUSION: We conclude that the Ussing chamber technique is suitable for application to studies of gastric and colonic permeability in rats. However, owing to the prevalence and extent of edge damage in the small intestine, we would caution against the use of this technique for permeability studies in this region of the gastrointestinal tract in the rat.

Preferential intestinal delivery of long[Arg3] insulin-like growth factor (LR3IGF-I) over IGF-I in preweaning and adult rats.

During early postnatal development, the intestine is highly responsive to LR(3)IGF-I administration but refractory to IGF-I, in contrast to the mature intestine. Given that LR(3)IGF-I is an IGF-I analog that binds poorly to IGF binding proteins, the response of the intestine is likely to reflect regulation of IGF-I bioactivity by IGF binding proteins. This study measures the delivery of exogenous IGF-I peptides to the intestine in preweaning (d-19) and adult rats to determine whether a correlation exists with the potency advantage of LR(3)IGF-I in the intestine during postnatal development. IGF-I or LR(3)IGF-I (2.6 microg/kg) was spiked with corresponding (125)I-labeled peptide (10 x 10(6) cpm) and administered iv as a bolus (n = 5-6/group) with blood and tissue samples collected 5 and 10 min post injection. In both age groups, the levels of (125)I-IGF-I retained in the blood at both 5 and 10 min were higher than the levels of (125)I-LR(3)IGF-I, consistent with the slower clearance rate for the native peptide. In the gastrointestinal tract, the levels of (125)I-LR(3)IGF-I per gram of tissue were 37-50% higher than (125)I-IGF-I. Surprisingly, there was little difference in the relative delivery of LR(3)IGF-I to IGF-I to the intestine, across developmental age. Although bolus iv-injected LR(3)IGF-I was cleared more rapidly from the circulation than IGF-I and was subsequently delivered to the intestine in higher amounts than the native peptide, the ratio of LR(3)IGF-I to IGF-I in gut tissues was approximately 2:1 in both age groups. Hence, selective delivery to the gut is unlikely to explain the markedly higher potency of (125)I-LR(3)IGF-I in stimulating growth of the preweaning vs. adult intestine.

IGFBP mRNA expression in small intestine of rat during postnatal development.

In contrast to the adult gut, the immature intestine is refractory to subcutaneously infused insulin-like growth factor I (IGF-I). IGF binding protein (IGFBP) mRNA expression was characterized in intestinal tissues from 6-, 19-, and 90-day-old rats to determine if changes in local expression could account for this age-related change in IGF-I potency. For all age groups, IGFBP-3 to -6, but not IGFBP-1 or -2, were detected by Northern blot analysis. IGFBP-3, -4, and -5 were more intensely expressed in the 6-day-old rat intestine compared with weanling or adult tissue. In contrast, IGFBP-6 expression peaked at the time of weaning. In situ hybridization showed IGFBP-3 to -6 expression was confined to cells of the lamina propria and submucosa and also in the muscularis layer for IGFBP-5. Furthermore, the pattern of IGFBP-5 localization in the intestine changed with development. The findings indicate that the expression of IGFBP-3 to -6 is higher in the immature intestine compared with the adult intestine, suggesting locally produced IGFBPs may inhibit systemically derived IGF-I action in the intestine. Therefore, changes to local IGFBP expression may contribute to the varying response of the rat intestine to IGF-I peptides during postnatal development.

A milk growth factor extract reduces chemotherapeutic drug toxicity in epithelial cells in vitro.

Transforming growth factor-beta (TGF-beta) and insulin-like growth factor (IGF-I) can attenuate drug-induced cell death in epithelial cells. Since milk whey contains a mixture of these and other growth factors, we evaluated mitogenic bovine whey extract (MBWE) for protective activity against chemotherapy drug damage in cultured epithelial cells (mink lung, MvlLu). Etoposide and vinblastine reduced cell survival by up to 90%. This was attenuated by the addition of MBWE before and during drug exposure, but not following drug removal. MBWE was compared with individual growth factors known to be present in the mixture. IGF-I and platelet-derived growth factor were ineffective, whereas TGF-beta2 induced growth inhibition and cell survival, with a maximum response at 3 ng/ml. TGF-beta2 bioactivity was also demonstrated by showing that acidification of MBWE (A-MBWE), to activate TGF-beta2, enhanced its growth inhibitory and chemoprotective activities 60- and 12-fold, respectively. However, MBWE contained additional protective factors. When TGF-beta2 and the MBWE preparations were compared, on the basis of growth inhibition equivalents, MBWE protected cells against drug toxicity at concentrations an order of magnitude lower than with TGF-beta2 or A-MBWE. Immunoneutralization of the TGF-beta present in MBWE and A-MBWE eliminated all growth inhibitory activity but not all cell survival activity. We conclude that the MBWE preparations are cytoprotective against two chemotherapy drugs when added before and during drug exposure. TGF-beta contributes to this activity, but the extracts contain other factors that promote the survival of epithelial cells after chemotherapy drug exposure.

