Intestinal epithelial differentiation: new insights from chimeric and transgenic mice

Ventromedial hypothalamic lesions induce the proliferation of gastrointestinal mucosal cells in the rat

We reported recently that ventromedial hypothalamic (VMH) lesions increased the synthesis of DNA in the gastrointestinal tract of rats by the firing of vagus nerve activity, mainly via cholinergic receptor mechanisms. In the present study, we examined whether the mitotic response is due to proliferation of a cell population--mucosal, submucosal, or muscular layer. A monoclonal antibody to proliferating cell nuclear antigen (PCNA) has previously been shown to be capable of identifying proliferating cells. Samples of formalin-fixed gastrointestinal epithelium, taken before and after VMH lesioning, were immunostained with the anti-PCNA monoclonal antibody, and the labeling index (LI) was determined. To discriminate the effect of hyperphagia in VMH lesioned rats, we utilized the method of pair-feeding. Cell proliferation was examined by the PCNA-labeling technique 0, 1, 3, and 7 days after VMH lesioning. The increase in proliferation was confined to cells in the mucosa and did not involve the muscularis and serosa. Studies in control animals showed that the LI was higher in the small intestine than in other gut segments, and higher in the large intestine than in the stomach. The mean PCNA-LI began to increase at 1 day and continued to increase for 3 days, then decreased 7 days following the lesioning. Results indicate that the gastrointestinal mucosa is in a state of hyperproliferation after VMH lesioning.

Expression and glycosylation of the filamentous brush border glycocalyx (FBBG) during rabbit enterocyte differentiation along the crypt-villus axis

The filamentous brush border glycocalyx forming the ‘enteric surface coat’ of the intestinal epithelium is composed in rabbits of a 400 kDa mucin-type glycoprotein, which was purified using the 3A4 monoclonal antibody. This monoclonal antibody recognizes a filamentous brush border glycocalyx-specific glycosidic structure containing an O-acetylated sialic acid, which is absent from all the other glycoproteins in the epithelium, with the exception of certain goblet cell mucins. Here we establish that only 50% of the rabbits tested synthesized this glycosidic structure. Upon immunolabeling surface epithelia and sections of jejunum from these rabbits, the carbohydrate epitope recognized by the 3A4 mAb was found to be present on the filamentous brush border glycocalyx of a variable number of enterocytes, which were patchily distributed over all the villi. This heterogeneous expression of 3A4 antigenicity, which was also observed in the crypts, suggests the existence of differences between the patterns of differentiation of enterocytes, which results in the expression of different pools of glycosyltransferases and/or acetyl transferases. In mature enterocytes, the 3A4 determinants were present only on the filamentous brush border glycocalyx, which is anchored solely to the membrane microdomain at the tip of brush border microvilli. However, expression of 3A4 antigenicity begins in the median third of crypts, in enterocytes with a short, thin brush border devoid of apical filamentous brush border glycocalyx. Here the 3A4 epitopes were present over the whole brush border membrane.(ABSTRACT TRUNCATED AT 250 WORDS)

Cell polarity of the insulin-like growth factor system in human intestinal epithelial cells. Unique apical sorting of insulin-like growth factor binding protein-6 in differentiated human colon cancer cells

In this study, we have used enterocyte-like differentiated HT29-D4 human colonic carcinoma cells cultured in a glucose-free medium (HT29-D4-GAL cells) on semi-permeable supports in order to investigate the polarity of the insulin-like growth factor (IGF) system. We report that these cells secrete endogenous IGF-II predominantly (66%) from the basolateral cell surface where type I IGF receptors are almost all (> 96%) localized. HT29-D4-GAL cells also secrete IGF-binding protein (IGFBP) -2, -4, and -6 as evidenced by Western ligand and immunoblot analyses of conditioned medium. IGFBP-2 and IGFBP-4 are secreted primarily into the basolateral side (71 and 87%, respectively), whereas IGFBP-6 is targeted to the apical surface (76%) as a possible consequence of an active sorting. Finally, HT29-D4-GAL cells are found to display responses to IGF-II added to the basolateral but not the apical membrane side in terms of intracellular tyrosine phosphorylation and long-term stimulation of amino acid uptake. This study indicates (a) that IGF-II is potentially capable of autocrine regulation on the basolateral side of HT29-D4-GAL cell, and (b) that IGFBP-6 has a unique pattern of secretory polarity. It supports the concept that a differential sorting of the various forms of IGFBPs might play a modulatory role in the maintenance of a functional polarity in the differentiated HT29-D4-GAL cells.

Mitochondrial gene expression in small intestinal epithelial cells

Most mitochondrial genes are transcribed as a single large transcript from the heavy strand of mitochondrial DNA, and are subsequently processed into the proximal mitochondrial (mt) 12 S and 16 S rRNAs, and the more distal tRNAs and mRNAs. We have shown that in intestinal epithelial biopsies the steady-state levels of mt 12 S and 16 S rRNA are an order of magnitude greater than those of mt mRNAs. Fractionation of rat small intestinal epithelial cells on the basis of their maturity has shown that the greatest ratios of 12 S mt rRNA/cytochrome b mt mRNA or 12 S mt rRNA/cytochrome oxidase I mt mRNA are found in the surface mature enterocytes, with a progressive decrease towards the crypt immature enteroblasts. Cytochrome b and cytochrome oxidase I mt mRNA levels are relatively uniform along the crypt-villus axis, but fractionation experiments showed increased levels in the crypt base. The levels of human mitochondrial transcription factor A are also greater in immature crypt enteroblasts compared with mature villus enterocytes. These results show that the relative levels of mt rRNA and mRNA are distinctly regulated in intestinal epithelial cells according to the crypt-villus position and differentiation status of the cells, and that there are higher mt mRNA and mt TFA levels in the crypts, consistent with increased transcriptional activity during mitochondrial biogenesis in the immature enteroblasts.

Lectins and also bacteria modify the glycosylation of gut surface receptors in the rat

Oral exposure to lectins or the presence or absence of bacteria in the rat small intestine were shown by histological methods using anti-lectin antibodies or digoxigenin-labelled lectins to have major effects on the state of glycosylation of lumenal membranes and cytoplasmic glycoconjugates of epithelial cells. Taken together with the dramatic effects of exposure to lectins on gut function, metabolism and bacterial ecology, this can be used as a basis for new perspectives of biomedical manipulations to improve health.

