Intestinal brush border revisited.

Cet article de synthese fait le point sur les aspects moleculaires de la structure, des biosyntheses et des fonctions de la bordure en brosse intestinale humaine et sur son cytosquelette

[1]  G. Semenza Anchoring and biosynthesis of stalked brush border membrane proteins: glycosidases and peptidases of enterocytes and renal tubuli. , 1986, Annual review of cell biology.

[2]  G. Bruce,et al.  The breakdown of gliadin peptides by rat intestinal brush-borders in vitro , 1984 .

[3]  P. Milla,et al.  DEFECTIVE JEJUNAL BRUSH-BORDER Na+/H+ EXCHANGE: A CAUSE OF CONGENITAL SECRETORY DIARRHOEA , 1985, The Lancet.

[4]  F. Raafat,et al.  Congenital microvillous atrophy: specific diagnostic features. , 1985, Archives of disease in childhood.

[5]  T. Oda,et al.  Molecular Structure and Biochemical Function of the Microvilli Membrane of Intestinal Epithelial Cells with Special Emphasis on the Elementary Particles , 1965 .

[6]  R. G. Faust,et al.  Intestinal microvilli: responses to feeding and fasting. , 1980, European journal of cell biology.

[7]  C. Krishnan,et al.  Pathogenesis of mucosal injury in the blind loop syndrome: Release of disaccharidases from brush border membranes by extracts of bacteria obtained from intestinal blind loops in rats , 1978 .

[8]  D. Alpers,et al.  The possible role of pancreatic proteases in the turnover of intestinal brush border proteins. , 1975, Biochimica et biophysica acta.

[9]  B. Peerce,et al.  Conformational changes in the intestinal brush border sodium-glucose cotransporter labeled with fluorescein isothiocyanate. , 1984, Proceedings of the National Academy of Sciences of the United States of America.

[10]  H. Ikezawa,et al.  Alkaline phosphodiesterase I release from eucaryotic plasma membranes by phosphatidylinositol-specific phospholipase C. II. The release from brush border membranes of porcine intestine. , 1986, Toxicon : official journal of the International Society on Toxinology.

[11]  E. Cutz,et al.  Familial enteropathy: A syndrome of protracted diarrhea from birth, failure to thrive, and hypoplastic villus atrophy , 1978 .

[12]  C. Nordström,et al.  Release of enteropeptidase and other brush-border enzymes from the small intestinal wall in the rat. , 1972, Biochimica et biophysica acta.

[13]  E. Wright,et al.  Intestinal transport of amino acids and sugars: advances using membrane vesicles. , 1984, Annual review of physiology.

[14]  D. Alpers,et al.  Properties of human intestinal glucoamylase. , 1973, Biochimica et biophysica acta.

[15]  P. Aronson,et al.  Membrane distribution of sodium-hydrogen and chloride-bicarbonate exchangers in crypt and villus cell membranes from rabbit ileum. , 1988, The Journal of clinical investigation.

[16]  A. Magee,et al.  Further studies on the subunit structure and oligosaccharide moiety of human enterokinase. , 1981, Clinica chimica acta; international journal of clinical chemistry.

[17]  G. van Meer How epithelia grease their microvilli. , 1988, Trends in biochemical sciences.

[18]  E. Danielsen,et al.  Biosynthesis of intestinal microvillar proteins , 1984, FEBS letters.

[19]  M. Mooseker,et al.  Role of myosin in terminal web contraction in isolated intestinal epithelial brush borders , 1985, The Journal of cell biology.

[20]  H. D. de Jonge,et al.  (Dys)regulation of epithelial chloride channels. , 1989, Biochemical Society transactions.

[21]  W. Stremmel,et al.  Uptake of fatty acids by jejunal mucosal cells is mediated by a fatty acid binding membrane protein. , 1988, The Journal of clinical investigation.

[22]  H. Lau Physicochemical characterization of human intestinal lactase. , 1987, The Biochemical journal.

[23]  M. Mooseker Organization, chemistry, and assembly of the cytoskeletal apparatus of the intestinal brush border. , 1985, Annual review of cell biology.

[24]  S. Ito Structure and function of the glycocalyx. , 1969, Federation proceedings.

