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Original Article

Susceptibility to a neurotropic virus and its changing distribution in the developing brain is a function of CNS maturity

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Pages 38-48 | Received 21 May 1996, Accepted 21 Aug 1996, Published online: 10 Jul 2009

References

  • Acheson N H, Tamm I. Replication of Semliki Forest virus: an electron microscopic study. Virology 1967; 32: 128–143
  • Agmon A, Yang L T, O'Dowd D K, Jones E G. Organized growth of thalamocortical axons from the deep tier of terminations into layer IV of developing mouse barrel cortex. J Neurosci 1993; 13: 5365–5382
  • Altman J. Coated vesicles and synaptogenesis. A developmental study in the cerebellar cortex of the rat. Brain Res 1971; 30: 311–322
  • Altman J. Postnatal development of the cerebellar cortex in the rat. I. The external germinal layer and the transitional molecular layer. J Comp Neurol 1972a; 145: 353–398
  • Altman J. Postnatal development of the cerebellar cortex in the rat. II. Phases in the maturation of Purkinje cells and of the molecular layer. J Comp Neurol 1972b; 145: 399–464
  • Altman J. Postnatal development of the cerebellar cortex in the rat. III. Maturation of the components of the granular layer. J Comp Neurol 1972c; 145: 465–514
  • Amako K, Dales S. Cytopathology of Mengovirus infection. II. Proliferation of membranous cisternae. Virology 1967; 32: 201–215
  • Amor S, Scallan M F, Morris M M, Dyson H, Fazakerley J K. Role of the immune response in protection and pathogenesis during Semliki Forest virus encephalitis. J Gen Virol 1996; 77: 281–291
  • Angevine J B, Sidman R L. Autoradiographical study of cell migration during histogenesis in cerebral cortex of the mouse. Nature (London) 1961; 192: 766–768
  • Bates C A, Killackey H P. The emergence of a discretely distributed pattern of corticospinal projection neurons. Dev Brain Res 1984; 13: 265–273
  • Bayer S A. Hippocampal region. The Rat Nervous System, G Paxinos. Academic Press Inc, Australia 1985; Vol. 1: 335–348
  • Berry M, Rogers A W, Eayrs J T. Pattern of cell migration during cortical histogenesis. Nature 1964; 203: 591–593
  • Bradish C J, Allner K. The early responses of mice to respiratory or intraperitoneal infection by defined virulent and avirulent strains of Semliki Forest virus. J Gen Virol 1972; 15: 205–218
  • Bradish C J, Allner K, Maber M B. The virulence of original and derived strains of Semliki Forest virus for mice, guinea‐pigs and rabbits. J Gen Virol 1971; 12: 141–162
  • Brown T H, Zador A M. Hippocampus. The Synaptic organisation of the brain, G M Shepherd. Oxford University Press, Oxford 1990; 346–388
  • Caliguri L A, Tamm I. The role of cytoplasmic membranes in poliovirus biosynthesis. Virology 1970; 42: 100–111
  • Cash E, Chamorro M, Brahic M. Theiler's virus RNA and protein synthesis in the central nervous system of demyelinating mice. Virology 1985; 144: 290–294
  • Crepel F, Mariani J, Delhaye‐Bouchard N. Evidence for a multiple innervation of Purkinje cells by climbing fibres in the rat cerebellum. J Neurobiol 1976; 7: 567–578
  • Dales S, Siminovitch L. The development of vaccinia virus in Earl's strain cells as examined by electron microscopy. J Biophys Biochem Cytology 1961; 10: 475–500
  • Eayrs J T, Goodhead B. Postnatal development of the cerebral cortex in the rat. J Anat 1959; 93: 385–402
