Your search keyword '"Freund JN"' showing total 23 results

1. Murine intestinal stem cells are highly sensitive to modulation of the T3/TRα1-dependent pathway.

Author

Godart M, Frau C, Farhat D, Giolito MV, Jamard C, Le Nevé C, Freund JN, Penalva LO, Sirakov M, and Plateroti M

Subjects

Amino Acid Transport Systems, Neutral genetics, Amino Acid Transport Systems, Neutral metabolism, Animals, Female, Iodide Peroxidase genetics, Iodide Peroxidase metabolism, Male, Mice, Mice, Transgenic, Stem Cells cytology, Thyroid Hormone Receptors alpha genetics, Triiodothyronine genetics, Cell Proliferation, Intestines, Signal Transduction, Stem Cells metabolism, Thyroid Hormone Receptors alpha metabolism, Triiodothyronine metabolism

Abstract

The thyroid hormone T3 and its nuclear receptor TRα1 control gut development and homeostasis through the modulation of intestinal crypt cell proliferation. Despite increasing data, in-depth analysis on their specific action on intestinal stem cells is lacking. By using ex vivo 3D organoid cultures and molecular approaches, we observed early responses to T3 involving the T3-metabolizing enzyme Dio1 and the transporter Mct10, accompanied by a complex response of stem cell- and progenitor-enriched genes. Interestingly, specific TRα1 loss-of-function (inducible or constitutive) was responsible for low ex vivo organoid development and impaired stem cell activity. T3 treatment of animals in vivo not only confirmed the positive action of this hormone on crypt cell proliferation but also demonstrated its key action in modulating the number of stem cells, the expression of their specific markers and the commitment of progenitors into lineage-specific differentiation. In conclusion, T3 treatment or TRα1 modulation has a rapid and strong effect on intestinal stem cells, broadening our perspectives in the study of T3/TRα1-dependent signaling in these cells., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published

2021

2. Pathophysiology of intestinal metaplasia of the stomach: emphasis on CDX2 regulation.

Author

Barros R, Camilo V, Pereira B, Freund JN, David L, and Almeida R

Subjects

Animals, CDX2 Transcription Factor, Gene Expression Regulation physiology, Homeodomain Proteins physiology, Humans, Intestinal Mucosa metabolism, Metaplasia etiology, Metaplasia genetics, Stomach Diseases genetics, Stomach Diseases pathology, Homeodomain Proteins genetics, Intestines pathology, Stomach Diseases etiology

Abstract

IM (intestinal metaplasia) of the stomach is a pre-neoplastic lesion that usually follows Helicobacter pylori infection and that confers increased risk for gastric cancer development. After setting the role played by CDX2 (Caudal-type homeobox 2) in the establishment of gastric IM, it became of foremost importance to unravel the regulatory mechanisms behind its de novo expression in the stomach. In the present paper, we review the basic pathology of gastric IM as well as the current knowledge on molecular pathways involved in CDX2 regulation in the gastric context.

Published

2010

3. Multiple regulatory regions control the complex expression pattern of the mouse Cdx2 homeobox gene.

Author

Benahmed F, Gross I, Gaunt SJ, Beck F, Jehan F, Domon-Dell C, Martin E, Kedinger M, Freund JN, and Duluc I

Subjects

Age Factors, Animals, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors, Blastocyst cytology, Blastocyst physiology, CDX2 Transcription Factor, Cecum embryology, Cecum physiology, Cell Line, Endoderm embryology, Endoderm physiology, GATA6 Transcription Factor genetics, GATA6 Transcription Factor metabolism, Genomics, HeLa Cells, Hepatocyte Nuclear Factor 4 genetics, Hepatocyte Nuclear Factor 4 metabolism, Humans, Intestines cytology, Lac Operon, Mice, Mice, Transgenic, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Regulatory Sequences, Nucleic Acid genetics, Stomach embryology, Stomach physiology, TCF Transcription Factors genetics, TCF Transcription Factors metabolism, Transcription Factor 4, Transfection, Trophoblasts cytology, Trophoblasts physiology, beta Catenin genetics, beta Catenin metabolism, Gene Expression Regulation, Developmental, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Intestines embryology, Intestines physiology, Transcription Factors genetics, Transcription Factors metabolism

Abstract

Background & Aims: The Cdx2 homeobox gene exerts multiple functions including trophectoderm specification, antero-posterior patterning, and determination of intestinal identity. The aim of this study was to map genomic regions that regulate the transcription of Cdx2, with a particular interest in the gut., Methods: Genomic fragments covering 13 kilobase (kb) of the mouse Cdx2 locus were analyzed in transgenic mice and in cell assays., Results: No fragment was active in the trophectoderm. Fragments containing the first intron and extending up to -5-kb upstream of the transcription start site became active posteriorly at gastrulation and then inactive at midgestation in every tissue including the endoderm. Specific persistence of activity in the intestinal endoderm/epithelium beyond midgestation requires extending the genomic fragment up to -9 kb. We identified a 250-base pair segment around -8.5-kb binding and responding to endodermal factors, with a stimulatory effect exerted synergistically by HNF4alpha, GATA6, Tcf4, and beta-catenin. These factors were able to activate endogenous expression of Cdx2 in nonintestinal Hela cells., Conclusions: Multiple regulatory regions control the complex developmental pattern of Cdx2, including far upstream sequences required for the persistence of gene expression specifically in the gut epithelium throughout life. Cooperation between HNF4alpha, GATA6, beta-catenin, and Tcf4 contributes to the intestine-specific expression of Cdx2.

