Mechanizmy starzenia się ośrodkowego układu nerwowego u zwierząt

• Autorzy: Firlag M. , Ostaszewski P. , Balasinska B.

Warianty tytułu

EN

The aging mechanisms of the central nervous system in animals

• Języki publikacji: PL

Abstrakty

EN

Słowa kluczowe

PL

zwierzeta; zwierzeta stare; uklad nerwowy osrodkowy; starzenie sie; istota biala; istota szara; zmiany makroskopowe; amyloid; bialko tau; zmiany barwnikowe; zmiany naczyniowe; zmiany neurochemiczne

• Wydawca: -
• Czasopismo: Życie Weterynaryjne
• Rocznik: 2014
• Tom: 89
• Numer: 01
• Opis fizyczny: s.40-45,bibliogr.

Twórcy

autor

Firlag M.

• Katedra Nauk Fizjologicznych, Wydział Medycyny Weterynaryjnej, Szkoła Główna Gospodarstwa Wiejskiego, Warszawa

autor

Ostaszewski P.

• Katedra Nauk Fizjologicznych, Wydział Medycyny Weterynaryjnej, Szkoła Główna Gospodarstwa Wiejskiego, Warszawa

autor

Balasinska B.

• Katedra Nauk Fizjologicznych, Wydział Medycyny Weterynaryjnej, Szkoła Główna Gospodarstwa Wiejskiego, Warszawa