Factors controlling growth, motility, and morphogenesis of normal and malignant epithelial cells

Factors that control epithelial growth, motility, and morphogenesis play important roles in malignancy and in normal development. Here we discuss the molecular nature and the function of two types of molecules that control the development and maintenance of epithelia: Components that regulate epithelial cell adhesion; and soluble factors and their receptors that regulate growth, motility, differentiation, and morphogenesis. In development, the establishment of epithelial cell characteristics and organization is crucially dependent on cell adhesion and the formation of functional adherens junctions. The integrity of adherens junctions is frequently disturbed late in tumor progression, and the resulting loss of epithelial characteristics correlates with the metastatic potential of carcinoma cells. Various soluble factors that induce epithelial growth, motility, or differentiation in cell culture, function via tyrosine kinase receptors. We concentrate here on receptors that are expressed exclusively or predominantly on epithelia, and on ligands that are derived from the mesenchyme. In development, these receptors and their ligands function in mesenchymal-epithelial interactions, which are known to govern growth, morphogenesis, and differentiation of epithelia. During tumor development, mutations or overexpression of the receptors are frequently observed; these alterations contribute to the development and progression of carcinomas.

Intestinal brush border glycohydrolases: structure, function, and development

The hydrolytic enzymes of the intestinal brush border membrane are essential for the degradation of nutrients to absorbable units. Particularly, the brush border glycohydrolases are responsible for the degradation of di- and oligosaccharides into monosaccharides, and are thus crucial for the energy-intake of humans and other mammals. This review will critically discuss all that is known in the literature about intestinal brush border glycohydrolases. First, we will assess the importance of these enzymes in degradation of dietary carbohydrates. Then, we will closely examine the relevant features of the intestinal epithelium which harbors these glycohydrolases. Each of the glycohydrolytic brush border enzymes will be reviewed with respect to structure, biosynthesis, substrate specificity, hydrolytic mechanism, gene regulation and developmental expression. Finally, intestinal disorders will be discussed that affect the expression of the brush border glycohydrolases. The clinical consequences of these enzyme deficiency disorders will be discussed. Concomitantly, these disorders may provide us with important details regarding the functions and gene expression of these enzymes under specific (pathogenic) circumstances.

Effect of ethanol on human colon carcinoma CaCo-2 and HT-29 cell lines during the maturation process

The aim of the study was to ascertain whether the exposure to ethanol of human colon carcinoma CaCo-2 and HT-29 cell lines affects the differentiation process. As an index of enterocytic differentiation, the expression of sucrase, alkaline phosphatase, alpha 2,6-sialyltransferase toward the N-acetyllactosaminic sequence, and beta 1,4-N-acetylgalactosaminyltransferase (beta 1,4GalNAc-transferase) was examined. The latter enzyme is responsible for the biosynthesis of Sda carbohydrate histo-blood antigen, which mainly occurs in human colonic cells; its expression in CaCo-2 cells depends strictly on the enterocytic differentiation. The addition of ethanol in the culture medium resulted in a significant increment of sucrase and alpha 2,6-sialyltransferase activities in both cell lines, as well as the beta 1,4GalNAc-transferase activity in CaCo-2 cells and alkaline phosphatase activity in HT-29 cells. The increment was dose-dependent in the range between 50 and 200 mM ethanol and evident after 2 days of exposure in both cell systems. These results support the notion that, as occurs for cell lines of different origin, the ethanol in vitro positively affects the differentiation of intestinal cells, namely along the enterocytic lineage. The putative mechanism by which ethanol interferes with the maturation process of colonic cells is discussed.

A homeodomain protein related to caudal regulates intestine-specific gene transcription

The continually renewing epithelium of the intestinal tract arises from the visceral endoderm by a series of complex developmental transitions. The mechanisms that establish and maintain the processes of cellular renewal, cell lineage allocation, and tissue restriction and spatial assignment of gene expression in this epithelium are unknown. An understanding of the regulation of intestine-specific gene regulation may provide information on the molecular mechanisms that direct these processes. In this regard, we show that intestine-specific transcription of sucrase-isomaltase, a gene that is expressed exclusively in differentiated enterocytes, is dependent on binding of a tissue-specific homeodomain protein (mouse Cdx-2) to an evolutionarily conserved promoter element in the sucrase-isomaltase gene. This protein is a member of the caudal family of homeodomain genes which appear to function in early developmental events in Drosophila melanogaster, during gastrulation in many species, and in intestinal endoderm. Unique for this homeodomain gene family, we show that mouse Cdx-2 binds as a dimer to its regulatory element and that dimerization in vitro is dependent on redox potential. These characteristics of the interaction of Cdx-2 with its regulatory element provide for a number of potential mechanisms for transcriptional regulation. Taken together, these findings suggest that members of the Cdx gene family play a fundamental role both in the establishment of the intestinal phenotype during development and in maintenance of this phenotype via transcriptional activation of differentiated intestinal genes.

Keratinocyte growth factor induces proliferation of hepatocytes and epithelial cells throughout the rat gastrointestinal tract

Keratinocyte growth factor (KGF), a member of the fibroblast growth factor (FGF) family, was identified as a specific keratinocyte mitogen after isolation from a lung fibroblast line. Recently, recombinant (r)KGF was found to influence proliferation and differentiation patterns of multiple epithelial cell lineages within skin, lung, and the reproductive tract. In the present study, we designed experiments to identify additional target tissues, and focused on the rat gastrointestinal (GI) system, since a putative receptor, K-sam, was originally identified in a gastric carcinoma. Expression of KGF receptor and KGF mRNA was detected within the entire GI tract, suggesting the gut both synthesized and responded to KGF. Therefore, rKGF was administered to adult rats and was found to induce markedly increased proliferation of epithelial cells from the foregut to the colon, and of hepatocytes, one day after systemic treatment. Daily treatment resulted in the marked selective induction of mucin-producing cell lineages throughout the GI tract in a dose-dependent fashion. Other cell lineages were either unaffected (e.g., Paneth cells), or relatively decreased (e.g., parietal cells, enterocytes) in rKGF-treated rats. The direct effect of rKGF was confirmed by demonstrating markedly increased carcinoembryonic antigen production in a human colon carcinoma cell line, LIM1899. Serum levels of albumin were specifically and significantly elevated after daily treatment. These results demonstrate rKGF can induce epithelial cell activation throughout the GI tract and liver. Further, endogenous KGF may be a normal paracrine mediator of growth within the gut.

A homeodomain protein related to caudal regulates intestine-specific gene transcription

The continually renewing epithelium of the intestinal tract arises from the visceral endoderm by a series of complex developmental transitions. The mechanisms that establish and maintain the processes of cellular renewal, cell lineage allocation, and tissue restriction and spatial assignment of gene expression in this epithelium are unknown. An understanding of the regulation of intestine-specific gene regulation may provide information on the molecular mechanisms that direct these processes. In this regard, we show that intestine-specific transcription of sucrase-isomaltase, a gene that is expressed exclusively in differentiated enterocytes, is dependent on binding of a tissue-specific homeodomain protein (mouse Cdx-2) to an evolutionarily conserved promoter element in the sucrase-isomaltase gene. This protein is a member of the caudal family of homeodomain genes which appear to function in early developmental events in Drosophila melanogaster, during gastrulation in many species, and in intestinal endoderm. Unique for this homeodomain gene family, we show that mouse Cdx-2 binds as a dimer to its regulatory element and that dimerization in vitro is dependent on redox potential. These characteristics of the interaction of Cdx-2 with its regulatory element provide for a number of potential mechanisms for transcriptional regulation. Taken together, these findings suggest that members of the Cdx gene family play a fundamental role both in the establishment of the intestinal phenotype during development and in maintenance of this phenotype via transcriptional activation of differentiated intestinal genes.

