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Pediatric Pathology Volume 13, 1993 - Issue 1
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Original Article

Contemporary Approaches Toward Understanding the Pathogenesis of Hirschsprung Disease

Raj P. Kapur Departments of Laboratories, Children's Hospital and Medical Center and Department of Pathology, University of Washington, Seattle, Washington, 98195
Pages 83-100 | Received 28 Jul 1992, Accepted 15 Aug 1992, Published online: 09 Jul 2009

References

  • Cass D. Hirschsprung's disease: an historical review. Prog Pediatr Surg 1986; 20: 199–214
  • Meier-Ruge W. Hirschsprung disease: Its aetiology, pathogenesis, and differential diagnosis. Curr Top Pathol 1974; 59: 131–79
  • Foster P, Cowan G, Wrenn E L. Twenty-five years experience with Hirschsprung's disease. J Pediatr Surg 1990; 25: 531–4
  • Passarge E. Genetics of Hirschsprung's disease. Clin Gastroenterol 1973; 2: 507–13
  • Bodian M, Carter C O. A family study of Hirschsprung disease. Ann Hum Genet 1963; 26: 261–77
  • Spouge D, Baird P A. Hirschsprung disease in a large birth cohort. Teratology 1985; 32: 171–7
  • Cass D. Aganglionosis: Associated anomalies. J Paediatr Child Health 1990; 26: 351–4
  • Schiller M, Levy R, Shawa R A, Abu-Dalu K, Gorenstein A, Katz S. Familial Hirschsprung's disease—a report of 22 affected siblings in four families. J Pediatr Surg 1990; 25: 322–5
  • Stannard V A, Fowler C, Robinson L, Besner G, Glick P L, Allen J E, Jewett T C, Cooney D R. Familial Hirschsprung's disease: Report of autosomal dominant and probable autosomal recessive X-linked kindreds. J Pediatr Surg 1990; 26: 591–4
  • Garver K L, Law J C, Garver G. Hirscshprung disease: A genetic study. Clin Genet 1985; 28: 503–8
  • Badner J A, Sieber W K, Garver K L, Chakravarti A. A genetic study of Hirschsprung disease. Am J Hum Genet 1990; 46: 568–80
  • Lane P W. Association of megacolon with two recessive spotting genes in the mouse. J Hered 1966; 57: 29–31
  • McCabe L, Griffin L D, Kinzer A, Chandler A, Beckwith J B, McCabe R B. Overo lethal white foal syndrome: Equine model of aganglionic megacolon (Hirschsprung disease). Am J Med Genet 1990; 36: 336–40
  • Kaplan P, deChaderevian J-P. Piebaldism-Waardenburg syndrome: Histopathologic evidence for a neural crest syndrome. Am J Med Genet 1988; 31: 679–88
  • Omenn G S, McKusick V A. The association of Waardenburg syndrome and Hirschsprung megacolon. Am J Med Genet 1979; 3: 217–23
  • Lane P W, Liu H M. Association of megacolon with a new dominant spotting gene in the mouse. J Hered 1984; 75: 435–9
  • Ikadai H, Fujita H, Agimatsu Y, Imamachi T. Observation of congenital aganglionosis rat (Hirschsprung rat) and its genetical analyses. Cong Anomalies 1979; 19: 31–6
  • Yntema C L, Hammond W S. The origin of intrinsic ganglia of trunk viscera from vagal neural crest in the chick embryo. J Comp Neurol 1954; 101: 515–41
  • Yntema C L, Hammond W S. Experiments on the origin and development of the sacral autonomic nerves in the chick embryo. J Exp Zool 1955; 129: 375–414
  • Le Douarin N M, Teillet M A. The migration of neural crest cells to the wall of the digestive tract in avian embryo. J Embryol Exp Morphol 1955; 30: 31–48
  • Cochard P, Le Douarin N M. Development of the intrinsic innervation of the gut. Scand J Gastroenterol 1982; 17: 1–14
  • Epperlein H H, Krotoski D, Halfter W, Frey A. Origin and distribution of enteric neurons in Xenopus. Anat Embryol 1990; 182: 53–67
  • Tucker G C, Ciment G, Thiery J P. Pathways of avian neural crest cell migration in the developing gut. Dev Biol 1986; 116: 439–50