Role of hypothalamic-pituitary axis in EGF action on maturation of adrenal gland in fetal rhesus monkey in vivo.

We determined the route of action of epidermal growth factor (EGF) [intraperitoneal (IP) versus intraamniotic administration] on adrenal development and whether its effects are mediated via the fetal hypothalamic-pituitary axis in the fetal rhesus monkey in vivo. EGF (40 microg) was administered IP (n = 9) or intraamniotic (n = 6) at 121, 123, 125, and 127 d gestation (term, approximately 165 +/- 10 d gestation). In addition, a competitive corticotropin-releasing factor antagonist ([D-phenylalanine(12), Norleucine(21,38)] corticotropin-releasing factor(12-41) to block fetal pituitary ACTH secretion; 400 microg IP) and metyrapone (11beta-hydroxylase inhibitor to block adrenal cortisol synthesis; 15 mg IP and 15 mg intraamniotic) were administered, in combination with EGF (EGF+BLOCK; 40 microg IP; n = 4 fetuses). Control fetuses (n = 6) received saline injections in an equivalent volume. On gestational d 128, a hysterotomy was performed, and fetal adrenals were collected for morphometric analyses and immunocytochemical localization of 3beta -hydroxysteroid dehydrogenase (3betaHSD) and cytochrome P-450 11beta -hydroxylase/aldosynthase. Definitive zone (DZ) width and cortical width of 3betaHSD staining were significantly greater (p < 0.05) in the EGF IP-treated fetuses compared with controls and EGF+BLOCK. With EGF IP, 3betaHSD was increased in the DZ and induced extensively in the transitional zone of the fetal adrenal cortex, and cytochrome P-450 11beta-hydroxylase/aldosynthase immunoreactivity was induced to detectable levels in the DZ. The administration of EGF+BLOCK inhibited the expression of 3betaHSD in the transitional zone, but 3betaHSD expression was still increased in the DZ and cytochrome P-450 11beta-hydroxylase/aldosynthase immunoreactivity was induced in the DZ. EGF intraamniotic administration had no significant effect on the width of the DZ or cortical width of 3betaHSD staining compared with controls. These data suggest that EGF acts via the hypothalamic-pituitary axis to modulate adrenal cortical growth and functional maturation of the transitional zone (the putative zona fasciculata), whereas EGF can act independently of the hypothalamic-pituitary axis to stimulate functional maturation of the DZ (the putative zona glomerulosa).

Immune modulation in suckling rat pups by a growth factor extract derived from milk whey.

Oral tolerance to foreign enteral antigens is not fully developed in early neonatal life. Epidemiological evidence supports a role for maternal milk in the development of immune responses, including oral tolerance. Formula fed infants have an increased susceptibility to food allergy and the later development of autoimmune disease. This may relate to the lack in infant formula of growth factors found in maternal milk. Bovine milk contains proteins, growth factors and cytokines. Various studies have outlined the immune modulating potential of bovine milk-derived products. Fractionated whey extracts have therapeutic potential in disease states where there is an excessive inflammatory reaction, and disease preventive potential for infants who are not breast-fed. We have shown that daily oral administration of a growth factor-enriched fraction from milk whey to naturally suckling rat pups between days 4-9 postnatal can down-regulate immune activation to a specific orally administered food antigen, ovalbumin, assessed by lymphocyte proliferation. In addition, non-specific down-regulation in the intestine was observed as assessed by the expression of MHC I. Treatment of rat pups with whey extract at the time of oral sensitisation to ovalbumin also resulted in an increased secretion of TGF-beta into the culture supernatant of spleen cells incubated with specific antigen. TGF-beta is an immuno-down-regulatory cytokine involved in tolerance induction. Immune modulation by extracts derived from milk whey could be of potential benefit for formula-fed and pre-term infants in reducing susceptibility to inappropriate activation to food antigens.