Published

2008

4. Cdx1, a dispensable homeobox gene for gut development with limited effect in intestinal cancer.

Author

Bonhomme C, Calon A, Martin E, Robine S, Neuville A, Kedinger M, Domon-Dell C, Duluc I, and Freund JN

Subjects

Animals, Azoxymethane toxicity, CDX2 Transcription Factor, Genes, APC, Homeodomain Proteins genetics, Intestinal Neoplasms genetics, Mice, Mice, Transgenic, Transcription Factors physiology, Genes, Homeobox, Homeodomain Proteins physiology, Intestinal Neoplasms etiology, Intestines embryology

Abstract

The homeobox gene Cdx1 is involved in anteroposterior patterning in embryos and its expression selectively persists in the intestinal epithelium throughout life. In human colon cancers, Cdx1 is overexpressed in few cases and lost in the majority of adenocarcinomas. We used mouse models of gain and loss-of-function to investigate the role of Cdx1 in intestinal development and cancers. Transgenic mice overexpressing Cdx1 and knockout mice exhibited a morphologically normal intestine. Cell proliferation, specification into the four differentiated lineages and migration along the crypt-villus axis were unchanged compared to wild-type mice. Changing Cdx1 caused an inverse and dose-dependent modification of the expression of the paralogous gene Cdx2, indicating that Cdx1 fine-tunes Cdx2 activity. Transgenenic and knockout mice failed to spontaneously develop tumours. Overexpressing Cdx1 was without incidence on the frequency of intestinal tumours induced chemically by azoxymethane treatment or genetically in Apc(Delta14/+) mice. However, it augmented the severity of the tumours in Apc(Delta14/+) mice. Inversely, the loss-of-function of Cdx1 in knockout mice was without incidence on the growth of tumours induced by azoxymethane. We conclude that Cdx1 is dispensable for intestinal development and that its overexpression could increase malignancy in early stages of tumourigenesis.

Published

2008

5. Bile acids induce ectopic expression of intestinal guanylyl cyclase C Through nuclear factor-kappaB and Cdx2 in human esophageal cells.

Author

Debruyne PR, Witek M, Gong L, Birbe R, Chervoneva I, Jin T, Domon-Cell C, Palazzo JP, Freund JN, Li P, Pitari GM, Schulz S, and Waldman SA

Subjects

Adenocarcinoma enzymology, CDX2 Transcription Factor, Cell Line, Tumor, Deoxycholic Acid pharmacology, Esophageal Neoplasms enzymology, Esophagogastric Junction enzymology, Esophagogastric Junction metabolism, Esophagus enzymology, Esophagus pathology, Gene Expression, Guanylate Cyclase genetics, Homeodomain Proteins genetics, Humans, Promoter Regions, Genetic, RNA, Messenger metabolism, Receptors, Enterotoxin, Receptors, Guanylate Cyclase-Coupled, Receptors, Peptide genetics, Tissue Distribution drug effects, Transcription, Genetic drug effects, Bile Acids and Salts pharmacology, Cell Transformation, Neoplastic, Esophagus metabolism, Guanylate Cyclase metabolism, Homeodomain Proteins metabolism, Intestines enzymology, NF-kappa B metabolism, Receptors, Peptide metabolism

Abstract

Background & Aims: Although progression to adenocarcinoma at the gastroesophageal junction reflects exposure to acid and bile acids associated with reflux, mechanisms mediating this transformation remain undefined. Guanylyl cyclase C (GC-C), an intestine-specific tumor suppressor, may represent a mechanism-based marker and target of transformation at the gastroesophageal junction. The present studies examine the expression of GC-C in normal tissues and tumors from esophagus and stomach and mechanisms regulating its expression by acid and bile acids., Methods: Gene expression was examined by reverse-transcription polymerase chain reaction, promoter analysis, immunohistochemistry, immunoblotting, and functional analysis. Promoter transactivation was quantified by using luciferase constructs and mutational analysis. DNA binding of transcription factors was examined by electromobility shift analysis., Results: GC-C mRNA and protein were ectopically expressed in approximately 80% of adenocarcinomas arising in, but not in normal, esophagus and stomach. Similarly, in OE19 human esophageal cancer cells, deoxycholate and acid induced expression of GC-C. This was associated with the induction of expression of Cdx2, a transcription factor required for GC-C expression. In turn, induction of Cdx2 expression by deoxycholate was mediated by binding sites in the proximal promoter for nuclear factor kappaB (NF-kappaB). Furthermore, deoxycholate increased NF-kappaB activity, associated with nuclear translocation and Cdx2 promoter binding of the NF-kappaB subunit p50. Moreover, a dominant negative construct for NF-kappaB prevented deoxycholate-induced p50 nuclear translocation and activation of the Cdx2 promoter., Conclusions: Transformation associated with reflux at the gastroesophageal junction reflects activation by bile acid and acid of a transcriptional program involving NF-kappaB and Cdx2, which mediate intestinal metaplasia and ectopic expression of GC-C.