  • Pomeranz H D, Gershon M D. Colonization of the avian hindgut by cells derived from the sacral neural crest. Dev Biol 1990; 137: 378–94
  • Pomeranz H D, Rothman T P, Gershon M D. Colonization of the post-umbilical bowel by cells derived from the sacral neural crest: Direct tracing of cell migration using an intercalating probe and a replication-deficient retrovirus. Development 1991; 111: 647–55
  • Serbedzija G N, Burgan S, Fraser S E, Bronner-Fraser M. Vital dye labelling demonstrates a sacral neural crest contribution to the enteric nervous system of chick and mouse embryos. Development 1991; 111: 857–66
  • Rothman R P, Gershon M D. Phenotypic expression in the developing murine enteric nervous system. J Neurosci 1982; 2: 381–93
  • Coulter H D, Gershon M D, Routhman T P. Neural and glial phenotypic expression by neural crest cells in culture: Effects of control and presumptive aganglionic bowel from Is/Is mice. J Neurobiol 1988; 19: 507–31
  • Nishijima E, Meijers H, Tibboel D, Luider T M, Peters-van der Sanden M MJ, van der Kamp A WM, Molenaar J C. Formation and malformation of the enteric nervous system. J Pediatr Surg 1990; 25: 627–31
  • Rothman T P, Gershon M D. Regionally defective colonization of the terminal bowel by the precursors of enteric neurons in lethal spotted mutant mice. Neuroscience 1984; 12: 1293–311
  • Baetge G, Gershon M D. Transient catecholaminergic (TC) cells in the vagus nerves and bowel of fetal mice: Relationship to the development of enteric neurons. Dev Biol 1988; 132: 189–211
  • Otis E M, Brent R. Equivalent ages in mouse and human embryos. Anat Res 1954; 120: 33–63
  • Baetge G, Schneider K A, Gershon M D. Development and persistence of catecholaminergic neurons in cultured explants of fetal murine vagus nerves and bowel. Development 1990; 110: 689–701
  • Baetge G, Pintar J E, Gershon M D. Transiently catecholaminergic (TC) cells in the bowel of fetal rats and mice: Precursors of non-catecholaminergic enteric neurons. Dev Biol 1990; 141: 353–80
  • Jonakait G M, Wolf J, Cochard P, Goldstein M, Black I B. Selective loss of noradrenergic phenotypic characters in neuroblasts of the rat embryo. Proc Natl Acad Sci USA 1979; 76: 4683–6
  • Vaos G C, Lister J. Anatomic evidence for coexistence of cholinergic and adrenergic neurons in the developing human intestine. New aspects in the pathogenesis of developmental neuronal anomalies 1988; 23: 231–6
  • Teitelman G, Baker H, Joh T H, Reis D J. Appearance of catecholamine-synthesizing enzymes during development of rat sympathetic nervous system: Possible role of tissue environment. Proc Natl Acad Sci USA 1979; 76: 506–13
  • Webster W. Embryogenesis of the enteric ganglia in normal mice and in mice that develop congenital aganglionic megacolon. J Embryol Exp Morphol 1973; 30: 573–85
  • Kapur R P, Yost C, Palmiter R D. A transgenic model for studying development of the enteric nervous system in normal and aganglionic mice. Development, in press
  • Cochard P, Goldstein M, Black I B. Ontogenic appearance and disappearance of tyrosine hydroxylase and catecholamines in the rat embryo. Proc Natl Acad Sci USA 1978; 75: 2986–90
  • Gershon M D, Rothman T P, Joh T H, Teitelman G N. Transient and differential expression of aspects of the catecholamnergic phenotype during development of the fetal bowel in rats and mice. J Neurosci 1984; 4: 2269–80
  • Mercer E M, Hoyle G W, Kapur R P, Brinster R L, Palmiter R D. The dopamine β-hydroxylase gene promoter directs expression of Ecoli lacZ to sympathetic and other neurons in adult transgenic mice. Neuron 1991; 7: 703–16