The cis-element CE-LPH1 of the rat intestinal lactase gene promoter interacts in vitro with several nuclear factors present in endodermal tissues

We have shown by electrophoretic mobility shift assays that the nucleotide sequence CE-LPH1, centred at position -49 with respect to the transcription start site of the rat gene encoding intestinal lactase-phlorizin hydrolase, interacts in vitro with nuclear proteins present in the jejunum of suckling animals. Proteins binding to this element were also found in organs of endodermal origin that do not (or no longer) express lactase-phlorizin hydrolase, i.e. the colon, lung and the liver, but not in the brain. However, a DNA-protein interaction was hardly detected with nuclear extracts prepared from adult tissues, although typical factors binding to the Sp1 binding site were detected at the adult stage as in the sucklings. Southwestern blotting experiments conducted with nuclear extracts prepared from the tissues of suckling rats indicated that CE-LPH1 interacts with several factors in the jejunum, colon, lung and the liver. Some of these DNA-binding proteins are specifically expressed in the jejunum or in the liver, whereas others seem to be shared with the colon and the lung. Hence, the cis-element CE-LPH1 located in close vicinity to the pseudo-TATA-box of the intestinal lactase-phlorizin hydrolase gene promoter interacts in vitro with a family of nuclear proteins which may represent markers of the endodermal lineage predominantly expressed prior to weaning.

Subtractive hybridization cloning of novel genes differentially expressed during intestinal development

Intestinal genes whose expression is regulated during development and differentiation were identified and cloned from a rat villi cDNA library using a subtracted cDNA probe. The isolated clones are transcribed in the fully differentiated intestinal epithelium 21 days after birth and absent or poorly expressed in the fetal gut at 15 days of gestation. Two of the DRI (differentially-expressed in rat intestine) genes are novel, while the others encode the microvillar protein ezrin and intracellular carrier proteins for retinol and fatty acids. Expression of the newly isolated DRI27 and DRI42 clones parallels epithelial differentiation during development and it is more pronounced in the distal portions of the small intestine. In situ hybridization experiments indicate that the DRI mRNAs are expressed in the differentiated cell types of the gut epithelium. Moreover, the expression of DRI27 and DRI42 is strongly related to the stage of epithelial differentiation during gut development. This relationship holds true also for the expression of DRI42 in other tissues. These clones will be a valuable tool to identify regulatory sequences and factors responsible for confining gene expression to the differentiated epithelial cell types in mammalian small intestine.

Polymorphonuclear leukocyte transmigration promotes invasion of colonic epithelial monolayer by Shigella flexneri

In vivo and in vitro, Shigella flexneri, an invasive pathogen of the human colon, cannot invade epithelial cells through their apical pole. To identify ways by which it may reach the cellular basolateral domain in order to invade, we have established an assay using the human colonic T-84 cell line grown on permeable filters. Human PMN were added to the basal pole of the cells, and invasive shigellae to their apical pole. Apical addition of bacteria induced strong transmigration of PMN, reaching a maximum after 1 h of incubation. Transmigration depended on a receptor-specific interaction since it was inhibited by an anti-CD18 monoclonal antibody that antagonizes binding of MAC1 on its putative epithelial cell receptor. After 1 h of PMN transmigration, shigellae started to invade the monolayer in areas of intense PMN infiltration. Invasion was clearly dependant on PMN transmigration since it was also inhibited by addition of an anti-CD18 monoclonal antibody. This in vitro assay is consistent with in vivo observations showing early PMN efflux within colonic crypts in the course of shigellosis. PMN transmigration may therefore allow invasion in the colon by opening the paracellular pathway to invasive microorganisms.

Expression and modulation of CD44 variant isoforms in humans

CD44 is a ubiquitous surface molecule that exists as a number of isoforms, generated by alternative splicing of 10 "variant" exons. Little is known about the expression and function of the variant isoforms, except that certain isoforms may play a role in cancer metastasis. We produced mAbs against CD44 variant regions encoded by exons 4v, 6v, and 9v, by immunizing mice with a fusion protein spanning variant exons 3v to 10v. A comprehensive analysis of human tissues revealed that CD44 variant isoforms were expressed widely throughout the body, principally by epithelial cells. However there was differential expression of CD44 variant exons by different epithelia. Most epithelia expressed exon 9v, but much fewer expressed 6v or 4v. The regions of epithelia that expressed the highest levels of the variant isoforms were the generative cells, particularly the basal cells of stratified squamous epithelium, and of glandular epithelium. CD44 variant isoforms were also expressed differentially by leukocytes, with CD44-9v expressed at very low levels and CD44-6v and 4v virtually absent. However, CD44-9v and CD44-6v were the main variants that were transiently upregulated on T cells after mitogenic stimulation and on myelomonocytic cell lines by TNF alpha and IFN gamma treatment. Some epithelial cell lines could preferentially upregulate CD44-6v upon IFN gamma incubation. These results show that CD44 variant isoforms are expressed much more widely than first appreciated, and that expression of the variant isoforms on some cell types can be modulated by particular cytokines.

Humoral regulation of intestinal adaptation

After the loss of small bowel through disease or surgery the residual bowel adapts by increasing its functional capacity. This process of adaptation involves dilatation, hypertrophy and mucosal hyperplasia, particularly distal to the area of bowel loss or disease. The response of the residual bowel is mediated by a complex interplay of factors including luminal nutrition, pancreaticobiliary secretions, luminal or local growth factors and also humoral or endocrine factors. The experimental model commonly used to characterize the adaptive response, massive small bowel resection (MSBR), involves 80% resection of the small bowel in the rat. Of the various putative humoral factors, most work has focused on the products of the ileal L cells: enteroglucagon and peptide YY. Plasma levels of both hormones are increased after MSBR and indeed their mRNA levels are also increased as a result of an increase in the amount of message per L cell. Whilst PYY probably serves as an 'ileal brake' to slow the movement of the luminal contents and hence increase their mucosal contact time, the role of the enteroglucagon is unresolved. The molecular cloning of the proglucagon gene has revealed, firstly, that there are a number of biologically active peptides which derive from the propeptide and, secondly, that tissue-specific differential processing occurs. Most studies do not clearly define which of these products of proglucagon is being measured and is termed as glucagon-like or enteroglucagon immunoreactivity. The insulin-like growth factors (IGF) have a potent mitogenic action on the bowel. Their role after MSBR is likely to be largely paracrine. Though IGF-I mRNA levels do not increase after MSBR, the precipitous and early fall in ileal IGF-binding protein-3 (IGFBP-3) mRNA levels suggests a fall in IGFBP-3 levels may increase local IGF-I bioactivity. Polyamine synthesis is a critical component of the adaptive response, although the stimulus to their dramatic increase in synthesis after MSBR remains to be elucidated. Other humoral factors such as cholecystokinin, neurotensin and bombesin probably have minor indirect roles in the adaptive response. Components of the epidermal growth factor/transforming growth factor alpha response pathway family of growth factors may be involved as paracrine regulators. There is thus strong evidence that humoral factors play an important role in intestinal adaptation; characterization of the nature of the humoral factors and their relationship with other influences such as luminal nutrition and pancreatic biliary secretions may facilitate the development of new therapeutic strategies for the short bowel syndromes.

