Válts MeRSZ+ -ra!

MeRSZ online
okoskönyvtár

Több száz tankönyv egy helyen.
Online. Bárhol. Bármikor.

Huszti Zsuzsanna

Cink az agyban

Irodalom

Abrous D. N., Koehl M., Le Moal M. (2005) Adult neurogenesis from precursors to network and physiology. Phys. Rev., 85: 523–569.
Acehan D., Jiang X., Morgan G. D., Heuser J. E., Wang X., Akey C. W. (2002) Three-dimensional structure of the apoptosome: implication for assembly pro-caspase-9 binding and activation. Mol. Cell., 9: 423–432.
Adamo A. M., Zago M. P., Mackenzie G. G. et al. (2010) The role of zinc in the modulation of neuronal proliferation and apoptosis. Neurotoxicity Res., 17: 1–14.
Adamo A. M., Oteiza P. I. (2010) Zinc deficiency and neurodevelopment: the case of neurons. BioFactors (Oxford, England), 36: 117–124.
Aizenman E., Stout A. K., Hartnett K. A., Dineley K. E., McLaughlin B., Reynolds I. (2000) Induction of neuronal apoptosis by thiol-oxidation: putative role of intracellular zinc release. J. Neurochem., 75: 1878–1888.
Bhosale P. B., Ha S. E. et al. (2020) Flavonoid-induced apoptotic cell death in human cancer cells and its mechanisms. Journal of Biomedical Translational Research, 21(2): 50–58.
Borner C. (2003) The Bcl-2 protein family, sensors and check-points of life-or-death decisions. Mol. Immunol., 39: 615–647.
Buss R. R., Sun W., Opennheim R. W. (2006) Adaptive roles of programmed cell death during nervous development. Review. Ann. Rev. Neurosci., 29: 1–35.
Cavallaro S. (2015) Cracking the code of neuronal apoptosis and survival. Cell Death and Dis., 6: 1–3.
Cecconi F., Alvarez-Botado G., Meyer B. I., Roth K. A., Gruss P. (1998) Apaf-1 (CEDK-homolog) regulated programmed cell death in mammalian development. Cell, 94: 727–737.
Chai F., Truong-Tran A. Q., Ho L. H., Zalewski P. D. (1999) Regulation of caspase activation and apoptosis by cellular zinc fuels and zinc deprivation. Review Immuno Cell Biol., 77: 272–278.
Choi D. W., Koh J. Y. (1998) Zinc and brain injury. Ann. Rev. Neurosci., 21: 347–375.
Choi S., Hong D. K., Choi B. Y., Suh S. W. (2020) Zinc in the brain: Frend or Foe. Review. Int. J. Mol. Sci., 27: 8941–8965.
Cho E., Hwang J. J., Han S. H., Chung S. J., Koh J. Y., Lee J. Y. (2010) Endogeneous zinc mediates apoptopic programmed cell death in the developing brain. Neurotoxicity, 17: 156–166.
Corniola R. S., Tassabehji N. M., Hare J., Sharma G., Levenson C. W. (2008) Zinc deficiency impaires neuronal precursor cell proliferation and induces apoptosis via p-53-mediated mechanisms. Brain Res., 1237: 52–61.
Cory S., Adams J. M. (2001) The Bcl family regulators of the cellular life-or-death switch. Nat. Rev. Camcer, 2: 647–656.
Coroto F. S., Hengar J., Maruriak J. A. (1994) Odor deprivation leads to reduced neurogenesis and reduced neuronal survival in the olfactory bulb of the adult mouse. Neuroscience, 1: 719–744.
Cowan W. M. (2001) Viktor Hamburger and Rita-Levi-Montalcini: the path to discovery of nerve growth factor. Ann. Rev. Neurosci., 24: 551–600.
Denault J. B., Salversen G. S. (2002) Caspases: keys in ignition of cell death. Chem. Rev., 102: 4489–4500.
Deng X., Luvan Q., Chen W. et al. (2009) Characterized zinc oxide particles induce neural stem cell apoptosis. Nanotechnology, 20: 115101.
Eron S. J., MacPherson D. J., Dagbay K. B., Hardy A. (2018) Multiple mechanisms of zinc-mediated inhibition for the apoptotic caspases -3, -6, -7 and -8. ACS Chem. Biol., 13: 1279–1290.
Franklin R. B., Castello L. C. (2009) The important role of the apoptopic effects of zinc in the development of cancers. J. Cell Biochem., 106: 750–757.
Gewies A. (2003) Introduction to apoptosis. Review. ApoReview, 1–26.
Gheusi G., Cremer H., McLean H., Chazal G., Vincent J. D., Lledo P. M. (2000) Importance of newly generated neurons in adult olfactory bulb for odor discrimination. Proc. Natl. Acad. Sci. USA, 97: 1823–1828.
Gluecksmann A. (1951) Cell death in normal vertebrate ontogeny. Biol. Rews., 26: 59–86.
Huang Y., Park Y. C., Rich R. H., Segal D., Mizka D. G., Wu H. (2001) Structural basis of caspase inhibition by XIAP: differencial roles of the linker versus the BIR domain. Cell, 104: 781–790.
Hutchins J. B., Burger S. W. (1998) Why neurons die: cell death in the nervous system. Anat. Rec., 253: 79–90.
Ishizaki Y., Cheng L., Mudge A. W., Raff M. C. (1995) Programmed cell death by default in embrionic cells, fibroblasts and cancer cells. Mol. Biol. Cell, 6: 1443–1458.
Jacobson M. D., Weil M., Raff M. C. (1997) Programmed cell death in animal development. Cell, 88: 347–354.
Leist M., Jaattela M. (2001) Four death and funeral from caspases to alternative mechanisms. Nat. Rev. Mol. Cell Biol., 2: 589–598.
Lein P., Supasai S., Guignet M. (2018) Apoptosis as a mechanism of developmental neurotoxicity. Handbook of Developmental Neurotoxicology (Second Edition), 91–112.
Lobner D., Canzoniero L. M., Manzezza P. et al. (2001) Zinc-induced neuronal death in cortical neurons. Cell Mol. Biol. (Noisy-le-Grand), 454: 797–806.
Lockshin R. A., Zakeri Z. (2001) Programmed cell death and apoptosis: origins of the theory. Mol. Rev. Mol. Biol., 2: 545–550.
Matsuhita K., Kitagawa K., Matsuyama T., Ohtsuki T. et al. (1996) Effect of systemic zinc administration on delayed neuronal death in the gerbil hippocampus. Brain Res., 743: 362–365.
Miller B. A., Beattie M. S. (2009) Apoptosis in nervous system injury. Encyclopedia of Neuroscience.
Nottenbohm F. (2004) The road we travelled: discovery, choreography and significance of brain replaceable neurons. Ann. N.Y. Acad. Sci., 1016: 628–658.
Oppenheim R. W. (1991) Cell death during development of the nervous system. Review. Ann. Rev. Neurosci.,14: 453–501.
Oppenheim R. W. (2001) Viktor Hamburger (1900–2001): Journey of a neurologist to the end of the millennium and beyond. Neuron, 20: 179–190.
Pettmann B., Henderson C. E. (1998) Neuronal cell death. Neuron, 20: 633–647.
Saraste A., Pulkki K. (2000) Morphologic and biochemical hallmarks of apoptosis. Cardiovasc. Res., 45: 528–537.
Sastry P. S., Rao K. S. (2000) Apoptosis and the nervous system. J. Neurochem., 74: 1–20.
Seth R., Corniola R. S., Morgan T. J. j.r., Bishop B., Levenson C. W. (2015) Zinc-deficiency induces apoptosis via mitochondrial p-53- and caspase-dependent pathways in human neuronal precursor cells. Journal of Trace Elements in Medicine and Biology, Organ of the Society of Minerals and Trace Elements (GMS), 30: 59–65.
Sunderman F. W. (1995) The influence of zinc on apoptosis. Ann. Clin. Lab. Sci., 28: 134–142.
Takahashi R., Deveraux Q., Tamm I., Welsh K.. Assa-Munt N., Salverson G. S., Reed J. C. (1998) A single BIR domain of XIAP sufficient for inhibiting caspases. J. Biol. Chem., 273: 7787–7790.
Truong-Tran A. Q., Carter J., Ruffin R., Zalewski P. D.(2001) The role of zinc caspase activation and apoptopic cell death. BioMetals, 14: 315–330.
Van Cruchten S., Van der Broeck W. (2002) Morphological and biochemical aspects of apoptosis, oncosis and necrosis. Anat. Histol. Embriol., 31: 214–223.
Weil M., Jacobson M. D., Coles H. S., Davies T. J., Gardner R. L., Raff K. D., Raff M. C. (1996) Constructive expression of the machinery for programmed cell death. J. Cell Biol., 133: 1053–1059.
Zalewski P. D., Forbes I. J. (1993) Intracellular zinc and the regulation of apoptosis. In Levine M., Watters D. (Eds), Programmed Cell Death: The Cellular and Molecular Biology of Apoptosis. Melbourne, Harward Academic Publishers, 73–86.
 