  • Fazakerley J K, Southern P, Bloom F, Buchmeier M. High resolution in situ hybridization to determine the cellular distribution of lymphocytic choriomeningitis virus RNA in the tissues of persistently infected mice: Relevance to arenavirus disease and mechanisms of viral persistence. J Gen Virol 1991; 72: 1611–1625
  • Fazakerley J K, Pathak S, Scallan M, Amor S, Dyson H. Replication of the A7(74) strain of Semliki Forest virus is restricted in neurons. Virology 1993; 195: 627–637
  • Fazakerley J K, Webb H E. Semliki Forest virus‐induced, immune‐mediated demyelination: Adoptive transfer studies and viral persistance in Nude mice. J Gen Virol 1987a; 68: 377–385
  • Fazakerley J K, Webb H E. Semliki Forest virus induced, immune mediated demyelination: the effect of irradiation. Br J Exp Path 1987b; 68: 101–113
  • Fleming P. Age‐dependent and strain‐related differences of virulence of Semliki Forest virus in mice. J Gen Virol 1977; 37: 93–105
  • Friedman R M, Levin J G, Grimley P M, Berezesky I K. Membrane‐associated replication complex in arbovirus infection. J Virol 1972; 10: 504–515
  • Froshauer S, Kartenbeck J, Helenius A. Alphavirus RNA replication occurs on the cytoplasmic surface of endosomes and lysosomes. J Cell Biol 1988; 107: 2075–2086
  • Garoff H, Frischauf A ‐M, Simons K, Lehrach H, Delius H. Nucleotide sequence of cDNA coding for Semliki Forest virus membrane glycoproteins. Nature 1980; 288: 236–241
  • Glasgow G M, Killen H M, Liljestrom P, Sheahan B J, Atkins G J. A single amino acid in the E2 spike protein of a virulent strain of Semliki Forest virus attenuates pathogenicity. J Gen Virol 1994; 75: 663–668
  • Griffin D E. Role of the immune response in age‐dependent resistance of mice to encephalitis due to Sindbis virus. J Infect Dis 1976; 133: 456–464
  • Grimley P M, Berezesky I K, Friedman R M. Cytoplasmic structures associated with an Arbovirus infection: Loci of viral ribonucleic acid synthesis. J Virol 1968; 2: 1326–1338
  • Grimley P M, Friedman R M. Development of Semliki Forest virus in mouse brain ‐ An electron microscopic study. Exp Molec Path 1970; 12: 1–13
  • Grimley P M, Levin J G, Berezesky I K, Friedman R M. Specific membranous structures associated with the replication of group A Arboviruses. J Virol 1972; 10: 492–503
  • Guinea R, Carrasco L. Phospholipid biosynthesis and poliovirus genome replication, two coupled phenomena. EMBO J 1990; 9: 2001–2016
  • Helenius A, Morein B, Simons K, Robinson P, Schirrmacher V, Trhorst C, Strominger J L. Human (HLA.‐A and HLA.‐B’ and murine (H2‐K and H‐2D) histocompatibility antigens are cell surface receptors for Semliki Forest virus. Proc Natl Acad Sci USA 1978; 75: 3846–3850
  • Helenius A, Marsh M, White J. The entry of viruses into animal cells. Trends Biochem Sci 1980; 5: 104–106
  • Ivy G O, Killackey H P. Ontogenetic changes in the projections of neocortical neurons. J Neurosci 1982; 2: 735–743
  • Jagelman S, Suckling A J, Webb H E, Bowen E T W. The pathogenesis of avirulent Semliki Forest virus infections in athymic nude mice. J Gen Virol 1978; 41: 599–607
  • Johnson R T, McFarland H F, Levy S E. Age‐dependent resistance to viral encephalitis: Studies of infections due to Sindbis virus in mice. J Infect Dis 1972; 125: 257–262
  • Kaluza G, Lell G, Reinacher M, Stitz L, Willems W R. Neurogenic spread of Semliki Forest virus in mice. Arch Virol 1987; 93: 97–110
  • Katoh I, Yoshinaka Y, Luftig R B. The effect of cerulenin on Moloney murine leukemia virus morphogenesis. Virus Res 1986; 5: 265–276