Published

2006

6. Control of differentiation-induced calbindin-D9k gene expression in Caco-2 cells by cdx-2 and HNF-1alpha.

Author

Wang L, Klopot A, Freund JN, Dowling LN, Krasinski SD, and Fleet JC

Subjects

Animals, CDX2 Transcription Factor, Caco-2 Cells, Calbindins, Cell Differentiation physiology, Clone Cells, Conserved Sequence, Electrophoresis methods, Gene Expression drug effects, Gene Expression Regulation physiology, Hepatocyte Nuclear Factor 1, Hepatocyte Nuclear Factor 1-alpha, Humans, Mice, Mice, Knockout, Multigene Family, Promoter Regions, Genetic genetics, Response Elements, S100 Calcium Binding Protein G genetics, Stereoisomerism, Trans-Activators, Vitamin D pharmacology, DNA-Binding Proteins physiology, Homeodomain Proteins physiology, Intestines cytology, Nuclear Proteins physiology, S100 Calcium Binding Protein G metabolism, Transcription Factors physiology, Vitamin D analogs & derivatives

Abstract

Calbindin D9k (CaBP) is critical for intestinal calcium absorption; its in vivo expression is restricted to differentiated enterocytes of the small intestine. Our goal was to identify factors controlling the transcriptional regulation of this gene in the human intestine. Both the natural gene and a 4600-bp promoter construct were strongly regulated by differentiation (>100-fold) but not by treatment with 1,25(OH)2 vitamin D (<2-fold) in the Caco-2 clone TC7. Deletion-mutation studies revealed that conserved promoter sequences for cdx-2 (at -3158 bp) and hepatocyte nuclear factor (HNF)-1 (at -3131 and at -98 bp) combined to control CaBP expression during differentiation. Other putative response elements were not important for CaBP regulation in TC7 cells (CCAAT enhancer binding protein, pancreatic duodenal homebox-1 (pdx-1), a proximal cdx-2 element). Mutation of the distal HNF-1 site had the greatest impact on CaBP gene expression through disruption of HNF-1alpha binding; both basal and differentiation-mediated CaBP expression was reduced by 80%. In contrast, mutation of the distal cdx-2 element reduced only basal CaBP expression. Whereas a 60% reduction of CaBP mRNA in the duodenum of HNF-1alpha null mice confirmed the physiological importance of HNF-1alpha for CaBP gene regulation, additional studies showed that maximal CaBP expression requires the presence of both HNF-1alpha and cdx-2. Our data suggest that cdx-2 is a permissive factor that influences basal CaBP expression in enterocytes and that HNF-1alpha modulates CaBP gene expression during cellular differentiation.

Published

2004

7. Endoderm- and mesenchyme-dependent commitment of the differentiated epithelial cell types in the developing intestine of rat.

Author

Ratineau C, Duluc I, Pourreyron C, Kedinger M, Freund JN, and Roche C

Subjects

Animals, Enteroendocrine Cells physiology, Epithelium embryology, Mice, Mice, Nude, Paneth Cells physiology, Rats, Rats, Wistar, Stem Cells physiology, Cell Differentiation physiology, Endoderm physiology, Intestines embryology, Mesoderm physiology

Abstract

During organogenesis, the intestinal tract progressively acquires a functional regionalization along the antero-posterior axis. Positional information needed for enterocytes has been studied, but the mechanisms that control Paneth and endocrine cell differentiation are poorly understood. We have used a model of endoderm/mesenchyme cross-associations to evaluate the respective roles of endoderm and mesenchyme in the cytodifferentiation of these epithelial cells. Heterotopic cross-associations comprising endoderm and mesenchyme from the presumptive proximal jejunum and colon were developed as xenografts in nude mice. Our results show that endoderm from the presumptive proximal jejunum when associated with colonic mesenchyme generate small intestinal enterocytes. Interestingly, no lysozyme-producing cells were generated. On the other hand, associations comprising colon endoderm and jejunal mesenchyme showed heterodifferentiation with typical small intestinal morphology with sucrase-isomaltase expression and Paneth cell differentiation. Heterotopic associations developed enteroendocrine cell patterns according to the normal fate of the endodermal moiety. As enteroendocrine cell commitment seems to occur before the other intestinal cell types, we cannot exclude a role of instructive signals from the mesenchyme on endocrine cell differentiation earlier in the development. These results identified a complex pattern of cell commitment, dependent of the differentiation type of the epithelial cell, on the regional origin of the endoderm and the associated mesenchyme.

