Shatz, C.J. Impulse activity and the patterning of connections during CNS development. Neuron5, 745–756 (1990) ArticleCAS Google Scholar
LeVay, S., Stryker, M.P. & Shatz, C.J. Ocular dominance columns and their development in layer IV of the cat's visual cortex: a quantitative study. J. Comp. Neurol.179, 223–244 (1978) ArticleCAS Google Scholar
Shatz, C.J. & Stryker, M.P. Ocular dominance in layer IV of the cat's visual cortex and the effects of monocular deprivation. J.Physiol. (Lond.)281, 267–283 (1978) ArticleCAS Google Scholar
Wiesel, T.N. & Hubel, D.H. Single-cell responses in striate cortex of kittens deprived of vision in one eye. J. Neurophysiol.26, 1003–1017 (1963) ArticleCAS Google Scholar
Movshon, A. & Dürsteler, M.R. Effects of brief periods of unilateral eye closure on the kitten's visual cortex. J. Neurophysiol.40, 1255–1265 (1977) ArticleCAS Google Scholar
Guillery, R.W. Binocular competition in the control of geniculate cell growth. J. Comp. Neurol.144, 117–130 (1972) ArticleCAS Google Scholar
Antonini, A. & Stryker, M.P. Plasticity of geniculocortical afferents following brief or prolonged monocular occlusion in the cat. J. Comp. Neurol.369, 64–82 (1996) ArticleCAS Google Scholar
Blakemore, C. & Van Sluyters, R.C. Reversal of the physiological effects of monocular deprivation in kittens: further evidence for a sensitive period. J. Physiol.( Lond.)237, 195– 216 (1974) ArticleCAS Google Scholar
Movshon, J.A. Reversal of the physiological effects of monocular deprivation in the kitten's visual cortex. J.Physiol. (Lond.)261, 125– 174 (1976) ArticleCAS Google Scholar
Dürsteler, M.R., Garey, L.J. & Movshon, J.A. Reversal of the morphological effects of monocular deprivation in the kitten's lateral geniculate nucleus. J. Physiol. (Lond.)261, 189–210 (1976) Article Google Scholar
Swindale, N.V., Vital-Durand, F. & Blakemore, C. Recovery from monocular deprivation in the monkey. Proc. R. Soc. Lond.213, 435–450 (1981) ArticleCAS Google Scholar
Bear, M.F., Kleinschmidt, A., Gu, Q. & Singer, W. Disruption of experience-dependent synaptic modification in striate cortex by infusion of NMDA receptor antagonist . J. Neurosci.10, 909– 925 (1990) ArticleCAS Google Scholar
Gu, Q., Bear, M.F. & Singer, W. Blockade of NMDA-receptors prevents ocularity changes in kitten visual cortex after reversed monocular deprivation. Dev. Brain Res.47, 281–288 (1989) ArticleCAS Google Scholar
Kasamatsu, T. & Pettigrew, J.D. Depletion of brain catecholamines: failure of ocular dominance shift after monocular occlusion in kittens. Science267, 1658–1662 (1976) Google Scholar
Bear, M.F. & Singer, W. Modulation of visual cortical plasticity by acetylcholine and noradrenaline. Nature320, 172–176 (1986) ArticleCAS Google Scholar
Bonhoeffer, T. Neurotrophins and activity-dependent development of the neocortex. Curr. Opin. Neurobiol.6, 119–126 (1996) ArticleCAS Google Scholar
Staubli, U., Larson, J., Thibault, O., Baudry, M. & Lynch, G. Chronic administration of a thiol-proteinase inhibitor blocks long-term potentiation of synaptic responses. Brain Res.444, 153–158 (1988) ArticleCAS Google Scholar
Qian, Z., Gilbert, M.E., Colicos, M.A., Kandel, E.R. & Kuhl, D. Tissue-plasminogen activator is induced as an immediate-early gene during seizure, kindling and long-term potentiation. Nature361, 453–457 (1993) ArticleCAS Google Scholar
Huang, Y.-Y. et al. Mice lacking the gene encoding tissue-type plasminogen activator show a selective interference with late-phase long-term potentiation in both Schaffer collateral and mossy fiber pathways. Proc. Natl. Acad. Sci. USA93, 8699–8704 (1996) ArticleCAS Google Scholar
Gualandris, A., Jones, T.E., Strickland, S. & Tsirka, S.E. Membrane depolarization induces calcium-dependent secretion of tissue plasminogen activator. J. Neurosci.16, 2220– 2225 (1996) ArticleCAS Google Scholar
Krystosek, A. & Seeds, N.W. Plasminogen activator release at the neuronal growth cone. Science213, 1532 –1534 (1981) ArticleCAS Google Scholar