Predisposition to colonic dysplasia is unaffected by continuous administration of insulin-like growth factor-I for twenty weeks in a rat model of chronic inflammatory bowel disease.

BACKGROUND: Insulin-like growth factor-I (IGF-I) is currently under evaluation for the treatment of a variety of chronic disease conditions. We investigated the safety of long-term IGF-I administration in a rat model of inflammatory bowel disease which predisposes to the development of dysplasia. METHODS: Chronic consumption of dextran sulphate sodium (DSS) by rats manifests a colitis with dysplastic features. Rats consumed 2% DSS for 4 weeks when pumps were implanted to deliver either vehicle or IGF-I for 15 or 20 weeks while rats continued to consume DSS. Features of colitis and dysplasia were assessed at kill. RESULTS: Compared to vehicle, 20 weeks IGF-I significantly increased body weight by 19% and total gut weight by 43%. Colonic crypt depth, proliferative compartment, labelling index, dysplasia, neoplasia and other indices of colitis were not significantly affected. CONCLUSIONS: Twenty weeks administration of IGF-I to rats induced growth of the intestine but did not affect the severity of experimentally-induced colitis or the incidence or progression of colonic dysplasia.

Increased expression of HGF and c-met in rat small intestine during recovery from methotrexate-induced mucositis.

Chemotherapy or radiotherapy often cause mucosal damage in the gut (gut mucositis) in cancer patients. As a step to investigate mechanisms underlying subsequent intestinal repair, we have examined the expression profiles of hepatocyte growth factor (HGF) and its receptor c-met, two molecules previously implicated in tissue repair, in comparison to the histopathological and proliferative changes in a rat model of methotrexate-induced small intestinal mucositis. Histological analysis of the intestinal specimens revealed crypt loss and villus atrophy with damage maximal on day 5 after methotrexate injection, and normalization of mucosal structure commencing on day 6. Crypt cell proliferation was decreased dramatically on day 3, normalized on day 4 and up-regulated on days 5 and 6. HGF and c-met protein/mRNA expression was up-regulated between days 4 and 7, with the mRNA co-localizing to the crypt and lower villus epithelium. Therefore, following methotrexate injection, a decrease in crypt cell proliferation preceded histological damage, and conversely, crypt cell hyperproliferation preceded mucosal regeneration. Up-regulation of HGF and c-met coincided with crypt hyperproliferation and mucosal recovery, suggesting a role for HGF in intestinal repair following acute injury. The crypt epithelial localization of HGF and c-met implies an autocrine or paracrine mechanism of HGF action.

Cloning of rat betacellulin and characterization of its expression in the gastrointestinal tract.

Betacellulin (BTC) is relatively a more recently discovered member of the EGF family of growth factors. As a prelude to its expression and functional studies in rat models of gut damage/repair, we have cloned rat BTC and examined its expression in the gastrointestinal tract. Rat BTC was found to be nearly identical to mouse betacellulin. A single 3 kb mRNA species was detected by Northern blotting, and ribonuclease protection analysis showed that its expression was ubiquitous but low in abundance throughout the gut. BTC mRNA and protein were found expressed in the gastric surface and upper pit epithelium as well as in some cells of gastric glands. In the jejunum, BTC mRNA and protein were localised to the crypt epithelium and in villous goblet cells. In the colon, BTC mRNA and protein were found produced in crypt and surface epithelium as well as in goblet cells. Taken together, the wide spread expression in the gut epithelium and in mucous cells in particular suggests an important and unique role for BTC in the gastrointestinal tract.

Localization of transforming growth factor-beta receptor types I, II, and III in the postnatal rat small intestine.