Multiple levels of control of the stage- and region-specific expression of rat intestinal lactase

To elucidate the mechanisms leading to the functional regionalization of the digestive epithelium, lactase expression was analyzed at the protein, mRNA and gene levels, along the intestinal tract at various stages of the rat postnatal development. In the colon of neonates, the transient expression of mRNA and enzyme correlated well with gene transcription. In contrast to the colon, complex patterns were observed in the small intestine. In suckling animals, the mRNA was present at a high level despite the progressive decline of enzyme activity. Crypts were devoid of mRNA and the transcript mainly accumulated in the lower half of the villi. From weaning onwards, a functional regionalization of the epithelium was defined, characterized by the modification of the longitudinal distribution of lactase mRNA. Indeed the transcript remained abundant in the distal duodenum, jejunum and proximal ileum, but decreased in the proximal duodenum and became virtually absent in the distal ileum. Concomitantly, the mRNA and enzyme distribution along the villi changed in the different segments of the small intestine. Patterns similar to those described in sucklings were retained in the adult jejunum. In contrast, mRNA and enzyme could no longer be detected in the distal ileum, while mosaicism appeared in the proximal duodenum. In vitro transcription assays carried out with isolated nuclei suggested that the decay of lactase mRNA in the proximal duodenum at weaning was associated with a decreasing rate of transcription of the gene. However active gene transcription was retained in the nuclei of the adult jejunum and ileum. The loss of mRNA in the adult distal ileum despite the maintenance of active transcription did not result from an intragenic block of pre-RNA elongation, as shown by transcription assays carried out at various positions of the lactase gene. In addition, we looked for the ontogenic decline of lactase protein despite the maintenance of a high amount of mRNA in the jejunum, and it became evident that the fraction of mRNA present in polysomes was constant with age. Taken together, these data indicate that lactase constitutes an unusual marker of development and of functional regionalization of the intestinal tract which exhibits a complex time- and space-specific pattern of gene, mRNA, and protein expression. The distinct patterns occurring in the duodenum, jejunum, ileum, and the colon of pre- and postweaned rats depend on a combination of transcriptional, posttranscriptional, and posttranslational levels of regulation. and are associated with a different mRNA distribution along villi in each intestinal segment.

Extent and role of urogastrone in the adaptive response of rat intestine to patching of a surgical defect in the ileum

Crypt cell production rate, morphometric changes and uptake of radiolabeled human urogastrone (125I rhUG) were evaluated in intestinal tissues of the rat at 2, 4, 8, and 12 days following patching of a surgical defect in the ileum with adjacent cecum. The terminal ileum was incised along its antimesenteric border and the margin of the opened ileum was sutured onto the serosal surface of the cecum. At autopsy, the animals were injected intraperitoneally with 1 microgram/g body weight of the metaphase arrest agent, vincristine sulfate, and 50 microCI of 125I-rhUG (specific activity 1.7 microCi/micrograms) to quantify the crypt cell production rate and uptake of radiolabeled urogastrone, respectively. The results indicated that the crypt cell production rate was increased significantly throughout the small intestine of operated animals till the 12th postoperative day as compared to unoperated rats. The colon showed significantly increased crypt cell production rate only on the 4th day after surgery compared to unoperated rats. The stomach showed no changes. The uptake of 125I-rhUG increased significantly on the 2nd and 4th postoperative days in the small intestine and on the 2nd postoperative day in the colon as compared to unoperated rats and gradually decreased with increasing time after surgery. These results suggest that patching of an ileal defect resulted in a strong compensatory response in the small intestine. These results also demonstrated a close association between epithelial cell proliferation and uptake of 125I-rhUG, particularly in the early part of intestinal adaptation following the surgical stimulus to ileum.(ABSTRACT TRUNCATED AT 250 WORDS)

Cell-specific expression of alpha 1-antitrypsin in human intestinal epithelium

alpha 1-Antitrypsin (alpha 1-AT) is an acute phase plasma protein predominantly derived from the liver which inhibits neutrophil elastase. Previous studies have suggested that alpha 1-AT is also expressed in human enterocytes because alpha 1-AT mRNA could be detected in human jejunum by RNA blot analysis, and alpha 1-AT synthesis could be detected in a human intestinal adenocarcinoma cell line Caco2, which spontaneously differentiates into villous-like enterocytes in tissue culture. To definitively determine that the alpha 1-AT gene is expressed in human enterocytes in vivo, we examined tissue slices of human jejunum and ileum by in situ hybridization. The results demonstrate specific hybridization to enterocytes from the bases to the tips of the villi. Although there was no hybridization to enterocytes in most of the crypt epithelium, there was intense specific hybridization in one region of the crypt. Double-label immunohistochemical studies showed that alpha 1-AT and lysozyme co-localized to this region, indicating that it represented Paneth cells. Finally, there was a marked increase in hybridization to alpha 1-AT mRNA in villous enterocytes and Paneth cells in Crohn's disease. The results of this study provide definitive evidence that alpha 1-AT is expressed in human jejunal and ileal enterocytes in vivo, and show that alpha 1-AT is also a product of Paneth cells. Together with the results of other studies, these data raise the possibility that alpha 1-AT detected in fecal alpha 1-AT clearance assays for diagnosing protein-losing enteropathies is predominantly derived from sloughed enterocytes.

Peroxisomes and peroxisomal enzymes along the crypt-villus axis of the rat intestine

The development of peroxisomes and expression of their enzymes were investigated in differentiating intestinal epithelial cells during their migration along the crypt-villus axis. Sequential cell populations harvested by a low-temperature method were identified by microscopy, determination of alkaline phosphatase and sucrase activities and incorporation of [3H]-thymidine into DNA. Ultrastructural cytochemistry after staining for catalase activity, revealed the presence of peroxisomes in undifferentiated stem cells located in the crypt region. Morphometry indicated that the number of these organelles increased as intestinal epithelial cells differentiate. Catalase activity was higher in the crypt cells than in the mature enterocytes harvested from villus tips. On the other hand, an increasing gradient of activity was observed from crypts to villus tips for peroxisomal oxidases, i.e. fatty acyl coA oxidase, D-amino acid oxidase and polyamine oxidase. These findings indicate that biogenesis of peroxisomes occurs during migration of intestinal epithelial cells along the crypt-villus axis and that peroxisomal oxidases contribute substantially to the biochemical maturation of enterocytes.

