SEARCH

SEARCH BY CITATION

References

  • Aguilera J. and Yavin E. (1990) In vivo translocation and down-regulation of protein kinase C following intraventricular administration of tetanus toxin. J. Neurochem. 54, 339342.
  • Balàzs R., Hack N. and Jorgensen O. S. (1990) Selective stimulation of excitatory amino acid receptor subtypes and the survival of cerebellar granule cells in culture: effect of kainic acid. Neuroscience 37, 251258.
  • Chopra A. P., Boone S. A., Liang X. and Duesbery N. S. (2003) Anthrax lethal factor proteolysis and inactivation of MAPK kinase. J. Biol. Chem. 278, 94029406.
  • Cryns V. and Yuan J. (1998) Proteases to die for. Genes Dev. 12, 15511570.
  • D'Mello S. R., Galli C., Ciotti T. and Calissano P. (1993) Induction of apoptosis in cerebellar granule neurons by low potassium: Inhibition of death by insulin-like growth factor I and cAMP. Proc. Natl Acad. Sci. USA 90, 1098910993.
  • Duchemin A., Ren Q., Mo L., Neff N. H. and Hadjiconstantinou M. (2002) GM1 ganglioside induces phosphorylation and activation of Trk and Erk in brain. J. Neurochem. 81, 696707.
  • Ferrer I. (2002) Synaptic pathology and cell death in the cerebellum in Creutzfeld-Jakob disease. Cerebellum 1, 213222.
  • Gallo V., Kingsbury A., Balazs R. and Jorgensen O. S. (1987) The role of depolarization in the survival and differentiation of cerebellar granule cells in culture. J. Neurosci. 7, 22032213.
  • Gil C., Ruiz-Meana M., Alava M., Yavín E. and Aguilera J. (1998) Tetanus toxin enhances Protein Kinase C activity translocation and increases polyphosphoinositide hydrolysis in rat cerebral cortex preparations. J. Neurochem. 70, 16361643.
  • Gil C., Chaïb-Oukadour I., Blasi J. and Aguilera J. (2001) Hc fragment (C-terminal portion of the heavy chain) of tetanus toxin activates protein kinase C isoforms and phosphoproteins involved in signal transduction. Biochem. J. 356, 97103.
  • Gil C., Chaïb-Oukadour I. and Aguilera J. (2003) C-terminal fragment of tetanus toxin heavy chain activates Akt and MEK/ERK signalling pathways in a Trk receptor-dependent manner in cultured cortical neurons. Biochem. J. 373, 613620.
  • Gunn-Moore F. J., Williams A. G., Toms N. J. and Tavaré J. M. (1997) Activation of mitogen-activated protein kinase and p70S6 kinase is not correlated with cerebellar granule cell survival. Biochem. J. 324, 365369.
  • Halpern J. L. and Loftus A. (1993) Characterization of the receptor-binding domain of tetanus toxin. J. Biol. Chem. 268, 1118811192.
  • Halpern J. L. and Neale E. A. (1995) Neurospecific binding, internalization, and retrograde axonal transport. Curr. Top. Microbiol. Immunol. 195, 221241.
  • Herreros J., Ng T. and Schiavo G. (2001) Lipid rafts act as specialized domains for tetanus toxin binding and internalization into neurons. Mol. Biol. Cell 12, 29472960.
  • Ho R., Eggert A., Hishiki T., Minturn J. E., Ikegaki N. and Foster P. (2002) Resistance to chemotherapy mediated by TrkB in neuroblastomas. Cancer Res. 62, 64626466.
  • Kaplan D. R. and Miller F. D. (2000) Neurotrophin signal transduction in the nervous system. Curr. Opin. Neurobiol. 10, 381391.
  • Kinoshita T., Shirouzu M., Kamiya A., Hashimoto K., Yokoyama S. and Miyajima A. (1997) Raf/MAPK and rapamycin-sensitive pathways mediate the anti-apoptotic function of p21Ras in IL-3-dependent hematopoietic cells. Oncogene 15, 619627.
  • Kubo T., Nonomura T., Enokido Y. and Hatanaka H. (1995) Brain-derived neurotrophic factor (BDNF) can prevent apoptosis of rat cerebellar granule neurons in culture. Dev. Brain Res. 85, 249258.
  • Lalli G. and Schiavo G. (2002) Analysis of retrograde transport in motor neurons reveals common endocytic carriers for tetanus toxin and neurotrophin receptor p75NTR. J. Cell Biol. 156, 233239.
  • Lalli G., Herreros J., Osborne S. L., Montecucco C., Rossetto O. and Schiavo G. (1999) Functional characterisation of tetanus and botulinum neurotoxins binding domains. J. Cell Sci. 112, 27152724.
  • Marks N., Berg M. J., Guidotti A. and Saito M. (1998) Activation of caspase-3 and apoptosis in cerebellar granule cells. J. Neurosci. Res. 52, 334341.