Published

2003

8. Involvement of T3Ralpha- and beta-receptor subtypes in mediation of T3 functions during postnatal murine intestinal development.

Author

Plateroti M, Chassande O, Fraichard A, Gauthier K, Freund JN, Samarut J, and Kedinger M

Subjects

Animals, Injections, Intestinal Mucosa metabolism, Intestines drug effects, Intestines pathology, Isomerism, Mice, Mice, Knockout genetics, Receptors, Thyroid Hormone deficiency, Receptors, Thyroid Hormone genetics, Receptors, Thyroid Hormone metabolism, Triiodothyronine pharmacology, Animals, Newborn growth & development, Intestines growth & development, Receptors, Thyroid Hormone physiology, Triiodothyronine physiology

Abstract

Background & Aims: Thyroid hormones are implicated in intestinal development. Their effects are mediated by nuclear receptors, which are transcriptional regulators activated upon binding of triiodothyronine. The aim of this study was to define the involvement of the receptor subtypes during intestinal development., Methods: We used strains of knockout mice lacking T3Ralpha, T3Rbeta, or both receptors, encoded by T3Ralpha and T3Rbeta genes., Results: Morphological features and expression of digestive enzymes and of two intestinal regulators, Cdx-1 and Cdx-2, were compared in wild-type and T3Ralpha, T3Rbeta, and T3Ralphabeta knockout animals. T3Ralpha-/- mice had abnormal intestinal morphology, assessed by a decrease in the number of epithelial cells along the crypt-villus axis and a decrease in proliferating crypt cells. Expression of Cdx-1 and Cdx-2, and of the digestive enzymes, was down-regulated. These parameters can be partially reversed by T3 injection. A similar (jejunum) or more severe (ileum) phenotype was found in T3Ralphabeta double mutants. In contrast, no changes occurred in T3Rbeta mice., Conclusions: These data describe for the first time a direct effect of TH through the T3Ralpha-receptor subtypes on postnatal intestinal mucosa maturation. They also suggest that T3Rbeta receptors are dispensable but can partially substitute for T3Ralpha.

Published

1999

9. Production of low-lactose milk by ectopic expression of intestinal lactase in the mouse mammary gland.

Author

Jost B, Vilotte JL, Duluc I, Rodeau JL, and Freund JN

Subjects

Animals, Base Sequence, Blotting, Western, Chromatography, Thin Layer, DNA, Complementary, Female, Gene Expression, Lactase, Lactose Intolerance, Mice, Mice, Transgenic, beta-Galactosidase biosynthesis, Intestines enzymology, Lactose analysis, Mammary Glands, Animal enzymology, Milk chemistry, beta-Galactosidase genetics

Abstract

We have investigated, in mice, an in vivo method for producing low-lactose milk, based on the creation of transgenic animals carrying a hybrid gene in which the intestinal lactase-phlorizin hydrolase cDNA was placed under the control of the mammary-specific alpha-lactalbumin promoter. Transgenic females expressed lactase protein and activity during lactation at the apical side of mammary alveolar cells. Active lactase was also secreted into milk, anchored in the outer membrane of fat globules. Lactase synthesis in the mammary gland caused a significant decrease in milk lactose (50-85%) without obvious changes in fat and protein concentrations. Sucklings nourished with low-lactose milk developed normally. Hence, these data validate the use of transgenic animals expressing lactase in the mammary gland to produce low-lactose milk in vivo, and they demonstrate that the secretion of an intestinal digestive enzyme into milk can selectively modify its composition.

Published

1999

10. Subepithelial fibroblast cell lines from different levels of gut axis display regional characteristics.

Author

Plateroti M, Rubin DC, Duluc I, Singh R, Foltzer-Jourdainne C, Freund JN, and Kedinger M

Subjects

Animals, Cell Differentiation physiology, Cell Division physiology, Cell Line, Clone Cells physiology, Epithelial Cells physiology, Fibroblasts physiology, Ileum cytology, Ileum physiology, Membrane Glycoproteins genetics, Mesoderm cytology, Mesoderm physiology, Muscle, Smooth cytology, Muscle, Smooth physiology, Rats, Transcription, Genetic drug effects, Tretinoin pharmacology, Intestines cytology, Intestines physiology

Abstract

The intestine is characterized by morphofunctional differences along the proximodistal axis. The aim of this study was to derive mesenchymal cell lines representative of the gut axis. We isolated and cloned rat intestinal subepithelial myofibroblasts raised from 8-day proximal jejunum, distal ileum, and proximal colon lamina propria. Two clonal cell lines from each level of the gut were characterized. They 1) express the specific markers vimentin, smooth muscle alpha-actin, and smooth muscle myosin heavy chain, revealed by immunofluorescence microscopy and 2) distinctly support endodermal cell growth in a coculture model, depending on their regional origin, and 3) the clones raised from the various proximodistal regions maintain the same pattern of morphogenetic and growth and/or differentiation factor gene expression as in vivo: hepatocyte growth and/or scatter factor and transforming growth factor-beta 1 mRNAs analyzed by RT-PCR were more abundant, in the colon and ileal clones and mucosal connective tissue, respectively. In addition, epimorphin mRNA studied by Northern blot was also the highest in one ileal clone, in which it was selectively upregulated by all-trans retinoic acid (RA) treatment. Epimorphin expression in isolated 8-day intestinal lamina propria was higher in the distal small intestine and proximal colon than in the proximal small intestine. In conclusion, we isolated and characterized homogeneous cell subtypes that can now be used to approach the molecular regulation of the epithelium-mesenchyme-dependent regional specificity along the gut.