Pittman, R.N. & DiBenedetto, A.J. PC12 cells overexpressing tissue plasminogen activator regenerate neurites to a greater extent and migrate faster than control cells in complex extracellular matrix. J. Neurochem.64, 566–575 (1995) ArticleCAS Google Scholar
McGuire, P.G. & Seeds, N.W. Degradation of underlying extracellular matrix by sensory neurons during neurite outgrowth. Neuron4, 633–642 (1990) ArticleCAS Google Scholar
Chen, Z.-L. & Strickland, S. Neuronal death in the hippocampus is promoted by plasmin-catalyzed degradation of laminin. Cell91, 917–925 (1997) ArticleCAS Google Scholar
Hamakubo,T., Kannagi, R., Murachi, T. & Matus, A. Distribution of calpains I and II in rat brain. J. Neurosci.6, 3103 –3111 (1986) ArticleCAS Google Scholar
Nakajima, K., Tsuzaki, N., Nagata, K., Takemoto, N. & Kohsaka, S. Production and secretion of plasminogen in cultured rat brain microglia. FEBS Lett.308, 179– 182 (1992) ArticleCAS Google Scholar
Stürzebecher, J., Neumann, U., Kohnert, U., Kresse, G.-B. & Fischer, S. Mapping of the catalytic site of CHO-t-PA and the t-PA variant BM 06.022 by synthetic inhibitors and substrates. Protein Science1, 1007–1013 (1992) Article Google Scholar
Heussen, C. & Dowdle, E.B. Electrophoretic analysis of plasminogen activators in polyacrylamide gels containing sodium dodecyl sulfate and copolymerized substrates. Anal. Biochem.102, 196– 202 (1980) ArticleCAS Google Scholar
Bear, M.F. & Colman, H. Binocular competition in the control of geniculate cell size depends upon visual cortical N-methyl-D-aspartate receptor activation. Proc. Natl. Acad. Sci. USA87, 9246–9249 (1990) ArticleCAS Google Scholar
Tian, L.M., Otoom, S. & Alkadhi, K.A., Endogenous bursting due to altered sodium channel function in rat hippocampal CA1 neurons. Brain Res.680, 164– 72 (1995) ArticleCAS Google Scholar
Mataga, N. et al. Enhancement of mRNA expression of tissue-type plasminogen activator by l-threo-3,4-dihydroxyphenylserine in association with ocular dominance plasticity. Neurosci. Lett.218, 149–152 (1996) ArticleCAS Google Scholar
Tsirka, S.E., Gualandris, A., Amaral, D.G. & Strickland, S. Excitotoxin-induced neuronal degeneration and seizure are mediated by tissue plasminogen activator . Nature377, 340–344 (1995) ArticleCAS Google Scholar
Tsirka, S.E., Rogove, A.R., Bugge, T.H., Degen, J.L. & Strickland, S. An extracellular proteolytic cascade promotes neuronal degenaration in the mouse hippocampus. J. Neurosci.17, 543–552 (1997) ArticleCAS Google Scholar
Geinisman, Y., DeToledo-Morrell, L., Morrell, F., Persina, I.S. & Beatty, M.A. Synapse restructuring associated with the maintenance phase of hippocampal long-term potentiation. J. Comp. Neurol.368, 413–423 (1996) ArticleCAS Google Scholar
Bolshakov, V.Y., Golan, H., Kandel, E.R. & Siegelbaum, S.A. Recruitment of new sites of synaptic transmission during the cAMP-dependent late phase of LTP at CA3-CA1 synapses in the hippocampus. Neuron19, 635–651 (1997) ArticleCAS Google Scholar
Edwards, F.A. LTP - a structural model to explain the inconsistencies. Trends Neurosci.18, 250–255 (1995) ArticleCAS Google Scholar
Mars, W.M., Zarnegar, R. & Michalopoulos, G.K. Activation of hepatocyte growth factor by the plasminogen activators uPA and tPA. Am. J. Pathol.143, 949–958 (1993) CAS Google Scholar
Thewke, D.P. & Seeds, N.W. Expression of hepatocyte growth factor/scatter factor, its receptor, c-met, and tissue-type plasminogen activator during development of the murine olfactory system. J. Neurosci.16, 6933–6944 (1996) ArticleCAS Google Scholar
Müller, C.M., Akhavan, A.C. & Bette, M. Possible role of S-100 in glia-neuronal signalling involved in activity-dependent plasticity in the developing mammalian cortex. J. Chem. Neuroanat.6, 215–227 (1993) Article Google Scholar
Kasamatsu, T., Itakura, T. & Jonsson, G. Intracortical spread of exogenous catecholamines: effective concentration for modifying cortical plasticity. J. Pharmacol. Exp. Ther.217, 841–850 (1981) CAS Google Scholar
Stoppini, L., Buchs, P.A. & Muller, D. A simple method for organotypic cultures of nervous tissue. J. Neurosci. Methods37:173–182 (1991) ArticleCAS Google Scholar