  • Kapur R P, Hoyle G W, Mercer E M, Brinster R L, Palmiter R D. Some neuronal cell populations express human dopamine β-hydroxylase-lacZ transgenes transiently during embryonic development. Neuron 1991; 7: 717–27
  • Bolande R P. Animal model of human disease: Aganglionic megacolon in piebald and spotted mutant mouse strains. Am J Pathol 1975; 79: 189–92
  • Fujimoto T. Natural history and pathophysiology of enterocolitis in the piebald lethal mouse model of Hirschsprung's disease. J Pediatr Surg 1988; 23: 237–42
  • Payette R F, Tennyson V M, Pham T D, Mawe G M, Pomeranz H D, Rothman T P, Gershon M D. Origin and morphology of nerve fibers in the aganglionic colon of the lethal spotted (Is/Is) mutant mouse. J Comp Neurol 1987; 257: 237–52
  • Tennyson V M, Pham T D, Rothman T P, Gershon M D. Abnormalities of smooth muscle, basal lamina, and nerves in the aganglionic segments of the bowel of lethal spotted mutant mice. Anat Rec 1986; 215: 267–81
  • Webster W. Aganglionic megacolon in piebald-lethal mice. Arch Pathol 1974; 97: 111–17
  • Bolande R P, Towler W F. Ultrastructural and histochemical studies of murine megacolon. Am J Pathol 1972; 69: 139–62
  • Garrett J R, Howard E R, Nixon H H. Autonomic nerves in rectum and colon in Hirschsprung's disease. Arch Dis Child 1969; 44: 406–17
  • Weinberg A G. Hirschsprung's disease—a pathologist's view. Perspective in Pediatric Pathology, H S Rosenberg, R P Bolande. Year Book Medical, Chicago 1975; 207–39
  • Bill A H, Chapman N D. The enterocolitis of Hirschsprung's disease. Am J Surg 1962; 103: 70–4
  • Vaos G C, Lister J. Elastic fibers in musculature of rectosigmoid colon: Normal findings in children and changes in Hirschsprung's disease—a preliminary report. J Pediatr Surg 1987; 22: 252–6
  • Jacobs-Cohen R J, Payette R F, Gershon M D, Rothman T P. Inability of neural crest cells to colonize the presumptive aganglionic bowel of Is/Is mutant mice: Requirement for a permissive microenvironment. J Comp Neurol 1987; 255: 425–38
  • Payette R F, Tennyson V M, Pomeranz H D, Pham T D, Rothman T P, Gershon M D. Accumulation of components of basal laminae: Association with the failure of neural crest cells to colonize the presumptive aganglionic bowel of Is/Is mutant mice. Dev Biol 1988; 125: 341–60
  • Parikh D H, Tam P K, Van Velzen D, Edgar D. Abnormalities in the distribution of laminin and collagen type IV in Hirschsprung's disease. Gastroenterology 1992; 102: 1236–41
  • Mallory S B, Wiener E, Nordlund J J. Waardenburg's syndrome with Hirschsprung's disease: A neural crest defect. Pediatr Dermatol 1986; 3: 119–24
  • Rarey K E, Davis L E. Inner ear anomalies in Waardenburg's syndrome associated with Hirschsprung's disease. Int J Pediatr Otorhinolaryngol 1984; 8: 181–9
  • Russell E S. Hereditary anemias of the mouse: A review for geneticists. Adv Genet 1979; 20: 357–458
  • Lyon M F, Searle A G. Genetic variants and strains of the laboratory mouse. 2nd ed. Oxford University Press, Oxford 1989
  • Russell E S. Hereditary anemias of the mouse; a review for geneticists. Adv Genet 1979; 20: 357–459
  • Geissler E N, Ryan M A, Housman D E. The dominant white spotting (W) locus of the mouse encodes the c-kit protooncogene. Cell 1988; 55: 185–92
  • Witte O N. Steel locus defines new multipotent growth factor. Cell 1990; 63: 5–6
  • Pawson T, Bernstein A. Receptor tyrosine kinases: Genetic evidence for their role in Drosophila and mouse development. Trends Genet 1990; 6: 350–6
  • Hanks S K, Quinn A M, Hunter T. The protein kinase family: Conserved features and deduced phyogeny of the catalytic domains. Science 1938; 241: 42–52
  • Ullrich A, Schlessinger J. Signal transduction by receptors with tyrosine kinase activity. Cell 1990; 61: 203–12