Published

1998

11. The Cdx-1 and Cdx-2 homeobox genes in the intestine.

Author

Freund JN, Domon-Dell C, Kedinger M, and Duluc I

Subjects

Animals, CDX2 Transcription Factor, Cell Differentiation, Cell Division, Chick Embryo, Drosophila Proteins, Drosophila melanogaster genetics, Epithelium embryology, Gastrointestinal Neoplasms genetics, Gene Expression Regulation, Developmental, Homeodomain Proteins physiology, Humans, Mice, Models, Biological, Trans-Activators, Transcription Factors, Avian Proteins, Genes, Homeobox physiology, Homeodomain Proteins genetics, Intestines embryology

Abstract

The past years have witnessed an increasing number of reports relative to homeobox genes in endoderm-derived tissues. In this review, we focus on the caudal-related Cdx-1 and Cdx-2 homeobox genes to give an overview of the in vivo, in vitro, and ex vivo approaches that emphasize their primary role in intestinal development and in the control of intestinal cell proliferation, differentiation, and identity. The participation of these genes in colon tumorigenesis and their identification as important actors of the oncogenic process are also discussed.

Published

1998

12. Mesenchyme-mediated effects of retinoic acid during rat intestinal development.

Author

Plateroti M, Freund JN, Leberquier C, and Kedinger M

Subjects

Animals, Cell Communication drug effects, Cell Differentiation drug effects, Collagen metabolism, Epithelium drug effects, Epithelium embryology, Epithelium metabolism, Female, Intestines transplantation, Laminin genetics, Laminin metabolism, Mesoderm cytology, Mice, Mice, Nude, Phenotype, Polymerase Chain Reaction, Pregnancy, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Wistar, Retinol-Binding Proteins genetics, Retinol-Binding Proteins metabolism, Transplantation, Heterologous, Intestines drug effects, Intestines embryology, Mesoderm drug effects, Tretinoin pharmacology

Abstract

In previous experiments we showed that intestinal development was dependent upon epithelial-mesenchymal cell interactions. The aim of this study was to investigate the possible role of retinoic acid (RA), a morphogenetic and differentiating agent, on the gut epithelial-mesenchymal unit. For this purpose we first analyzed the effects of a physiological dose of RA on 14-day fetal rat intestine using short-term organ culture experiments, or long-term grafts under the skin of nude mice. In these conditions, RA accelerated villus outgrowth and epithelial cell differentiation as assessed by the onset of lactase expression, and it also stimulated muscle and crypt formation. In order to analyze potential effects of RA mediated by mesenchymal cells, we isolated and characterized gut mucosa mesenchyme-derived cell cultures (mesenchyme-derived intestinal cell lines, MIC). These cells were shown to express mRNAs for retinoid binding proteins similar to those expressed in situ in the intestinal mesenchyme. MIC cells co-cultured with 14-day intestinal endoderms promoted endodermal cell adhesion and growth, and the addition of exogeneous RA enhanced epithelial cell polarization and differentiation assessed by cytokeratin and lactase immunostaining. Such a differentiating effect of RA was not observed on endodermal cells when cultured without a mesenchymal feeder layer or maintained in conditioned medium from RA-treated MIC cells. In the co-cultures, immunostaining of laminin and collagen IV with polyclonal antibodies, as well as alpha1 and beta1 laminin chains mRNAs (analyzed by RT-PCR) increased concurrently with the RA-enhanced differentiation of epithelial cells. It is worth noting that this stimulation by RA was also obvious on the mesenchymal cells cultured alone. These results show that RA plays a role in intestinal morphogenesis and differentiation. In addition, they indicate that RA acts on the mesenchymal cell phenotype and suggest that RA may modify the mesenchymal-epithelial cell interactions during intestinal development.