Transforming growth factor-beta2 (TGF-beta2) levels in rat milk are high in early lactation, whereas endogenous TGF-beta1 expression in the neonatal gut increases toward midweaning. Three types of transmembrane TGF-beta receptors have been identified in mammals. The receptor III (or betaglycan) binds and presents TGF-beta1 or beta2 to receptor II. Receptor I then interacts with receptor II, forming a signaling receptor complex, and propagates the signal. To determine whether TGF-beta receptor expression in the gut is also developmentally regulated, the present study assessed ontogeny of TGF-beta receptor expression in the postnatal rat small intestine. Jejunum and ileum tissues from rat pups at d 3, 10, 14, 21, and 28 of age were collected. Cryostat sections were stained with antibodies against TGF-bea receptors I, II, and III, and various cell markers by immunofluorescence. In both regions, receptor I staining was seen on apical and basolateral membranes of the villus and crypt epithelium at all ages, and staining on the apical membrane increased with age; receptor II was predominantly expressed in the crypt, and staining on the villi appeared after d 10; receptor III was distributed throughout the mucosa at early ages but diminished from the epithelium postweaning by d 28. T cells, B cells, and dendritic cells in the lamina propria expressed TGF-beta receptor III but lacked expression of receptor I and II. The pattern of TGF-beta receptor expression changes with age in a manner that may reflect the change in ligand from TGF-beta2 (milk-derived) to TGF-beta1 (endogenously produced).

Factors affecting the validity of the 13C-urea breath test for in vivo determination of Helicobacter pylori infection status in a mouse model.

BACKGROUND: The mouse model using a human isolate of Helicobacter pylori is being widely accepted as an economical means of studying gastric infection. A noninvasive monitoring method would be useful for repeated testing to establish the time course of infection and the efficacy of treatments. In this study, we describe factors that affected interpretation of 13C urea breath test results for the assessment of H. pylori infection status in this model. MATERIALS AND METHODS: Female C57B1/6 mice that underwent gavage with H. pylori or saline were breath-tested using 50 micrograms of 13C urea at intervals up to 2 months after inoculation. The generation of 13CO2 (excess delta 13CO2) by infected mice was compared to that of uninfected controls. The effects of diet, fasting, and coprophagy on the reliability of the 13C urea breath test were quantitated. RESULTS: Both commercial and synthetic mouse diets exhibited marked in vitro urease activity. A minimum fasting time of 13 hours prior to breath testing significantly reduced this dietary contribution to excess delta 13CO2 values. The coprophagic tendency of the mice caused spuriously high excess delta 13CO2 counts in the breath of both control and H. pylori-infected mice. CONCLUSIONS: Although the dietary contribution to spuriously high values of excess delta 13CO2 in mice breath-tested for H. pylori infection was reduced by fasting, the high nonspecific urease activity generated by coprophagy severely limited the reliability of the urea breath test in the assessment of H. pylori infection status.

Temporal changes in TFF3 expression and jejunal morphology during methotrexate-induced damage and repair.

Trefoil factor TFF3 has been implicated in intestinal protection and repair. This study investigated the spatiotemporal relationship between TFF3 expression and morphological changes during intestinal damage and repair in a rat model of methotrexate-induced small intestinal mucositis. Intestinal tissues from rats with mucositis were collected daily for 10 days. Mucosal damage was characterized by an initial decrease in cell proliferation resulting in crypt loss, villus atrophy, and depletion of goblet cells, followed by hyperproliferation that lead to crypt and villus regeneration and mucous cell repopulation. TFF3 mRNA levels increased marginally during histological damage, and the cell population expressing TFF3 mRNA expanded from the usual goblet cells to include some nongoblet epithelial cells before goblet cell repopulation. TFF3 peptide, however, was depleted during histological damage and normalized during repair, mirroring the disappearance and repopulation of goblet cells. Although there is no temporal relationship between TFF3 levels and crypt hyperproliferation, confirming the nonmitogenic nature of TFF3, the coincidental normalization of TFF3 peptide with repopulation of goblet cells and mucin production after proliferative overshoot suggests that TFF3 may play a role in the remodeling phase of repair.

Site-specific changes in transforming growth factor-alpha and -beta1 expression in colonic mucosa of adolescents with inflammatory bowel disease.

BACKGROUND: Transforming growth factors (TGF-alpha and -beta1) play important roles in intestinal growth and repair. To further understand their roles in the pathophysiology of inflammatory bowel disease (IBD), this study examined changes in their expression in colonic mucosa of adolescents with IBD. METHODS: TGF-alpha and -beta1 expression was examined by immunohistochemistry and in situ hybridization. RESULTS: TGF-gamma immunostaining and mRNA labelling appeared unchanged in the epithelium of specimens with active IBD. Similarly, expression of epithelial TGF-beta1 remained unaltered in IBD. However, the numbers of TGF-beta1-positive cells, including T cells, neutrophils, and monocytes/macrophages, in the lamina propria increased during disease activity. CONCLUSIONS: Adolescent IBD is characterized by a normal expression of TGF-alpha and -beta1 peptide and mRNA in the colonic epithelium but by an increased density of TGF-beta1-positive immune cells in the lamina propria during disease activity, suggesting a role in inflammatory modulation in IBD.

