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Volumen IV - Demencias - 9/2011

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Tratado de Psicofarmacología y Neurociencia Volumen IV. Enfermedades degenerativas del sistema nervioso central. Demencias

S Mirochnic, FCA Quaglia

S Mirochnic, FCA Quaglia // Neurogénesis y reserva cognitiva en enfermedad Alzheimer: más allá del b-amiloide-- Kempermann, G.; Brandon, E. P.; Gage, F. H.: Environmental stimulation of 129/SvJ mice causesincreased cell proliferation and neurogenesis in the adult dentate gyrus. Curr Biol. (1998a) 8, 16; 939-942.- Kempermann, G.; Kuhn, H. G.; Gage, F. H. (1998b): Experience-induced neurogenesis in thesenescent dentate gyrus. J Neurosci. 18, 9; 3206-3212.- Kempermann, G.; Gage, F. H. (1999): Experience-dependent regulation of adult hippocampal neurogenesis:effects of long-term stimulation and stimulus withdrawal. Hippocampus. 9, 3; 321-332.- Kempermann, G.; Gast, D.; Gage, F. (2002): Neuroplasticity in old age: sustained fivefold induction ofhippocampal neurogenesis by long-term environmental enrichment. Ann Neurol. 52, 2; 135-143.- Kempermann, G.; Gast, D.; Kronenberg, G.; Yamaguchi, y col. (2003); F.: Early determination andlong-term persistence of adult-generated new neurons in the hippocampus of mice. Development130, 391-399.- Kempermann, G.; Jessberger, S.; Steiner, B.; Kronenberg, G. (2004): Milestones of neuronal developmentin the adult hippocampus. Trends Neurosci. 27, 8; 447-452.- Kempermann, G.; Chesler, E. J.; Lu, L.; Williams, R. W.; Gage, F. H. (2006): Natural variation andgenetic covariance in adult hippocampal neurogenesis. Proc Natl Acad Sci U S A. 103, 3; 780-785.- Kempermann, G.: The neurogenic reserve hypothesis: what is adult hippocampal neurogenesisgood for? Trends in Neuroscience. (2008b) 31, 163-169.- Kronenberg, G.; Reuter, K.; Steiner, B.; Brandt, M.;y col.: (2003) Subpopulations of proliferatingcells of the adult hippocampus respond differently to physiologic neurogenic stimuli The Journal ofComparative Neurology. 467, 455-463.- Kuhn, H. G.; Cooper-Kuhn, C.; Boekhoorn, K.; Lucassen, P. (2007): Changes in neurogenesis indementia and Alzheimer mouse models: are they functionally relevant? Eur Arch Psychiatry ClinNeurosci. 257, 281-289.- Larson, J.; Lynch, G.; Games, D.; Seubert, P. (1999): Alterations in synaptic transmission and longtermpotentiation in hippocampal slices from young and aged PDAPP mice. Brain Res. 840, 1-2; 23-35.- Lehmann, K.; Butz, M.; Teuchert-Noodt, G. (2005): Offer and demand: proliferation and survival ofneurons in the dentate gyrus. Eur J Neurosci. 21, 12; 3205-3216.- Lie, D. C.; Song, H; Colamarino S. A., Ming G.; y Gage F. H. (20040. Neurogenesis in the AdultBrain: New Strategies for Central Nervous System Diseases. Annual Review of Pharmacology andToxicology. Vol. 44: 399-421. DOI: 10.1146/annurev.pharmtox.44.101802.121631- Mirochnic S, Wolf S, Staufenbiel M, Kempermann Gerd (2009). Age effects on the regulation ofadult hippocampal neurogenesis by physical activity and environmental enrichment in the APP23mouse model of Alzheimer disease. Hippocampus 19 (10):1008- Mirescu, C.; Gould, E; (2006): Stress and adult neurogenesis. Hippocampus. 16, 3; 233-238.- Morris, R.; Andersen P., Amaral D., Bliss T., O’Keefe J (eds) (2007). The Hippocampus Book.Oxford Scholarship- Ramon y Cajal, S.: Estudios sobre la degeneración y regeneración del sistema nervioso. (1913) Moya.- Rocca, W. A.; Hofman, A.; Brayne, C.; Breteler, M.; y col. (1991): Frequency and distribution ofAlzheimer's disease in Europe: a collaborative study of 1980-1990 prevalence findings. The EURO-DEM-Prevalence Research Group. Ann Neurol. 30, 3; 381-390.EDITORIAL SCIENS53