Cink az agyban

Tartalomjegyzék

Kiadó: Akadémiai Kiadó

Online megjelenés éve: 2025

Nyomtatott megjelenés éve: 2025

ISBN: 978 963 664 087 3

Orvostudomány

A cink az élő szervezetek esszenciális mikroeleme. Nagy mennyiségben megtalálható az emberi agyban, az izmokban, a csontokban, a vesében, a májban, a prosztatában és a szemben is. Több száz enzim működésében vesz részt – részben közvetlenül a katalitikus reakciókban, részben az enzimfehérjék koordinátoraként. Jelentős strukturális funkciót tölt be számos transzkripciós faktor szerkezetének kialakításában és a sejtek közötti kommunikációban. Huszti Zsuzsa vizsgálódásának tárgya ezúttal az agy. A kötet külön fejezetekben tárgyalja a cink szerepét az idegsejtekben, a neurofziológiában, a neuoropatológiában, az Alzheimer-kórban (a betegség terápiájában), a memóriában. A szerző széles szakirodalmi bázisra támaszkodva összegzi az ismeretanyagot, és gazdag hivatkozási listával látja el a fejezeteket.

Hivatkozás: https://mersz.hu/huszti-cink-az-agyban//

BibTeXEndNoteMendeleyZotero
Kivonat
fullscreenclose
printsave