  • Chao M V. Growth factor signaling: Where is the specificity. Cell 1992; 68: 995–7
  • Motro B, van der Kooy D, Rossant J, Reith A, Berstein A. Contiguous patterns of c-kit and steel expression: Analysis of mutations at W and Sl loci. Development 1991; 113: 1207–21
  • Keshet E, Lyman S D, Willams D E, Anderson D M, Jenkins N A, Copeland N G, Parada L F. Embryonic RNA expression patterns of the c-kit receptor and its cognate ligand suggest multiple functional roles in mouse development. EMBO J 1991; 10: 2425–35
  • Stephenson D A, Mercola M, Anderson E, Wang C, Stiles C D, Bowen-Pope D F, Chapman V M. Platelet-derived growth factor receptor α subunit gene (Pdgfra) is deleted in the mouse patch (Ph) mutation. Proc Natl Acad Sci USA 1991; 88: 6–10
  • Gruneberg H, Tuslove G M. Two closely linked genes in the mouse. Genet Res 1960; 1: 69–90
  • Morrison-Graham K, Schatteman G C, Bork T, Bowen-Pope D F, Weston J A. A PDGF receptor mutation in the mouse (Patch) perturbs the development of a non-neuronal subset of neural crest-derived cells. Development 1992; 115: 133–42
  • Fleischman R A, Saltman D L, Stastny V, Zneimer S. Deletion of the c-kit protooncogene in the human developmental defect piebald trait. Proc Natl Acad Sci USA 1991; 88: 10885–9
  • Spritz R A, Giebal L B, Holmes S A. Dominant negative loss of function mutations of the c-kit (mast cell growth factor receptor) protooncogene in human piebaldism. Am J Hum Genet 1991; 50: 261–9
  • Lyon M F, Kirby M C. Mouse chomosome atlas. Mouse Genome 1992; 90: 22–44
  • Kiss P, Osztovics M. Association of 13q deletion and Hirschsprung's disease. J Med Genet 1989; 26: 793
  • Bottani A, Xie Y, Binkert F, Schinzel A. A case of Hirschsprung disease with a chromosome 13 microdeletion, del(13)(q32.3q33.2): Potential mapping of one disease locus. Hum Genet 1991; 87: 748–50
  • Lamont M A, Fitchett M, Dennis N R. Interstital deletion of distal 13q associated with Hirschsprung's disease. J Med Genet 1989; 26: 100–4
  • Sparkes R S, Sparkes M C, Kalina R E, Pagon R A, Salk D J, Disteche C M. Separation of retinoblastoma and esterase D loci in a patient with sporadic retinoblastoma and del(13)(14.1q22.3). Hum Genet 1984; 68: 258–9
  • Wright C V. Vertebrate homeobox genes. Curr Opin Cell Biol 1991; 3: 976–82
  • Woglemuth D J, Behringer R R, Mostoller M P, Brinster R L, Palmiter R D. Transgenic mice overexpressing the mouse homeobox-containing gene Hox-1.4 exhibit abnormal gut development. Nature 1989; 337: 464–7
  • Galliot B, Dolle P, Vigneron M, Featherstone M S, Baron A, Duboule D. The mouse Hox-1.4 gene: Primary structure, evidence of promoter-activity and expression during development. Development 1989; 107: 343–60
  • Levy J. The gastrointestinal tract in Down syndrome. Prog Clin Biol Res 1991; 373: 245–56
  • Gershon M D, Tennyson V M. Microenvironmental factors in the normal and abnormal development of the enteric nervous system. Prog Clin Biol Res 1991; 373: 257–76
  • Krasnow M A, Cumberledge S, Manning G, Herzenberg L A, Nolan G P. Whole animal cell sorting of Drosophilia embryos. Science 1990; 251: 81–5
  • Lai C, Lemke G. An extended family of protein-tyrosine kinase genes differently expressed in the vertebrate nervous system. Neuron 1991; 6: 691–704
  • Furness J B, Llewellyn-Smith I J, Bornstein J C, Costa M. Chemical neuroanatomy and the analysis of neuronal circuitry in the enteric nervous system. Handbook of Chemical Neuroanatomy: The Peripheral Nervous System, A Bjorklund, T Hokfelt, C Owman. Elsevier Science Publishers, Amsterdam 1988; Vol. 6: 161–218

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