Published

1997

13. Identification of homologues of the mammalian intestinal lactase gene in non-mammals (birds and molluscs).

Author

Freund JN, Jost B, Lorentz O, and Duluc I

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cloning, Molecular, DNA Primers, Genes, Glycoside Hydrolases genetics, Lactase, Molecular Sequence Data, Polymerase Chain Reaction, RNA, Messenger analysis, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Transcription, Genetic, Bivalvia, Chickens, Intestines enzymology, beta-Galactosidase genetics

Abstract

Mammalian intestinal lactase hydrolyses a variety of beta-glycosides and is processed from a precursor comprising four tandem domains exhibiting sequence similarity, suggestive of multiple duplication events in the evolutionary past. The aim of the present study was to investigate whether genes homologous to the lactase gene exist in animals other than mammals. A reverse transcriptase-PCR strategy using a degenerate mixture of oligonucleotides was developed to search for the presence of transcripts similar in sequence to the mammalian lactase mRNA in the digestive tracts of a bird (the chicken) and an invertebrate (the mussel). Partial cDNAs corresponding to the 3' end of intestinal mRNAs were identified in both animals. In chicken, two cDNAs were isolated, corresponding to 6.5 kb transcripts that used two distinct polyadenylation sites. In mussels, three cDNAs were obtained and classified into two categories. One class of cDNA hybridized to a major mRNA of 3.5 kb and to minor species of 4.5 kb and 6 kb. The second class of cDNA hybridized to a 13 kb transcript, which was approximately twice as large as the mammalian lactase mRNA. Peptide sequences predicted from the chicken and mussel cDNAs confirmed that the proteins are related to mammalian lactase. They also suggested that the chicken protein and one mussel protein are integral molecules anchored in the cell membrane by a C-terminal transmembrane anchor, like lactase. These data provide evidence that proteins phylogenetically related to the mammalian-specific lactase are widespread in the animal kingdom, and that these proteins are expressed in the intestinal tract.

Published

1997

14. Ultrastructural study of intestinal lactase gene expression.

Author

Freund JN, Jost B, Duluc I, and Morel G

Subjects

Animals, Animals, Suckling, Base Sequence, DNA Primers chemistry, Gene Expression, Intestines ultrastructure, Lactase, Microscopy, Electron, Molecular Sequence Data, Nucleic Acid Hybridization, RNA, Messenger genetics, Rats, Intestines enzymology, beta-Galactosidase genetics

Abstract

The distribution of the mRNA encoding rat intestinal lactase-phlorizin hydrolase (LPH) was analyzed by ultrastructural in situ hybridization, and compared to the distribution of the cognate protein. Different pictures were obtained depending on the epithelial cell position along the crypt-villus axis: i) cells localized at the crypt base were devoid of LPH mRNA and protein; ii) cells of the crypt-villus junction and of the villus base showed a high level of mRNA but a low amount of enzyme; and iii) enterocytes of the middle and upper part of the villi exhibited an intense protein immunolabeling, but a low content of LPH mRNA. The analysis of the intracellular distribution of the LPH mRNA revealed a gradient of concentration along the cellular axis, as the transcripts were the most abundant in the apical and subapical domains of the enterocytes. In addition, LPH mRNA labeling was often paired or arranged in a circular shape, suggesting that the transcripts may be located in closed vicinity to rounded structures within the cytoplasm. The results indicate that distinct patterns of mRNA and protein occur along the villus height during the continuous process of cell differentiation of the intestinal epithelium. In addition, the emergence of the functional polarity of the enterocytes comes together with the establishment of an intracellular gradient of concentration of the mRNA encoding a brush border enzyme. A link between the intracellular distribution of LPH mRNA molecules and the membranous flow is proposed.

Published

1995

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

Author

Boukamel R and Freund JN

Subjects

Animals, Base Sequence, Humans, Molecular Sequence Data, Oligodeoxyribonucleotides, Rats, Sequence Homology, Nucleic Acid, Swine, Endoderm metabolism, Intestines enzymology, Lactase-Phlorizin Hydrolase genetics, Nuclear Proteins metabolism, Promoter Regions, Genetic

Abstract

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.

Published

1994

16. Fetal endoderm primarily holds the temporal and positional information required for mammalian intestinal development.

Author

Duluc I, Freund JN, Leberquier C, and Kedinger M

Subjects

Aging, Animals, Antigens, Differentiation, Chick Embryo, Colon embryology, Colon growth & development, Endoderm cytology, In Situ Hybridization, Intestine, Small embryology, Intestine, Small growth & development, Intestines embryology, Lactase-Phlorizin Hydrolase genetics, Lactase-Phlorizin Hydrolase isolation & purification, Mesoderm physiology, Mice, Mice, Nude, Morphogenesis, RNA, Messenger isolation & purification, Rats, Sucrase-Isomaltase Complex isolation & purification, Tissue Distribution, Transplantation, Heterologous, Embryonic Induction physiology, Endoderm physiology, Intestines growth & development, Rats, Wistar embryology