The human gene encoding cytokeratin 20 and its expression during fetal development and in gastrointestinal carcinomas

The differentiation of the predominant cell types of the mucosal epithelium of the mammalian gastrointestinal tract is characterized by increasing amounts of an intermediate-sized filament (IF) protein designated cytokeratin (CK) 20 which is a major cellular protein of mature enterocytes and goblet cells. Here we report the isolation of the human gene encoding CK 20, its complete nucleotide sequence and the amino acid sequence deduced therefrom that identifies this polypeptide (mol. wt. 48553) as a member of the type I-CK subfamily. Remarkable, however, is the comparably great sequence divergence of CK 20 from all other known type I-CKs, with only 58% identical amino acids in the conserved alpha-helical 'rod' domain of CK 20 and, e.g. CK 14. Using riboprobes corresponding to exon 6 of the gene in Northern blot and ribonuclease protection assays, we show that the approximately 1.75 kb mRNA encoding CK 20 is specifically produced in cells of the intestinal and gastric mucosa, including tumors and cell lines derived therefrom. The appearance of CK 20-positive cells in human embryonic and fetal development and in adult tissues has been studied using immunohistochemistry with CK 20-specific antibodies. CK 20 synthesis has first been recognized at embryonic week 8 in individual 'converted' simple epithelial cells of the developing intestinal mucosa. In later fetal stages, CK 20 synthesis extends over most goblet cells and a variable number of villus enterocytes. The distribution of CK 20-positive cells in the developing gastric and intestinal mucosa is similar to--but not identical with--the pattern in the adult intestine in which all enterocytes and goblet cells as well as certain 'low-differentiated' columnar cells contain CK 20, whereas the neuroendocrine ('enterochromaffin') and Paneth cells are negative. In gastrointestinal carcinomas similarly examined, CK 20 has been detected in almost all cases (50/52) of colorectal adenocarcinomas, including all grades of differentiation and malignancy and also metastatic tumors, whereas CK 20 immunostaining in gastric carcinomas has been found less consistent and more heterogeneous. The possible biological meaning of the specific expression of the CK 20 gene in certain cells of the gastrointestinal tract and carcinomas derived therefrom and the regulatory mechanisms involved in the integration of the protein in the IF cytoskeleton are discussed.

Ligand-based histochemical localization and capture of cells expressing heat-stable enterotoxin receptors

The heat stable enterotoxins (ST) of enterotoxigenic Escherichia coli (ETEC) cause diarrhoea by binding specific intestinal receptors. Precise histochemical localization of ST receptors could provide more information about the pathophysiology of secretory diarrhoea and the role of ST receptors in normal biology. To accomplish this, we quantitatively coupled biotin to the N-terminus of ST1b using biotin-X-X-N-hydroxysuccinimide ester. The derivatized toxin (BST) has an apparent Kd of 11.7 +/- 10 nM for rat brush border receptors. We used BST in an affinity panning cell-capture system, to validate its ability to discriminate between receptor-positive and receptor-negative cells. Cell lines expressing ST receptors (human colon carcinoma T84, and COS cells transfected with guanylyl cyclase-C (GC-C) ST receptor cDNA) were captured to streptavidin and anti-biotin-coated plates with high efficiency and specificity. This system provides a novel approach to screening cells for the presence of unique ST-binding proteins. BST was then used with streptavidin-gold to demonstrate the cellular topography of ST receptors at the light microscopic level. Villus enterocytes were intensely stained, but only a faint signal was observed in upper crypts of rat small intestine. Thus, a gradient of increasing receptor density was seen as upper crypt cells matured into villus enterocytes. Higher magnification revealed that ST receptors are concentrated at the apical aspect of villus enterocytes. Recently, guanylin, a putative endogenous ligand for ST receptors, has been localized to Paneth cells, at the base of intestinal crypts. Thus, ST receptors are concentrated in villus enterocytes, while guanylin appears to be produced at the base of the crypts.(ABSTRACT TRUNCATED AT 250 WORDS)

Decreased expression of Mac-2 (carbohydrate binding protein 35) and loss of its nuclear localization are associated with the neoplastic progression of colon carcinoma

The Mac-2 lectin (carbohydrate binding protein 35) is a soluble, 32- to 35-kDa phosphoprotein that binds galactose-containing glycoconjugates. We report here that the colonic epithelium is a major site of Mac-2 expression in vivo based on immunohistochemistry of human tissue specimens. In this epithelium, proliferating cells at the base of the crypts do not express Mac-2 but its expression increases with differentiation along the crypt-to-surface axis. Mac-2 expression is concentrated in the nuclei of these differentiated epithelial cells. The progression from normal mucosa to adenoma to carcinoma is associated with significant changes in Mac-2 nuclear localization and expression. In all adenomas (9/9) and carcinomas (13/13) examined, Mac-2 was not present in the nucleus but was localized in the cytoplasm. Sequencing of Mac-2 cDNAs from normal mucosa and carcinoma revealed no specific mutations that could account for this loss of nuclear localization. We also observed a 5- to 10-fold decrease in Mac-2 mRNA levels in cancer compared to normal mucosa as well as a significant reduction in the amount of Mac-2 protein expressed. These observations suggest that Mac-2 exclusion from the nucleus and its decreased expression may be related to the neoplastic progression of colon cancer.

Glycosyl phosphatidylinositol membrane anchoring of melanotransferrin (p97): apical compartmentalization in intestinal epithelial cells

Melanotransferrin (p97) is an iron-binding membrane glycoprotein with 40% homology to transferrin and lactoferrin. It was first identified on the basis of its high level of expression in melanoma cells, as compared to normal melanocytes. It is also present in many cultured cell types. In normal tissues, p97 is expressed in fetal intestine, umbilical cord, sweat gland ducts and liver sinusoidal lining cells. Kinetic studies in melanoma cells have suggested that p97 plays a role in iron metabolism. We have examined expression of p97 in cell lines derived from human colorectal carcinomas which express a differentiated phenotype. When polarized, these cells showed a preferred apical distribution of p97, as demonstrated by immunohistochemistry, immune electron microscopy and domain-selective biotinylation. Correspondingly, p97 was only found on the apical brush border of epithelial cells in the fetal intestine. p97 was shown to be anchored to the membrane through a glycosyl phosphatidylinositol moiety by treatment with phophatidylinositol-specific phospholipase C (PI-PLC) and labeling with [14C]ethanolamine. These observations provide a basis for the elucidation of the physiological role of p97 in iron metabolism and its possible role in cell proliferation and malignant cell transformation.