[25]  E. G. Erdös,et al.  Angiotensin I converting enzyme (kininase II) of the brush border of human and swine intestine. , 1980, Biochemical pharmacology.

[26]  E. Boedeker,et al.  Adherence of an enterotoxigenic Escherichia coli strain, serotype O78:H11, to purified human intestinal brush borders , 1983, Infection and immunity.

[27]  R. Oriol,et al.  Relationship between the secretor status and the expression of ABH blood group antigenic determinants in human intestinal brush-border membrane hydrolases. , 1983, Biochimica et biophysica acta.

[28]  J. Gavaler,et al.  Does oral enzyme replacement therapy reverse intestinal lactose malabsorption? , 1987, The American journal of gastroenterology.

[29]  H. Hauri,et al.  Purification and biosynthesis of the brush-border hydrolases of the human small intestine , 1986 .

[30]  W. Olsen,et al.  A study of the molecular pathology of sucrase-isomaltase deficiency. A defect in the intracellular processing of the enzyme. , 1987, The New England journal of medicine.

[31]  H. Skovbjerg Immunoelectrophoretic studies on human small intestinal brush border proteins--the longitudinal distribution of peptidases and disaccharidases. , 1981, Clinica chimica acta; international journal of clinical chemistry.

[32]  H. Sjöström,et al.  Structure of microvillar enzymes in different phases of their life cycles. , 1983, Ciba Foundation symposium.

[33]  R. Gräsbeck,et al.  A simplified technique to isolate the porcine and human ileal intrinsic factor receptors and studies on their subunit structures. , 1979, Biochemical and biophysical research communications.

[34]  R. Franks,et al.  Subcellular localization of enterokinase in human duodenal mucosa. , 1977, Clinical science and molecular medicine.

[35]  R. Crane The restrictions on possible mechanisms of intestinal transport of sugars , 1961 .

[36]  V. Gerke,et al.  Identity of p36K phosphorylated upon Rous sarcoma virus transformation with a protein purified from brush borders; calcium‐dependent binding to non‐erythroid spectrin and F‐actin. , 1984, The EMBO journal.

[37]  H. Hauri,et al.  Expression and intracellular transport of microvillus membrane hydrolases in human intestinal epithelial cells , 1985, The Journal of cell biology.

[38]  E. Wright,et al.  Expression cloning and cDNA sequencing of the Na+/glucose co-transporter , 1987, Nature.

[39]  G. Semenza,et al.  A modified procedure for the rapid preparation of efficiently transporting vesicles from small intestinal brush border membranes. Their use in investigating some properties of D-glucose and choline transport systems. , 1978, Biochimica et biophysica acta.

[40]  J. Madara,et al.  Effects of cytochalasin D on occluding junctions of intestinal absorptive cells: further evidence that the cytoskeleton may influence paracellular permeability and junctional charge selectivity , 1986, The Journal of cell biology.

[41]  T. Komoda,et al.  The function of carbohydrate moiety and alteration of carbohydrate composition in human alkaline phosphatase isoenzymes. , 1978, Biochimica et biophysica acta.

[42]  W. Schubert,et al.  Primary bile acid malabsorption: defective in vitro ileal active bile acid transport. , 1982, Gastroenterology.

[43]  M. Yoshioka,et al.  Identification and characterization of brush-border membrane-bound neutral metalloendopeptidases from rat small intestine. , 1986, Gastroenterology.

[44]  N. Mackenzie Fc receptor-mediated transport of immunoglobulin across the intestinal epithelium of the neonatal rodent. , 1984, Immunology today.

[45]  F. Ghishan,et al.  Characterization of calcium uptake by brush border membrane vesicles of human small intestine. , 1989, Gastroenterology.

[46]  M. Sleisenger,et al.  Comparison of brush border membrane glycoproteins and glycoenzymes in the proximal and distal rat small intestine. , 1986, Biochimica et biophysica acta.

[47]  R. Carman,et al.  Clostridial toxins active locally in the gastrointestinal tract. , 1985, Ciba Foundation symposium.

[48]  R. Taguchi,et al.  Solubilization of trehalase from rabbit renal and intestinal brush‐border membranes by a phosphatidylinositol‐specific phospholipase C , 1986, FEBS letters.