Specificity of the localization of transforming growth factor-alpha immunoreactivity in colon mucosa.

Transforming growth factor-alpha (TGF-alpha) plays an important role in gastrointestinal pathophysiology. However, the exact location of its expression in the intestine is still controversial. This study systematically compared the localization of TGF-alpha immunoreactivity in frozen or fixed human colon using three different antibodies and examined specificity of antibodies by using tissues from TGF-alpha knockout mice and by Western blotting. Consistent with the mRNA distribution revealed by in situ hybridization, a similar staining pattern was obtained in frozen sections by all three antibodies, localizing on the surface and along the crypt epithelium. In paraffin sections, although the polyclonal antibodies (raised against recombinant human or rat TGF-alpha) gave minimal staining, the monoclonal antibody (against C-terminal peptide of human TGF-alpha) still gave intense staining on the surface and upper crypt epithelium. By using specimens from TGF-alpha knockout mice in immunostaining and Western blotting, the polyclonal antibodies were shown to be specific. In contrast, specificity of the monoclonal antibody was in doubt in rodent tissues because it gave similar detection between wild-type and knockout mice in both analyses, indicating its crossreaction to non-TGF-alpha molecules. In conclusion, frozen sections and antibodies raised from recombinant TGF-alpha should be used for TGF-alpha immunohistochemistry in the colon.

Systemically but not orogastrically delivered insulin-like growth factor (IGF)-I and long [Arg3]IGF-I stimulates intestinal disaccharidase activity in two age groups of suckling rats.

The growth mitogenic properties of IGF-I on tissues of the gastrointestinal tract are well established; however, IGF effects on enzyme maturation are less clear. To test whether IGF-I peptide administration stimulates disaccharidase activity, we administered IGF-I or the more potent analog, long [Arg3]IGF-I, at doses ranging between 2 and 12.5 micrograms g-1 d-1 to suckling Wistar rat pups by either continuous s.c. infusion or by three times daily orogastric gavage. Peptides were administered for approximately 6 d starting on d 6 or 12 postpartum with six to nine rats per group. The results of the study demonstrated that systemically but not orally administered IGF-I stimulated duodenal wet tissue weight (up to 85%) and length (up to 36%). Enzyme maturation was assessed by measuring disaccharidase biochemically in tissue homogenates. Enzyme activity was also localized histocytochemically in cryostat-sectioned duodenum. After systemic infusion of IGF-I, intestinal lactase activity increased proportional to mucosal mass in both age groups. Systemic infusion of the more potent analog, long [Arg3]IGF-I, precociously induced the decline in lactase activity and accelerated the appearance of sucrase activity in the rat pups infused during the later suckling period. These findings indicate that enzyme maturation can be accelerated by systemically derived IGF-I peptides. Orogastrically IGF-I peptides, delivered at pharmacologic doses, did not affect intestinal growth or digestive enzyme maturation in suckling rat pups treated between 6 and 18 d postpartum, indicating the efficacy of IGF-I peptides may depend on the route of delivery and postnatal age of the recipient.

Transforming growth factor-beta levels in maternal milk and expression in postnatal rat duodenum and ileum.

After birth, the gastrointestinal tract of the neonate is exposed to food and bacterial and environmental antigens. Maternal milk components may play a role in regulation of mucosal immune activity to luminal antigens. In this study we determine the ontogeny of transforming growth factor (TGF)-beta1-producing cells in the rat pup small intestine and assess maternal milk concentrations of TGF-beta. Intestinal tissue samples of duodenum and ileum were collected, processed, and stained for TGF-beta1, and in situ hybridization for TGF-beta1 mRNA was also performed on the duodenum. TGF-beta levels in milk were assayed by ELISA. TGF-beta2 levels in milk were high at d 6, and declined thereafter at d 10 and 19. TGF-beta1 was not detected. In contrast, the cell number and intensity of staining of TGF-beta1 peptide in the small intestine was low in 3- and 10-d-old rats and increased markedly by 19 d of life. In the duodenum mRNA levels mirrored this trend. TGF-beta1 expression in the lamina propria was absent before d 19, and increased progressively over time. Maternal milk TGF-beta2 levels are high in early milk and decrease during the weaning period. In contrast, endogenous TGF-beta production in the small intestine increases during the weaning period.