Genetic regulation of enterocyte function: a quantitative in situ hybridisation study of lactase-phlorizin hydrolase and Na(+)-glucose cotransporter mRNAs in rabbit small intestine

The enterocyte undergoes sequential changes in its structure and function as it migrates rapidly from the small intestinal crypts to the villus tip. The mechanisms by which these changes are regulated "in tune" with ontogenic and dietary changes in the luminal environment are currently under investigation. This study has employed oligonucleotide probes to follow the expression of the lactase-phlorizin hydrolase (LPH) and Na(+)-glucose cotransporter (SGLT1) genes in rabbit small intestine using quantitative in situ hybridisation histochemistry. The profiles of LPH mRNA and SGLT1 mRNA accumulation along the crypt-villus axis were found to be very similar. Although mRNA was undetectable in the crypt. LPH and SGLT1 mRNA levels rose rapidly at the crypt-villus junction, reaching a maximum between 210 microns and 330 microns above this point. Further up the villus the level of mRNAs declined. SGLT1 mRNA was present in all small intestinal segments (duodenum, jejunum and ileum), whereas LPH mRNA was absent from the ileum. LPH activity rose and fell in conjunction with mRNA, but SGLT1 activity was greatest at the villus tip where mRNA levels were considerably reduced. These data have been used to discuss the genetic regulation of enterocyte differentiation and function.

Defensin-6 mRNA in human Paneth cells: implications for antimicrobial peptides in host defense of the human bowel

The epithelial surface of the human small intestine is a barrier between the host and the microbial environment of the lumen. A human small intestine cDNA clone was found to encode a new member of the defensin family of antimicrobial peptides, named human defensin-6. Tissue expression of this mRNA is specific for the small intestine as determined by Northern blot analysis and polymerase chain reaction analysis. In situ hybridization demonstrated that human defensin-6 mRNA localizes to Paneth cells in the crypts of Lieberkühn. The finding of an abundant defensin mRNA in human Paneth cells supports the notion that these epithelial cells may play a key role in host defense of the human bowel. The results also strengthen the hypothesis that peptide-based host defenses are prevalent at mucosal surfaces in mammals.

Lactase gene expression during early development of rat small intestine

Expression of lactase messenger (m) RNA and protein in rat small intestine during fetal and postnatal development was analyzed using in situ hybridization and immunohistochemistry. Lactase mRNA was first identified at 18 days of development, and lactase protein was first detected at day 20. Lactase mRNA and protein were present along the entire villus. Lactase mRNA increased, reaching a maximum at day 20. Just before birth a decrease in lactase mRNA was observed. In newborn intestine, lactase mRNA was present only from the base of the villus up to the mid-villus region and was undetectable up to the villus tips. Lactase protein continued to be expressed along the entire villus. These data show that expression of lactase mRNA and protein do not parallel, indicating a posttranscriptional control in fetal development. Lactase gene transcription is initiated late in gestation concomitant with villus formation and is exclusively seen in villus epithelial cells. The restriction after birth of lactase mRNA expression to cells at the villus base suggests the occurrence of a previously unknown step in postnatal differentiation of the enterocyte.

Parthenogenetic stem cells in postnatal mouse chimeras

The ability of parthenogenetic (pg) cells to contribute to proliferating stem cell populations of postnatal aggregation chimeras was investigated. Using DNA in situ analysis, pg participation was observed in highly regenerative epithelia of various regions of the gastrointestinal tract, e.g., stomach, duodenum and colon, in the epithelia of tongue and uterus and in the epidermis. Pg cells also contributed to the epithelium of the urinary bladder, which is characterized by a relatively slow cellular turnover. Using a sensitive proliferation marker to determine division rate of pg and normal (wt) cells in tissues of a 24-day-old chimera, no significant differences between pg and fertilized cells were observed. However, in colon and uterus of a pg <==> wt chimera aged 101 days, a significant loss of proliferative capacity of pg cells was found. In the colon, this loss of proliferative potential was accompanied by an altered morphology of pg crypts. In general, they were situated at the periphery of the epithelium and lacked access to the lumen, with consequent cystic enlargement and flattened epithelium. No obvious morphological changes were observed in the pg-derived areas of the uterine epithelium of this chimera. Our results provide evidence that pg cells can persist as proliferating stem cells in various tissues of early postnatal chimeras. They suggest that pg-derived stem cells may cease to proliferate in restricted areas of the gastrointestinal tract and in the uterine epithelium of pg <==> wt chimeras of advanced age.(ABSTRACT TRUNCATED AT 250 WORDS)

Novel DNA-binding proteins regulate intestine-specific transcription of the sucrase-isomaltase gene

Sucrase-isomaltase (SI) is an enterocyte-specific gene which exhibits a complex pattern of expression during intestinal development and in the adult intestinal mucosa. In the studies described in this report, we demonstrate that enterocyte-specific transcription of the SI gene is regulated by an evolutionarily conserved promoter that extends approximately 180 bp upstream of the transcription start site. DNase I footprint analysis allowed the identification of three nuclear protein-binding sites within the SI promoter (SIF1, SIF2, and SIF3 [SI footprint]), each of which acted as a positive regulatory element for transcription in intestinal cell lines. SIF1 was shown to bind nuclear protein complexes present in primary mouse small intestinal cell and in an intestinal cell line (Caco-2). However, SIF1-binding proteins were absent in a variety of other epithelial and nonepithelial cells. In vitro mutagenesis experiments demonstrated that the SIF1 site is required for high-level promoter activity in intestinal cells. The SIF3 element formed prominent binding complexes with intestinal and liver nuclear extracts, whereas nuclear proteins from other epithelial and nonepithelial cells formed weaker complexes of different mobilities. The SIF2 element bound nuclear proteins in a pattern similar to that of SIF3, and cross-competition studies suggested that SIF2 and SIF3 may bind the same nuclear proteins. Taken together, these data have allowed the identification of novel DNA-binding proteins that play an important role in regulating intestine-specific transcription of the SI gene.

Transient mosaic patterns of morphological and functional differentiation in the Caco-2 cell line

To gain further insight on the mosaic expression of specific functional intestinal markers (such as sucrase-isomaltase) in postconfluent Caco-2 cells, a human colon cancer cell line unique in its property to differentiate in vitro into a mature enterocyte-like cell type, a comparative study was undertaken to examine the morphological and functional differentiation of Caco-2 cells at various culture stages. The observations clearly indicate that Caco-2 cells can exist only in three different states in culture: homogeneously undifferentiated (at subconfluence), heterogeneously polarized and differentiated (between 0 and 20 days after confluence), and homogeneously polarized and differentiated (after 30 days). Indeed, in the intermediate state, a strong discrepancy is found among adjacent differentiating cells throughout the monolayer relative to sucrase-isomaltase expression as well as to cell morphology and brush border organization. Back-scattered electron imaging analysis showed a lack of correlation between these parameters at the cellular level. These observations indicate that morphological and functional differentiations of Caco-2 cells progress concomitantly according to a transient mosaic pattern, thus providing evidence that these two processes are not coupled.