[49]  H. Hauri,et al.  Biochemical mechanisms in congenital enzyme deficiencies of the small intestine. , 1981, Clinics in gastroenterology.

[50]  H. Murer Transport of sulfate and phosphate in small intestine and renal proximal tubule: methods and basic properties. , 1988, Comparative biochemistry and physiology. A, Comparative physiology.

[51]  H. Hauri,et al.  N-benzoyl-L-tyrosyl-p-aminobenzoic acid hydrolase: a metalloendopeptidase of the human intestinal microvillus membrane which degrades biologically active peptides. , 1988, Archives of biochemistry and biophysics.

[52]  L. Turnberg,et al.  Bacterial toxins and diarrhoea. , 1986, Clinics in gastroenterology.

[53]  J. Hanoune,et al.  Molecular cloning and nucleotide sequence of rat kidney gamma-glutamyl transpeptidase cDNA. , 1986, Proceedings of the National Academy of Sciences of the United States of America.

[54]  R. Holmes The intestinal brush border , 1971, Gut.

[55]  C. Arvanitakis,et al.  Giardiasis: clinical spectrum and functional--structural abnormalities of the small intestinal mucosa. , 1979, Gastroenterology.

[56]  M. Ferguson,et al.  Covalently attached phosphatidylinositol as a hydrophobic anchor for membrane proteins , 1986 .

[57]  M. K. Brenner Brush border membranes. , 1984, Ciba Foundation symposium.

[58]  D. Maestracci Enzymic solubilization of the human intestinal brush border membrane enzymes. , 1975, Biochimica et biophysica acta.

[59]  K. A. McGill,et al.  Proteins of the kidney microvillar membrane. Reconstitution of endopeptidase in liposomes shows that it is a short-stalked protein. , 1983, The Biochemical journal.

[60]  A B West,et al.  Localization of villin, a cytoskeletal protein specific to microvilli, in human ileum and colon and in colonic neoplasms. , 1988, Gastroenterology.

[61]  A. Freiburghaus,et al.  A micromethod for separation and identification of digestive enzymes in brush border membrane fragments of single human intestinal biopsies. , 1978, Clinica chimica acta; international journal of clinical chemistry.

[62]  R. Stidwill,et al.  The brush border cytoskeleton is not static: in vivo turnover of proteins , 1984, The Journal of cell biology.

[63]  B. Peerce,et al.  Identification and conformational changes of the intestinal proline carrier. , 1984, The Journal of biological chemistry.

[64]  E. Wright,et al.  Expression of size-selected mRNA encoding the intestinal Na/glucose cotransporter in Xenopus laevis oocytes. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[65]  J. Barnard,et al.  Taurocholate transport by human ileal brush border membrane vesicles. , 1987, Gastroenterology.

[66]  I. Booth,et al.  Glucose-galactose malabsorption: demonstration of specific jejunal brush border membrane defect. , 1988, Gut.

[67]  S. Maroux,et al.  Purification and characterization of an aminopeptidase A from hog intestinal brush-border membrane. , 2005, European journal of biochemistry.

[68]  T. Peters,et al.  Analytical subcellular fractionation of jejunal biopsy specimens: enzyme activities, organelle pathology and response to gluten withdrawal in patients with coeliac disease. , 1978, Clinical science and molecular medicine.

[69]  H. Neurath,et al.  Bovine enterokinase. Purification, specificity, and some molecular properties. , 1977, Biochemistry.

[70]  Misch Dw,et al.  Intestinal microvilli: responses to feeding and fasting. , 1980 .

[71]  J. Robertson,et al.  In vivo evidence that cobalamin is absorbed by receptor-mediated endocytosis in the mouse. , 1985, Gastroenterology.

[72]  J. Gorvel,et al.  Further characterization of an early expressed glycoprotein of the rabbit small intestinal brush border. Its interaction with some hydrolases. , 1986, European journal of biochemistry.

[73]  D. Chescoe,et al.  Early biochemical responses of the small intestine of coeliac patients to wheat gluten. , 1989, Gut.