Abstract

In rodents, the intestinal tract progressively acquires a functional regionalization during postnatal development. Using lactase-phlorizin hydrolase as a marker, we have analyzed in a xenograft model the ontogenic potencies of fetal rat intestinal segments taken prior to endoderm cytodifferentiation. Segments from the presumptive proximal jejunum and distal ileum grafted in nude mice developed correct spatial and temporal patterns of lactase protein and mRNA expression, which reproduced the normal pre- and post-weaning conditions. Segments from the fetal colon showed a faint lactase immunostaining 8-10 d after transplantation in chick embryos but not in mice; it is consistent with the transient expression of this enzyme in the colon of rat neonates. Heterotopic cross-associations comprising endoderm and mesenchyme from the presumptive proximal jejunum and distal ileum developed as xenografts in nude mice, and they exhibited lactase mRNA and protein expression patterns that were typical of the origin of the endodermal moiety. Endoderm from the distal ileum also expressed a normal lactase pattern when it was associated to fetal skin fibroblasts, while the fibroblasts differentiated into muscle layers containing alpha-smooth-muscle actin. Noteworthy, associations comprising colon endoderm and small intestinal mesenchyme showed a typical small intestinal morphology and expressed the digestive enzyme sucrase-isomaltase normally absent in the colon. However, in heterologous associations comprising lung or stomach endoderm and small intestinal mesenchyme, the epithelial compartment expressed markers in accordance to their tissue of origin but neither intestinal lactase nor sucrase-isomaltase. A thick intestinal muscle coat in which cells expressed alpha-smooth-muscle actin surrounded the grafts. The results demonstrate that: (a) the temporal and positional information needed for intestinal ontogeny up to the post-weaning stage results from an intrinsic program that is fixed in mammalian fetuses prior to endoderm cytodifferentiation; (b) this temporal and positional information is primarily carried by the endodermal moiety which is also able to change the fate of heterologous mesodermal cells to form intestinal mesenchyme; and (c) the small intestinal mesenchyme in turn may deliver instructive information as shown in association with colonic endoderm; yet this effect is not obvious with nonintestinal endoderms.

Published

1994

17. Precocious and reversible expression of sucrase-isomaltase unrelated to intestinal cell turnover.

Author

Nsi-Emvo E, Foltzer-Jourdainne C, Raul F, Gosse F, Duluc I, Koch B, and Freund JN

Subjects

Animal Feed, Animals, Animals, Suckling, Digestion, Enzymes metabolism, Epithelium metabolism, Epithelium pathology, Glucocorticoids blood, Microvilli metabolism, Proto-Oncogene Proteins c-fos metabolism, Rats, Rats, Wistar, Time Factors, Intestinal Mucosa metabolism, Intestines pathology, Oligo-1,6-Glucosidase metabolism, Starvation metabolism, Sucrase metabolism

Abstract

The effect of starvation and refeeding on the developmental pattern of intestinal sucrase-isomaltase (SI) was analyzed in preweaned rats. Starvation at postnatal day 12 caused a precocious expression of SI activity and mRNA. Alkaline phosphatase activity was slightly reduced, and no significant change was observed for aminopeptidase and lactase activities. Immunostaining showed that SI molecules appear in cells at the base of the villus. Sucrase expression was further increased by prolonged food deprivation, whereas enzyme activity as well as the amount of SI mRNA dropped to reach the low level found in control sucklings when 48 h-starved pups were refed by returning them to their dams. During the refeeding period, the enterocytes that were committed to produce SI by starvation continued to express the enzyme while migrating up the villi. However, the new epithelial cells arising from the crypts no longer synthesized the disaccharidase. The starvation-evoked appearance of SI was preceded by a transient burst of expression of the protooncogene c-fos, an event that may be correlated to the ontogenic rise of c-fos mRNA observed before weaning. However, in contrast to the normal weaning condition, SI induction by starvation occurred without obvious increase of epithelial cell proliferation and turnover. During the starvation and refeeding period, patterns of sucrase activity and SI mRNA paralleled the serum level of glucocorticoids.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1994

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

Author

Duluc I, Jost B, and Freund JN

Subjects

Age Factors, Animals, Animals, Newborn, Animals, Suckling, Gene Expression Regulation, Enzymologic, Genes, In Situ Hybridization, Intestines anatomy & histology, Lactase, Polyribosomes metabolism, RNA, Messenger genetics, Rats, Rats, Wistar, Transcription, Genetic, Intestines enzymology, beta-Galactosidase genetics

Abstract

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.

Published

1993

19. Gradient expression of Cdx along the rat intestine throughout postnatal development.

Author

Freund JN, Boukamel R, and Benazzouz A

Subjects

Amino Acid Sequence, Animals, Animals, Newborn, Animals, Suckling, Base Sequence, Biomarkers, Cell Differentiation, Molecular Sequence Data, Rats, Rats, Sprague-Dawley, Tissue Distribution, Aging, Genes, Homeobox, Intestines chemistry, RNA, Messenger analysis

Abstract

Rat genomic DNA was isolated by homology with Cdx1, a murine homeogene selectively expressed in intestinal cells of endodermal origin. Southern blot analysis indicated that the rat genome contains a single or a small number of closely related Cdx gene(s). A major 1.7 kb Cdx mRNA was detected in neonate, suckling and adult rats whereas a 6.5 kb mRNA was restricted to sucklings and adults. Both transcripts showed decreasing concentration from the colon towards the proximal part of the small intestine. No obvious correlation could be established with the patterns of expression of transcripts corresponding to markers of cell proliferation and cell differentiation during postnatal development.