Novel DNA-binding proteins regulate intestine-specific transcription of the sucrase-isomaltase gene

Sucrase-isomaltase (SI) is an enterocyte-specific gene which exhibits a complex pattern of expression during intestinal development and in the adult intestinal mucosa. In the studies described in this report, we demonstrate that enterocyte-specific transcription of the SI gene is regulated by an evolutionarily conserved promoter that extends approximately 180 bp upstream of the transcription start site. DNase I footprint analysis allowed the identification of three nuclear protein-binding sites within the SI promoter (SIF1, SIF2, and SIF3 [SI footprint]), each of which acted as a positive regulatory element for transcription in intestinal cell lines. SIF1 was shown to bind nuclear protein complexes present in primary mouse small intestinal cell and in an intestinal cell line (Caco-2). However, SIF1-binding proteins were absent in a variety of other epithelial and nonepithelial cells. In vitro mutagenesis experiments demonstrated that the SIF1 site is required for high-level promoter activity in intestinal cells. The SIF3 element formed prominent binding complexes with intestinal and liver nuclear extracts, whereas nuclear proteins from other epithelial and nonepithelial cells formed weaker complexes of different mobilities. The SIF2 element bound nuclear proteins in a pattern similar to that of SIF3, and cross-competition studies suggested that SIF2 and SIF3 may bind the same nuclear proteins. Taken together, these data have allowed the identification of novel DNA-binding proteins that play an important role in regulating intestine-specific transcription of the SI gene.

Apolipoprotein expression and cellular differentiation in Caco-2 intestinal cells

Caco-2 cells, cultured for 18 days on porous filter supports and conventional plastic culture dishes, were used to study the effects of cellular differentiation on the expression of apolipoprotein (apo) genes. Media of filter-grown cells accumulated more apo B as apo B-48 and contained three times the amount of edited apo B mRNA compared with plastic-grown cells. The accumulation of apo A-I by media of plastic-grown cells was higher than accumulation by filter-grown cells, despite similar concentrations of apo A-I mRNA. The apo A-IV was detectable in the culture media earlier with filter-grown cells compared with plastic-grown cells, despite similar apo A-IV mRNA concentrations. Plastic-grown cells contained more apo E mRNA, and their media accumulated more apo E than filter-grown cells. With the exception of apo A-I, apo gene expression changed with Caco-2 cell differentiation to resemble more closely the patterns seen in adult enterocytes. There were no effects or minimal effects of added retinoic acid, 1,25-dihydroxyvitamin D3 [1,25(OH)2D3], or thyroid hormone on apo accumulation in media of filter-grown cultures of Caco-2 cells. However, 1,25(OH)2D3 and thyroid hormone increased apo B, apo A-IV, and apo A-I mRNA concentrations, retinoic acid increased apo B mRNA concentrations alone, and all three reduced apo E mRNA concentrations. Ratios of edited to unedited apo B mRNA were unaffected. In conclusion, culture substratum importantly influences Caco-2 cell differentiation. Soluble factors that influence cellular differentiation may affect apo gene expression over and above effects mediated by the culture substratum.(ABSTRACT TRUNCATED AT 250 WORDS)

A gradient in expression of the Escherichia coli heat-stable enterotoxin receptor exists along the villus-to-crypt axis of rat small intestine

Binding of Escherichia coli heat-stable enterotoxin to its receptor is critical to the initiation of toxin-induced secretion and diarrheal disease; it is also likely, however, that this receptor binds an endogenous ligand. In order to characterize the expression of the heat-stable enterotoxin receptor in the small intestine, we isolated epithelial cells from villus tip to crypt in rat jejunum and ileum. Binding of radiolabeled toxin was maximal in the villus preparations and gradually decreased along the villus-to-crypt axis, paralleling the decline of sucrase activity. Northern blots of total RNA identified a single heat stable enterotoxin receptor transcript (3.8 kb), predominantly in the villus cell fractions. In situ hybridization demonstrated clear signal in the villus cells with no apparent signal in the crypt cells, lamina propria or muscularis. Expression of this receptor was greatest after enterocytes leave the proliferative cycle and enter villi. This pattern of gene and protein expression may reflect a role of this receptor in binding endogenous ligands which in turn may regulate intestinal ion flux along the villus-to-crypt axis.

Gs and Gi protein subunits during cell differentiation in intestinal crypt-villus axis: regulation at the mRNA level

The expression of subunits of the guanine nucleotide regulatory protein that mediates hormonal stimulation of adenylyl cyclase (Gs) and of the guanine nucleotide regulatory protein that mediates hormonal inhibition of adenylyl cyclase (Gi) was studied during cell migration and differentiation in the rat small intestine crypt-villus axis. Proliferative crypt cells were separated from nonproliferative mature villus cells and the following data were obtained: 1) alpha s subunits were more abundant in crypt cells than in villus cells as evidenced by cholera toxin-catalyzed [32P]NAD ribosylation and Western blotting of this relative molecular weight (M(r)) 42,000 protein; 2) alpha i2- and alpha i3-subunits (M(r) 40,000 and M(r) 41,000, respectively) were preferentially expressed in villus cells as evidenced by pertussis toxin-catalyzed [32P]NAD ribosylation and Western blotting (alpha i1-subunit was not detectable in intestinal epithelium by using these techniques); 3) Western blotting showed a higher expression of the common beta- (M(r) 36,000) subunit of G proteins in villus cells than in crypt cells; and 4) Northern blot analysis using an alpha s-subunit oligonucleotide probe showed a 1.9-kb mRNA that was more abundant in crypt cells than in villus cells. In contrast, alpha i2- and alpha i3-mRNA species (2.3 and 3.5 kb, respectively), analyzed by using specific cDNA probes, were much more abundant in villus cells than in crypt cells. Finally, two beta-subunit mRNA species of 3.3 and 1.8 kb were detectable in intestinal epithelial cells and were more abundant in villus cells than in crypt cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Intestinal brush-border-associated enzymes: Co-ordinated expression in colorectal cancer

The brush border of normal small-intestine epithelial cells is rich in enzymes that are involved in the digestive process. Such molecules can be used as markers to analyze cell lineages and differentiation properties of colorectal cancers. Monoclonal antibodies detecting dipeptidyl peptidase-IV, aminopeptidase N, endopeptidase F, sucrase-isomaltase, alkaline phosphatase, maltase-glucoamylase and lactase have been used to analyze the phenotype of colorectal cancers, adjacent mucosa and histologically normal distant mucosa. The avidin-biotin peroxidase complex method was used. Expression of dipeptidyl peptidase-IV, aminopeptidase N, sucrase-isomaltase and alkaline phosphatase was common in non-neoplastic mucosa adjacent to, and distant from, the tumor; in contrast, endopeptidase F, maltase-glucoamylase and lactase were rarely expressed in normal distant mucosa and more frequently expressed in mucosa adjacent to the tumor. Dipeptidyl peptidase-IV, aminopeptidase N, endopeptidase F, sucrase-isomaltase and alkaline phosphatase were frequently expressed in colorectal cancers, whereas maltase-glucoamylase and lactase were rarely expressed. Two general patterns of antibody reactivity were observed: diffuse cytoplasmic and apical; apical reactivity was generally associated with more differentiated tumors. A logistic predictive regression model indicated that enzyme expression in colorectal cancers followed a coordinate pattern, but was unrelated to the location of the tumor, Dukes stage or differentiation grade. In conclusion, expression of brush-border-associated enzymes occurs frequently in colorectal cancers and is regulated in a co-ordinated manner. These markers can be used for the phenotypic sub-classification of colorectal cancers.