LM Zieher - MC Brió - M Zorrilla Zubilete // Tratado de Psicofarmacología y Neurociencia, Volumen IV, Enfermedades degenerativas del sistema nervioso central. Demencias- Schmidt-Hieber, C.; Jonas, P.; Bischofberge, J. (2004): Enhanced synaptic plasticity in newlygenerated granule cells of the adult hippocampus. Nature. 429, 184-187.- Seki, T. (2002): Expression patterns of immature neuronal markers PSA-NCAM, CRMP-4 andNeuroD in the hippocampus of young adult and aged rodents. J Neurosci Res. 70, 3; 327-334.- Selkoe, D. J. (2002): Alzheimer's disease is a synaptic failure. Science. 298, 5594; 789-791.- Shetty, A. K.; Hattiangady, B.; Shetty, G. A. (2005): Stem/progenitor cell proliferation factors FGF-2, IGF-1, and VEGF exhibit early decline during the course of aging in the hippocampus: role ofastrocytes. Glia. 51, 3; 173-186.- Sidman, (1959) R. L.; Miale, I. L.; Feder, N.: Cell proliferation and migration in the primitiveependymal zone: an autoradiographic study of histogenesis in the nervous system. Exp Neurol. 1,322-333.- Smart, I.: (1961). The subependymal layer of the mouse brain and it cell production as shown byautoradiography after [H3]-thymidine injection. J. Comp. Neurol. 116; 325-347.- Steiner, B.; Wolf, S.; Kempermann, G.: (2006). Adult neurogenesis and neurodegenerative disease.Regenerative Medicine. 1, 1; 15-28.- Terry, R. D.; Masliah, E.; Salmon, D. P.; Butters, N.; y col., (1991): Physical basis of cognitive alterationsin Alzheimer's disease: synapse loss is the major correlate of cognitive impairment. AnnNeurol. 30, 4; 572-580.- Tolman, E. (1948): Cognitive maps in rats and men. Psychological Review. 55, 4; 198-208.- Tozuka, Y.; Fukuda, S.; Namba, T.; Seki, T.; Hisatsune, (2005). T.: GABAergic excitation promotesneuronal differentiation in adult hippocampal progenitor cells. Neuron. 47, 6; 803-815.- Trommer, B.; Shah, C.; Yun, S.; Gamkrelidze, G.; y col.; (2005): LaDu, M.: ApoE isoform-specificeffects on LTP: blockade by oligomeric amyloid-beta1-42. Neurobiological Disease. 18, 1; 75-82.- Wolf, D. S.; Gearing, M.; Snowdon, D. A.; Mori, H.;y col.; (1999): Progression of regional neuropathologyin Alzheimer disease and normal elderly: findings from the Nun study. Alzheimer Dis AssocDisord. 13, 4; 226-231.- Wolf, S.; Kronenberg, G.; Lehmann, K.; Blankenship, A; y col.; (2006): Cognitive and physical activitydifferently modulate disease progression in the amyloid precursor protein (APP)-23 model of alzheimer’sdisease. Biological Psychiatry. 60, 12; 1314-1323.- Yan, Y.; Wang, C. (2007): Abeta40 protects non-toxic Abeta42 monomer from aggregation. Journalof Molecular Biology. 4; 909.- Yang, L.; Wang, B.; Justice, N. J.; Zheng, H. (2009): Amyloid precursor protein regulates CAV1.2Ltype calcium channel levels and function to influence GABAergic short-term plasticity. J Neurosci.29, 50; 15660-15668.- Zhang, C.; McNeil, E.; Dressler, L.; Siman, R. (2007): Long-lasting impairment in hippocampalneurogenesis associated with amyloid deposition in a knock-in mouse model of familial Alzheimer'sdisease. Experimental Neurology. 204, 1; 77-87.54

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