[74]  H. Naim,et al.  Biosynthesis of N-benzoyl-L-tyrosyl-p-aminobenzoic acid hydrolase: disulfide-linked dimers are formed at the site of synthesis in the rough endoplasmic reticulum. , 1988, Archives of biochemistry and biophysics.

[75]  A. Quaroni Use of monoclonal antibodies in the study of intestinal structure and function. , 1983, Ciba Foundation symposium.

[76]  F. Ghishan,et al.  Phosphate transport in human jejunal brush-border membrane vesicles. , 1989, Gastroenterology.

[77]  G. Semenza,et al.  Complete primary structure of human and rabbit lactase‐phlorizin hydrolase: implications for biosynthesis, membrane anchoring and evolution of the enzyme. , 1988, The EMBO journal.

[78]  N. Abumrad,et al.  Na+/H+ exchange by brush border membrane vesicles of human ileal small intestine. , 1988, Gastroenterology.

[79]  W. Heizer,et al.  Human intestinal brush border peptidases. , 1985, Gastroenterology.

[80]  W. Cooke,et al.  Enzymatic and morphometric evidence for Crohn's disease as a diffuse lesion of the gastrointestinal tract. , 1977, Gut.

[81]  R. Crane,et al.  Subcellular localization of enterokinase in human small intestine. , 1974, Biochimica et biophysica acta.

[82]  J. Bataille,et al.  Longitudinal study of the human intestinal brush border membrane proteins. Distribution of the main disaccharidases and peptidases. , 1983, Gastroenterology.

[83]  C. Pothoulakis,et al.  Clostridium difficile toxin A perturbs cytoskeletal structure and tight junction permeability of cultured human intestinal epithelial monolayers. , 1988, The Journal of clinical investigation.

[84]  H. Jonge,et al.  The localization of guanylate cyclase in rat small intestinal epithelium , 1975, FEBS letters.

[85]  B. Peerce,et al.  Evidence for tyrosyl residues at the Na+ site on the intestinal Na+/glucose cotransporter. , 1985, The Journal of biological chemistry.

[86]  H. Hauri,et al.  Sucrase-isomaltase deficiency in humans. Different mutations disrupt intracellular transport, processing, and function of an intestinal brush border enzyme. , 1988, The Journal of clinical investigation.

[87]  H. Sjöström,et al.  Immunoelectrophoretic studies on human small intestinal brush border proteins. A quantitative study of brush border enzymes from single small intestinal biopsies. , 1979, Clinica chimica acta; international journal of clinical chemistry.

[88]  G. Andria,et al.  Enzymatic Activity Hydrolyzing γ-Glutamyl-β-Naphthylamide in Human Intestine during Adult and Fetal Life , 1973, Pediatric Research.

[89]  Y. Nishi,et al.  Purification and characterization of amphiphilic trehalase from rabbit small intestine. , 1986, Biochimica et biophysica acta.

[90]  H. D. de Jonge The localization of guanylate cyclase in rat small intestinal epithelium , 1975, FEBS letters.

[91]  J. Gorvel,et al.  Molecular organization of the intestinal brush border. , 1988, Biochimie.

[92]  R. Crane,et al.  Purification of the human intestinal brush border membrane. , 1973, Biochimica et biophysica acta.

[93]  S. Povey,et al.  Isolation of a cDNA probe for a human jejunal brush-border hydrolase, sucrase-isomaltase, and assignment of the gene locus to chromosome 3. , 1987, Gene.

[94]  A. Reisenauer,et al.  Human jejunal brush border folate conjugase. Characteristics and inhibition by salicylazosulfapyridine. , 1981, Biochimica et biophysica acta.

[95]  N. Kretchmer,et al.  Participation of Pancreatic Enzymes in the Degradation of Intestinal Sucrase‐Isomaltase , 1985, Journal of pediatric gastroenterology and nutrition.

[96]  A. Kenny,et al.  Microvillar endopeptidase, an enzyme with special topological features and a wide distribution. , 1983, Ciba Foundation symposium.

[97]  S. Lohmann,et al.  Mechanisms by which cyclic nucleotides and other intracellular mediators regulate secretion. , 1985, Ciba Foundation symposium.