  • Kristt D A. Neuronal differentiation in somatosensory cortex of the rat. I. Relationship to synaptogenesis in the first postnatal week. Brain Res 1978; 150: 467–486
  • Kuge O, Akamatsu Y, Nishijima M. Abortive infection with Sindbis virus of a Chinese hamster ovary cell mutant defective in phosphatidylserine and phosphatidylethanolamine biosynthesis. Biochim Biophys Acta 1989; 986: 61–69
  • Landis S C. Neuronal growth cones. Ann Rev Physiol 1983; 45: 567–580
  • Larramendi L M H. Analysis of synaptogenesis in the cerebellum of the mouse. Neurobiology of Cerebellar Evolution and Development, R Linas. AMA Educ. and Res.Fdn, Chicago 1969; 803–843
  • Lennette E H, Koprowski H. Influence of age on the susceptibility of mice to infection with certain neurotropic viruses. J Immunol 1944; 49: 175–191
  • Malach R. Cortical columns as devices for maximizing neuronal diversity. Trends Neurosci 1994; 17: 101–105
  • Mariani J, Changeux J ‐P. Ontogenesis of olivocerebellar relationships. I. Studies by intracellular recordings of the multiple innervation of Purkinje cells by Climbing fibres in the developing rat cerebellum. J Neurosci 1981; 1: 696–702
  • Melnick J L, Paul J R, Riordan J T, Barnett V H, Goldblum N, Zabin E. Isolation from human sera in Egypt of a virus apparently identical to West Nile virus. Proc Soc Exptl Biol Med 1951; 77: 661–665
  • Monjan A A, Cole G A, Gilden D H, Nathanson N. Pathogenesis of cerebellar hypoplasia produced by lymphocytic choriomeningitis virus infection of neonatal rats. I. Evolution of disease following infection at 4 days of age. J Neuropath Exp Neurol 1973; 32: 110–124
  • Ogata A, Nagashima K, Hall W W, Ichikawa M, Kimura‐Kuroda J, Yasui K. Japanese Encephalitis virus neurotropism is dependent on the degree of neuronal maturity. J Virol 1991; 65: 880–886
  • O'Leary D D M, Koester S E. Development of projection neuron types, axon pathways, and patterned connections of the mammalian cortex. Neuron 1993; 10: 991–1006
  • O'Leary J L, Smith M G, Reames H R. Influence of age on susceptibility of mice to St Louis encephalitis virus and on the distribution of lesions. J Exp Med 1942; 75: 233–247
  • Pathak S, Webb H E. Possible mechanisms for the transport of Semliki Forest virus into and within mouse brain: An electron microscopic study. J Neurol Sci 1974; 23: 175–184
  • Pathak S, Webb H E. Chapt. 9. Cytoplasmic viral core aggregates and budding of mature virus and spherules in mouse brain following Semliki Forest virus infections. Inst Phys Conf Ser No. 933, 1988; 213–214
  • Pathak S, Webb H E, Oaten S W, Bateman S. An electron microscopic study of the development of virulent and avirulent strains of Semliki Forest virus in mouse brain. J Neurol Sci 1976; 28: 289–300
  • Pathak S, Webb H E. An electron‐microscopic study of avirulent and virulent Semliki Forest virus in the brains of different ages of mice. J Neurol Sci 1978; 39: 199–211
  • Pattyn S R, De Vleesschauwer L, Van Der Groen G. Replication of arboviruses in mouse organ cultures. II. Multiplication of virulent and avirulent Semliki Forest and Western equine encephalitis viruses in mouse organ cultures. Arch Virol 1975; 49: 33–37
  • Peranen J, Kaarianen L. Biogenesis of Type I Cytopathic vacuoles in Semliki Forest virus‐infected BHK cells. J Virol 1991; 65: 1623–1627
  • Perez L, Guinea R, Carrasco L. Synthesis of Semliki Forest virus RNA requires continuous lipid synthesis. Virology 1991; 183: 74–82