Insulin-like growth factor-I (IGF-I) stimulates regrowth of the damaged intestine in rats, when administered following, but not concurrent with, methotrexate.

BACKGROUND: We tested the ability of insulin-like growth factor-I (IGF-I) to reduce damage to the intestinal mucosa (mucositis) in rats injected with methotrexate. IGF-I was infused concurrent with methotrexate administration and compared to IGF-I administered following the withdrawal of methotrexate. METHODS: Rats were injected with methotrexate at the start of days 1, 2 and 3. IGF-I was infused for 5 days, commencing at the start of day 1 [concurrent administration] or at the start of day 4 [post-methotrexate administration]. RESULTS: IGF-I administered coincident with methotrexate failed to restore mucosal integrity to the damaged small intestine. IGF-I administered post methotrexate stimulated regrowth of the damaged intestine, particularly the ileum, with 22%, 32% and 29% increases in small intestinal weight, ileal villus height and ileal crypt depth respectively. CONCLUSIONS: Following intestinal damage of methotrexate, IGF-I primarily induced growth of the distal small intestine. The ineffectiveness of concurrently administered IGF-I may have represented an IGF-I induced recruitment of proliferating epithelial cells to the anti-proliferative effects of methotrexate.

Insulin-like growth factor-I partially attenuates colonic damage in rats with experimental colitis induced by oral dextran sulphate sodium.

BACKGROUND: Administration of insulin-like growth factor-I (IGF-I) results in selective growth of the gastrointestinal tract. We investigated the effects of IGF-I on the colonic damage induced by oral dextran sulphate sodium (DSS) in the rat. METHODS: Rats consumed 2% DSS in the drinking water for 10 days to induce colitis. Pumps were implanted on day 3 to deliver IGF-I for 7 days. Colonic histopathology and immunolocalization of transforming growth factor-beta1 (TGF-beta1) were assessed on day 10. RESULTS: Compared with the colon of vehicle-treated rats consuming DSS, IGF-I increased the numbers of goblet cells by 76%, reduced the proportion of lamina propria cells expressing TGF-beta1, and reduced the thickness of submucosal and muscularis externa layers by 26% and 20%, respectively. CONCLUSIONS: We conclude that the effects of IGF-I treatment on the colonic epithelium may be mediated directly, whereas the reduced inflammation in the mucosa and submucosa may be mediated by a mechanism other than up-regulation of TGF-beta1-mediated immunosuppression.

Systemic infusion of IGF-I or LR(3)IGF-I stimulates visceral organ growth and proliferation of gut tissues in suckling rats.

This study describes developmental changes in gastrointestinal response to insulin-like growth factor I (IGF-I) peptide administration. Neonatal rats were infused with IGF-I or long [Arg3]IGF-I (LR(3)IGF-I) for 6.5 days starting on day 6 or 12 postpartum. Peptides were delivered by mini osmotic pumps at 0, 2, 5, or 12.5 microg x g(-1) x day(-1). IGF-I infusion increased plasma IGF-I levels in both age groups but stimulated body weight gain only in the older rats. Infusion of LR(3)IGF-I did not change plasma IGF-I levels. Both peptides enhanced expression of IGF-binding proteins (IGFBP) 1 and 2 and induced IGFBP-3 in the older rats. For both age groups, weights of the kidney and spleen increased by up to 85 and 76%, respectively. IGF-I treatment also stimulated gut weight and length by up to 60 and 32%, respectively, but dose dependency was observed only in the older rats. LR(3)IGF-I was more potent for all growth parameters in both age groups. Histological observations included thickening of the mucosa and muscularis externa after infusion of IGF-I peptides. Thymidine labeling in the younger rats indicated that proliferative activity increased proportionately with crypt cell growth. These results show that IGF-I peptides selectively stimulate growth of gastrointestinal tissues in suckling rats and that the proximal gut was the most peptide-responsive region.