  • Montecucco C. and Schiavo G. (1994) Mechanism of action of tetanus and botulinum neurotoxins. Mol. Microbiol. 13, 18.
  • Mora A., Sabio G., Gonzalez-Polo R. A., Cuenda A., Alessi D. R., Alonso J. C., Fuentes J. M., Soler G. and Centeno F. (2001) Lithium inhibits caspase 3 activation and dephosphorylation of PKB and GSK3 induced by K+ deprivation in cerebellar granule cells. J. Neurochem. 78, 199206.
  • Morán J. and Patel A. J. (1989) Effect of potassium depolarization on phosphate-activated glutaminase activity in primary cultures of cerebellar granule neurons and astroglial cells during development. Dev. Brain Res. 46, 97105.
  • Nakagawara A., Azar C. G., Scavarda N. J. and Brodeur G. M. (1994) Expression and function of Trk-B and BDNF in human neuroblastomas. Mol. Cell. Biol. 14, 759767.
  • Nobes C. D., Reppas J. B., Markus A. and Tolkovsky A. M. (1996) Active p21Ras is sufficient for rescue of NGF-dependent rat sympathetic neurons. Neuroscience 70, 10671079.
  • Nonomura T., Kubo T., Oka T., Shimoke K., Yamada M., Enokido Y. and Hatanaka H. (1996) Signaling pathways and survival effects of BDNF and NT-3 on cultured cerebellar granule cells. Dev. Brain Res. 97, 4250.
  • Pelliccioni P., Gil C., Najib A., Sarri E., Picatoste F. and Aguilera J. (2001) Tetanus toxin modulates serotonin transport in rat-brain neuronal cultures. J. Mol. Neurosci. 17, 303310.
  • Pellizzari R., Rossetto O., Schiavo G. and Montecucco C. (1999) Tetanus and botulinum neurotoxins: mechanism of action and therapeutic uses. Philos. Trans. R. Soc. Lond. B. Biol. Sci. 354, 259268.
  • Pike L. J. (2003) Lipid rafts: bringing order to chaos. J. Lipid Res. 44, 655667.
  • Rosen L. B., Ginty D. D., Weber M. J. and Greenberg M. E. (1994) Membrane epolarization and calcium influx stimulate MEK and MAP kinase via activation of Ras. Neuron 12, 12071221.
  • Rossetto O., Seveso M., Caccin P., Schiavo G. and Montecucco C. (2001) Tetanus and botulinum neurotoxins: turning bad guys into good by research. Toxicon 39, 2741.
  • Schiavo G., Benfenati F., Poulain B., Rossetto O., De Laureto P. P., Das-Gupta B. R. and Montecucco C. (1992) Tetanus toxin and botulinum-B neurotoxin block neurotransmitter release by proteolytic cleavage of synaptobrevin. Nature 359, 832839.
  • Shimoke K., Kubo T., Numakawa T., Abiru Y., Enokido Y., Takei N., Ikeuchi T. and Hatanaka H. (1997) Involvement of phosphatyidylinositol-3 kinase in prevention of low K(+)-induced apoptosis of cerebellar granule neurons. Brain Res. Dev. Brain Res. 101, 197206.
  • Skaper S. D., Floreani M., Negro A., Facci L. and Giusti P. (1998) Neurotrophins rescue cerebellar granule neurons from oxidative stress-mediated apoptotic death: selective involvement of phosphatidylinositol 3-kinase and the mitogen-activated protein kinase pathways. J. Neurochem. 70, 18591868.
  • Thornberry N. A. and Lazebnik Y. (1998) Caspases: enemies within. Science 281, 13121316.
  • Valencia A. and Morán J. (2001) Role of oxidative stress in the apoptotic cell death of cultured cerebellar granule neurons. J. Neurosci. Res. 64, 284297.
  • Weinrauch Y. and Zychlinsky A. (1999) The induction of apoptosis by bacterial pathogens. Annu. Rev. Microbiol. 53, 155187.
  • White M. A., Nicolette C., Minden A., Polverino A., Van Aelst L., Karin M. and Wigler M. H. (1995) Multiple Ras functions can contribute to mammalian cell transformation. Cell 80, 533541.
  • Xue L., Murray J. H. and Tolkovsky A. M. (2000) The Ras/phosphatidylinositol 3-kinase and Ras/ERK pathways function as independent survival modules each of which inhibits a distinct apoptotic signaling pathway in sympathetic neurons. J. Biol. Chem. 275, 88178824.
  • Yuan J. and Yankner B. A. (2000) Apoptosis in the nervous system. Nature 407, 802809.
  • Zirrgiebel U., Ohga Y., Carter B., Berninger B., Inagaki N., Thoenen H. and Lindholm D. (1995) Characterization of TrkB receptor-mediated signaling pathways in rat cerebellar granule neurons: involvement of protein kinase C in neuronal survival. J. Neurochem. 65, 22412250.