[98]  R. Donaldson,et al.  Effect of divalent cations and pH on intrinsic factor-mediated attachment of vitamin B 12 to intestinal microvillous membranes. , 1972, The Journal of clinical investigation.

[99]  R. Crane,et al.  The digestive function of the epithelium of the small intestine. II. Localization of disaccharide hydrolysis in the isolated brush border portion of intestinal epithelial cells. , 1961, Biochimica et biophysica acta.

[100]  J. Goldstein,et al.  Effect of secreted Bacteroides proteases on human intestinal brush border hydrolases. , 1980, The Journal of clinical investigation.

[101]  J. Walker-Smith,et al.  Biochemical Abnormality in Brush Border Membrane Protein of a Patient with Congenital Microvillus Atrophy , 1985, Journal of pediatric gastroenterology and nutrition.

[102]  A. Kuksis,et al.  Isolation of purified brush-border membranes from rat jejunum containing a Ca2+-independent phospholipase A2 activity. , 1987, Biochimica et biophysica acta.

[103]  I. Forgacs Oncogenes and gastrointestinal cancer. , 1988, Gut.

[104]  R. Crane,et al.  Studies on the me hanism of intestinal absorption of sugars. IV. Localization of galactose concenhrations within the intestinal wall during active transport, in vitro. , 1960, Biochimica et biophysica acta.

[105]  M. Sleisenger,et al.  An electron microscopic study of adult celiac disease. , 1966, Laboratory investigation; a journal of technical methods and pathology.

[106]  K. Hirano,et al.  Characterization of tissue-specific isozyme of alkaline phosphatase from human placenta and intestine. , 1977, Chemical & pharmaceutical bulletin.

[107]  K. Isselbacher,et al.  The turnover of disaccharidases and brush border proteins in rat intestine. , 1971, Biochimica et biophysica acta.

[108]  U. Hopfer,et al.  A distinct D-fructose transport system in isolated brush border membrane. , 1974, Biochimica et biophysica acta.

[109]  G. Galand Purification and characterization of kidney and intestinal brush-border membrane trehalases from the rabbit. , 1984, Biochimica et biophysica acta.

[110]  C. Slaughter,et al.  Nucleotide and amino acid sequences of human intestinal alkaline phosphatase: close homology to placental alkaline phosphatase. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[111]  D. Alpers,et al.  Blood group antigenicity of purified human intestinal disaccharidases. , 1973, The Journal of biological chemistry.

[112]  H. Sjöström,et al.  Purification and characterisation of amphiphilic lactase/phlorizin hydrolase from human small intestine. , 1981, European journal of biochemistry.

[113]  R. Freter,et al.  Adhesive properties of Vibrio cholerae: nature of the interaction with isolated rabbit brush border membranes and human erythrocytes , 1976, Infection and immunity.

[114]  B. Seetharam,et al.  Development of intestinal brush border membrane proteins in the rat. , 1977, Biochimica et biophysica acta.

[115]  K. Isselbacher,et al.  Glucose transport in isolated brush border membrane from rat small intestine. , 1973, The Journal of biological chemistry.

[116]  Jonathan A. Cooper,et al.  The protein-tyrosine kinase substrate, p81, is homologous to a chicken microvillar core protein , 1986, The Journal of cell biology.

[117]  G. Mcallister,et al.  Structural and biochemical differentiation of the mammalian small intestine during foetal development. , 1984, Journal of cell science.

[118]  A. Meister,et al.  Subunit structure and isozymic forms of gamma-glutamyl transpeptidase. , 1976, Proceedings of the National Academy of Sciences of the United States of America.

[119]  M. G. Low,et al.  Biochemistry of the glycosyl-phosphatidylinositol membrane protein anchors. , 1987, The Biochemical journal.

[120]  Kenny Aj,et al.  Microvillar endopeptidase, an enzyme with special topological features and a wide distribution. , 1983 .

[121]  G. Galand,et al.  The influence of hydrocortisone on the synthesis and turnover of microvillous membrane glycoproteins in suckling rat intestine. , 1976, Canadian journal of biochemistry.

[122]  R. Crane,et al.  Proteins and glycoproteins of the human intestinal brush border membrane. , 1973, Biochimica et biophysica acta.