The identification of genes specifically expressed in epithelial cells of the rat intestinal crypts

Undifferentiated embryonic and dedifferentiated tumor cells express genes that are down-regulated or not expressed in differentiated tissue. The progenitor cells of the intestinal crypt are undifferentiated cells that, similarly, should express genes that are not evident in the more differentiated villus cells. Some of these genes may be related to the control of differentiation. We attempted to define crypt-associated genes by constructing a cDNA library from isolated rat intestinal crypt cells and screening for messages that remained after subtractive hybridization using greater than 20-fold more mRNA from villus than from the crypt cells. This process identified about two percent of the colonies containing transcripts expressed by the crypt cell. Northern blot analysis showed hybridization to messages in a range from 700 to 12,000 base pairs. Six clones out of 136 initial isolates were shown to hybridize to crypt mRNAs at levels four to tenfold greater than to villus mRNAs. Three of these clones showed greater hybridization to mRNA of the distal (ileum) when compared to the proximal end of the adult small bowel. Increased expression in fetal rat intestine was seen for five mRNAs and in fetal liver for four mRNAs when compared to adult. Most of the crypt associated gene probes preferentially bound mRNA from ovary, kidney, and spleen but did not bind mRNA derived from testis, muscle and brain. Cultured mouse teratocarcinoma cells (F9) showed high levels of three of these transcripts. Portions of each insert were sequenced and examined for homology to entries in national computer banks.(ABSTRACT TRUNCATED AT 250 WORDS)

Messenger RNA sorting in enterocytes. Co-localization with encoded proteins

This study describes the intracellular compartmentalization of three different mRNAs in the polarized rat fetal enterocyte. They encode proteins that are known to be localized within different regions of the epithelial cell namely (i) the apical, membrane-bound glycoprotein, lactase-phlorizin hydrolase (lactase), (ii) the mitochondrially localized enzyme, carbamoylphosphate synthetase (CPS), and (iii) the cytoplasmically localized enzyme, phosphoenolpyruvate carboxykinase (PEPCK). These mRNAs are found in close proximity to their respective protein products, i.e. the apical membrane, mitochondria and cytoplasm, respectively. The significance of these observations is twofold; (i) they indicate that mRNAs are sorted into specific domains of the cytosol of intestinal epithelial cells; and (ii) they imply the presence of two distinct pathways of mRNA targeting one that allows transport of mRNAs that are translated on ribosomes associated with the rough endoplasmic reticulum (lactase mRNA), and the other that allows sorting of mRNAs that are translated on free polysomes (CPS and PEPCK mRNA).

The Min (multiple intestinal neoplasia) mutation: its effect on gut epithelial cell differentiation and interaction with a modifier system

Min is a fully penetrant dominant mutation that leads to the development of multiple intestinal adenomas throughout the duodenal-to-colonic axis. Min/+ C57BL6/J mice have an average life-span of 120 d. Multi-label immunocytochemical studies of these lesions demonstrate patches of differentiated enterocytes, and scattered enteroendocrine, goblet and Paneth cells. Expression of endogenous marker genes within these differentiated cells can be directly correlated with the position occupied by the adenoma along the duodenal-to-colonic axis and mirrors the regional differentiation of the normal gut epithelium. The presence of multiple lineages in adenomas together with their retention of spatial information suggests that tumorigenesis in Min/+ mice may be initiated in a multipotent stem cell normally located at the base of intestinal crypts. To study the time-dependent properties of these tumors, genetic conditions were sought in which Min/+ animals could survive for up to 300 d. Min is fully penetrant in hybrids with either AKR/J or MA/MyJ. However, the hybrids demonstrate a reduction in the number of intestinal adenomas. Preliminary backcross analysis is consistent with a single major modifier locus unlinked to Min in both the AKR/J and MA/MyJ strains. The increased lifespan of the hybrid animals is also associated with the development of invasive tumors. New tumors do not arise continuously over the lifespan of these animals; instead all adenomas appear to be established by 100 d of age or sooner. These studies indicate that the Min/+ mouse is a powerful model system for analyzing the mechanisms that establish and maintain a balance between proliferation and differentiation in the continuously renewing gut epithelium and for an assessment of the multi-step hypothesis of intestinal neoplasia.

Distribution of the SGLT1 Na+/glucose cotransporter and mRNA along the crypt-villus axis of rabbit small intestine

The expression of the Na+/glucose cotransporter (SGLT1) mRNA and protein along the crypt-villus axis of the rabbit small intestine was examined using in situ hybridization and immunocytochemical techniques. We detected mRNA in the cells on the villus, but not in the crypts, and the mRNA abundance increased 6-fold from the base to the tip of the villus. SGLT1 protein was restricted to the brush borders of mature enterocytes. We suggest that the high rate of sugar transport across the tips of the villus is due to the transcription of the SGLT1 gene in mature enterocytes, the subsequent translation of SGLT mRNA, and the insertion direct of the functional SGLT1 transporter into the brush border membrane of these cells lining the villus tip.

Production of transforming growth factor-alpha by normal rat small intestine

Transforming growth factor-alpha (TGF-alpha) and epidermal growth factor (EGF) are similar in structure and biological activity. In the present study, the distributions of TGF-alpha mRNA, TGF-alpha immunoreactivity, and TGF-alpha-EGF receptor mRNA were examined in epithelial and nonepithelial compartments of the jejunum, and the effect of TGF-alpha on growth of a jejunal crypt cell line (IEC-6) was determined. Epithelial cells eluted from the rat jejunal cryptvillus axis expressed TGF-alpha mRNA at twofold higher levels in the villus tip than in the crypt and EGF receptor mRNA at sevenfold higher levels in the villus tip. Expression of these two mRNA transcripts in the subepithelium was low. Immunohistochemical staining showed TGF-alpha immunoreactivity predominantly in the epithelium and muscularis. Immunostaining of villus cells was uniform, whereas crypt cells did not stain. IEC-6 cells bound 125I-EGF to a single class of high-affinity (dissociation constant = 833 pM) receptors. EGF and TGF-alpha (10 ng/ml) only modestly stimulated IEC-6 cell growth in the presence of 5% serum but increased expression of the protooncogenes c-jun and c-myc threefold over control cells. These findings suggest that, among the potential physiological roles for TGF-alpha produced by the jejunal epithelium, promotion of cell migration and modulation of fluid and electrolyte transport may be as relatively important as stimulation of cell proliferation.