  • Purves D, Riddle D R, LaMantia A ‐S. Iterated patterns of brain circuitry (or how the cortex gets its spots). Trends Neurosci 1992; 15: 632–638
  • Pusztai R, Gould E A, Smith H. Infection patterns in mice of an avirulent and virulent strain of Semliki Forest virus. Br J Exp Path 1971; 52: 669–677
  • Rakic P. Mode of cell migration to the superficial layers of fetal monkey neocortex. J Comp Neurol 1972; 145: 61–84
  • Rakic P. Neuron in rhesus monkey visual cortex: Systematic relation between time of origin and eventual disposition. Science 1974; 183: 425–427
  • Rakic P. Specification of cerebral cortical areas. Science 1988; 241: 170–176
  • Rees R P, Bunge M B, Bunge R P. Morphological changes in the neuritic growth cone and target neuron during synaptic junction development in culture. J Cell Biol 1976; 68: 240–263
  • Santanagi M G, Maatta J A, Itaranta P V, Salmi A A, Hinkannen A E. The Semliki Forest virus E2 gene as a virulence determinant. J Gen Virol 1995; 76: 47–52
  • Santanagi M G, Itaranta P V, Koskimies P R, Maatta J A, Salmi A A, Hinkannen A E. Multiple repeating motifs are found in the 3′‐terminal non‐translated region of Semliki Forest virus‐A7 variant genome. J Gen Virol 1994; 75: 1499–1504
  • Schlesinger M J, Malfer C. Cerulenin blocks fatty acid acylation of glycoproteins and inhibits Vesicular Stomatitis and Sindbis virus particle formation. J Biol Chem 1982; 257: 9887–9890
  • Schneider‐Schaulies S, Liebert U G, Baczko K, Cattaneo R, Billeter M, ter Meulen V. Restriction of measles virus gene expression in acute and subacute encephalitis of Lewis rats. Virology 1989; 171: 525–534
  • Sharpe A H, Hunter J J, Chassler P, Jaenisch R. Role of abortive retroviral infection of neurons in spongiform CNS degeneration. Nature 1990; 346: 181–183
  • Sigel M M. Influence of age on susceptibility to virus infections with particular reference to laboratory animals. Annu Rev Microbiol 1952; 6: 247–280
  • Stanfield B B, O'Leary D D M, Fricks C. Selective collateral elimination in early postnatal development restricts cortical distribution of rat pyramidal tract axons. Nature 1982; 298: 371–373
  • Subak‐Sharpe I, Dyson H, Fazakerley J K. In vivo depletion of CD8+ T cells prevents lesions of demyelination in Semliki Forest virus infection. J Virol 1993; 67: 7629–7633
  • Swoveland P T, Johnson K P. Host age and cell type influence measles virus protein expression in the central nervous system. Virology 1989; 170: 131–138
  • Takkinen K. Complete nucleotide sequence of the non‐structural protein genes of Semliki Forest virus. Nuc Acids Res 1986; 14: 5667–5682
  • Tan S ‐S, Breen S. Radial mosaicism and tangential cell dispersion both contribute to mouse neocortical development. Nature 1993; 362: 638–640
  • Theiler M. Studies on the action of Yellow Fever virus in mice. Ann. Trop Med Parasitol 1930; 24: 249–272
  • Thong I G, Dreher B. The development of the corticotectal pathway in the albino rat. Dev Brain Res 1986; 25: 227–238
  • Uhol S, Griffin D. Identification of a putative alphavirus receptor on mouse neural cells. J Virol 1991; 65: 6913–6921
  • Vaughan J E, Sims T J. Axonal growth cones and developing axonal collaterals form synaptic junctions in embryonic mouse spinal cord. J Neurocytol 1978; 7: 337–363
  • Woodward C G, Marshall I D, Smith H. Investigations of reasons for the avirulence of the A7 strain of Semliki Forest virus in adult mice. Br J Exp Path 1978; 58: 616–624

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