Published

1992

20. Sequence of the precursor of intestinal lactase-phlorizin hydrolase from fetal rat.

Author

Duluc I, Boukamel R, Mantei N, Semenza G, Raul F, and Freund JN

Subjects

Amino Acid Sequence, Animals, Base Sequence, Fetus enzymology, Intestines embryology, Lactase, Molecular Sequence Data, Protein Sorting Signals genetics, Rats, Sequence Homology, Nucleic Acid, beta-Galactosidase metabolism, Intestines enzymology, Lactase-Phlorizin Hydrolase genetics, Protein Precursors genetics

Abstract

The nucleotide sequence of the cDNA corresponding to the precursor of fetal rat intestinal lactase-phlorizin hydrolase was determined. The precursor consists of four tandemly organized homologous domains flanked by a signal peptide in the N-terminal region and by a transmembrane peptide in the C-terminal region.

Published

1991

21. Type IV collagen mRNA accumulates in the mesenchymal compartment at early stages of murine developing intestine.

Author

Simon-Assmann P, Bouziges F, Freund JN, Perrin-Schmitt F, and Kedinger M

Subjects

Aging, Animals, Blotting, Northern, DNA Probes, Intestines growth & development, Macromolecular Substances, Mice, Mice, Inbred Strains, Morphogenesis, Muscle Development, Muscle, Smooth growth & development, Nucleic Acid Hybridization, RNA, Messenger metabolism, Collagen genetics, Intestines embryology, Muscle, Smooth embryology, RNA, Messenger genetics

Abstract

The expression of type IV collagen mRNA during mouse intestinal morphogenesis was examined by in situ hybridization using a cDNA probe corresponding to mRNA for alpha 1 (IV) chain. Type IV collagen mRNA is detected in the embryonic mesenchymal cells at early stages of development (12 d of gestation). A segregation of mesenchymal cells expressing high levels of type IV collagen mRNA in close vicinity of the epithelium occurs just before villus formation. During villus outgrowth, type IV collagen mRNA, still confined to mesenchyme-derived tissues, is progressively restricted to the mucosal connective tissue (the lamina propria) and to a lesser extent to the muscular layers. In the adult, the amount of messenger is quite low as compared to the level found in the developing intestine and the in situ hybridization signal, indistinguishable from the background, is uniform throughout the whole intestinal wall. At all developmental stages no detectable specific hybridization signal is virtually observed over the epithelium cell layer. These results show that high amounts of the type IV collagen messenger are detected during phases of intensive morphogenetic events. Furthermore, they reinforce the notion already gained previously (Simon-Assmann et al. 1988) that the mesenchymal compartment is the principal endogenous source of type IV collagen. They also indicate that the continuous migration of epithelial cells along the basement membrane of intestinal villi in the mature organ is not accompanied by a significant remodeling of the collagen IV network.

Published

1990

22. The gene for intestinal sucrase-isomaltase as member of a gene family.

Author

Freund JN, Heilig R, Lehner N, and Raul F

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cosmids, DNA genetics, Epithelium enzymology, Humans, Intestines analysis, Molecular Sequence Data, Nucleic Acid Hybridization, Oligonucleotides genetics, RNA, Messenger analysis, RNA, Messenger genetics, Rats, Sequence Homology, Nucleic Acid, Intestines enzymology, Multienzyme Complexes genetics, Multigene Family, Sucrase-Isomaltase Complex genetics

Abstract

The synthetic oligonucleotide MF59, derived from the rabbit sucrase-isomaltase cDNA sequence, hybridizes to two classes of mRNA in the rat and pig intestinal epithelium as well as to various restriction fragments within the human genome. These results strongly support the hypothesis that the sucrase-isomaltase gene belongs to a gene family. The cloning of a human cosmid containing such a sequence similar to MF59 has allowed us to identify a new member of this gene family which detects a single 6.5 Kb intestinal mRNA in the adult pig.

Published

1989

23. Discrepancy between the intestinal lactase enzymatic activity and mRNA accumulation in sucklings and adults. Effect of starvation and thyroxine treatment.

Author

Freund JN, Duluc I, and Raul F

Subjects

Age Factors, Animals, Animals, Suckling, Fasting, Gene Expression Regulation drug effects, Nucleic Acid Hybridization, Oligonucleotides metabolism, Rats, Swine, Thyroxine administration & dosage, beta-Galactosidase genetics, Galactosidases metabolism, Intestines enzymology, RNA, Messenger metabolism, beta-Galactosidase metabolism

Abstract

The accumulation profile of intestinal lactase mRNA was investigated in suckling and adult rats and pigs. We found no correlation between the lactase enzymatic activity and the accumulation of the messenger at both developmental stages. Modulation of lactase activity by starvation or thyroxine treatment had no effect on lactase mRNA accumulation in the rat intestine. These results confirm that thyroxine modulates lactase expression essentially at the post-transcriptional level.

Published

1989