Bibliografia

• 1. Borras D., Ferrer I., Pumarola M.: Age-related changes in the brain of the dog. Vet. Pathol. 1999, 36, 202-211.
• 2. Kudła J.: Zaburzenia behawioralne u psów i kotów w podeszłym wieku. Mag. Wet. 2006, 15, 38-40.
• 3. Jahns H., Callanan J. J., McElroy C. M., Sammin D. J., Basset H. F.: Age-related and non-age-related chnges In 100 surveyed horse brains. Vet. Pathol. 2006, 43, 740-750.
• 4. Firląg M., Kamaszewski M., Gaca K., Bałasińska B.: Age- -related changes in the central nervous system in selected domestic mammals and primates. Postepy Hig. Med.Dosw. 2013, 67, 269-275.
• 5. Płotek W.: Starzenie się ośrodkowego układu nerwowego i anestezja. Anestezjologia i Ratownictwo 2008, 1, 35‑43.
• 6. Sołtysiak Z., Nowak M.: Zmiany neuropatologiczne mózgowia starych zwierząt. Med. Weter. 2007, 63, 1071-1076.
• 7. Ho K. C., Roessmann U., Straumfjord J. V., Monroe G.: Analysis of brain weight. Adult brain weight in relationto sex, race, and age. Arch. Pathol. Lab. Med. 1980, 104,635-639.
• 8. Jernigan T. L., Archibald S. L., Fennema-Notestine C., Gamst A. C., Stout J. C., Bonner J..: Effects of age on tissues and regions of the cerebrum and cerebellum. Neurobiol.Aging. 2001, 22, 581-594.
• 9. Nandy K.: Morphological changes in the cerebellar cortex of aging Macaca nemestrina. Neurobiol. Aging. 1981,2, 61-64.
• 10. Haziroglu R., Guvenc T., Tunca R., Ozsoy S. Y., Ozyildiz Z.: Evaluation of the age related changes in dog brains. Revue Med Vet. 2010, 161, 72-78.
• 11. Ozsoy S. Y., Haziroglu R.: Age-related changes in cat brains as demonstrated by histological and immunohistochemicaltechniques. Revue Med Vet. 2010, 161, 540-548.
• 12. Kubis A. M., Janusz, M.: Choroba Alzheimera -nowe możliwości terapeutyczne oraz stosowane modele eksperymentalne. Postępy Hig. Med. Dośw. 2008, 62, 372-392.
• 13. Rogers J., Zornetzer F. S., Bloom E. F., Mervis, E. R.: Senescent microstructural changes in rat cerebellum. BrainRes. 1984, 292, 23-32.
• 14. Sherwood C. C., Gordon A. D., Allen J. S., Phillips A. K., Erwin J. M., Hof P. R., i inni.: Aging of the cerebral cortexdiffers between humans and chimpanzees. PNAS. 2011,108, 13029-13034.
• 15. Simpson J. E., Ince P. G., Higham C. E., Gelsthorpe C. H., Fernando M. S., Matthews F., i inni.: Microglial activationin white matter lesions and nonlesional white matterof ageing brains. Neuropathol Appl Neurobiol. 2007,33, 670-83.
• 16. Dymecki J., Kulczycki J.: Neuropatologia kliniczna. Instytut Psychiatrii i Neurologii, Warszawa 1997,
• 17. Chambers J. K., Uchida K., Nakayama H. White matter myelin loss in the brains of aged dogs. Exper. Geront.2012, 4, 263-269.
• 18. Shimada A., Kuwamura M., Awakura T., Umemura T., Itakura C.: An immunohistochemical and ultrastructural study on age-related astrocytic gliosis in the centralnervous system of dogs. J Vet Med Sci. 1992, 54, 29-36.
• 19. Ferrer I., Pumarola M., Rivera R., Zújar M. J., Cruz-Sánchez F., Vidal A.: Primary central white matter degeneration in old dogs. Acta Neuropathol. 1993, 86, 172-5.
• 20. Capucchio M. T., Márquez M., Pregel P., Foradada L., Bravo M., Mattutino G., i inni.: Parenchymal and vascular lesionsin ageing equine brains: histological and immunohistochemicalstudies. J Comp Pathol. 2010, 142, 61-73.
• 21. Drzewińska J., Pułaski Ł., Soszyński M., Bartosz G.: Seladin-1/ DHCR24: A key protein of cell homeostasis andcholesterol biosynthesis. Postepy Hig Med Dosw. 2009,63, 318-330.
• 22. Yoshino T., Uchida K., Tateyama S., Yamaguchi R., Nakayama H., Goto N.: A retrospective study of canine senileplaques and cerebral amyloid angiopathy. Vet. Pathol.1996, 33, 230-234.
• 23. Rofina J., Singh K., Skoumalova-Vesela A., Ederen A. M., Asten A., Wilhelm J., I inni.: Histochemical accumulationof oxidative damage products is associated with Alzheimer-like pathology in the canine. Amyloid: J.Protein FoldingDisord. 2004, 11, 90-100.
• 24. Braak H., Braak E., Strothjohann, M.: Abnormally phosphorylated tau protein related to the formation of neurofibrillary tangles and neuropil threads in the cerebralcortex of sheep and goat. Neurosci. Lett. 1994, 25,1-4.
• 25. Uchida K., Yoshino T., Yamaguchi R., Tateyama S., Kimoto Y., Nakayama H.: Senile plaques and other senile changesin the brain of an aged American black bear. Vet. Pathol.1995, 32, 412-414.
• 26. Marquez M., Serafin A., Fernandez-Bellon H., Serrat S., Ferrer-Admetlla A., Bertranpetit J.: Neuropathologic findings in an aged albino gorilla. Vet. Pathol. 2008, 45,531.537.
• 27. Pokryszko-Dragan A., Zagrajek M. M., S.otwi.ski K.: Taupatie. choroby zwyrodnieniowe o.rodkowego uk.adu nerwowego zwi.zane z patologi. bia.ka tau. PostepyHig Med Dosw. 2005, 59, 386-391.
• 28. Bubko I., Gruber B. M., Anuszewska E. L.: Rola proteasomu w terapii chorob nieuleczalnych. Postepy Hig Med Dosw. 2010, 64, 314-325.
• 29. Mochizuki Y., Park M., Mori T., Kawashima, S.: The Difference in autofluorescence features of lipofuscin betweenbrain and adrenal. Zoological Science. 1995, 12, 283.288.
• 30. Edwards J., Storts R., Joyce J., Shelton J., Menzies C.: Juvenile- onset neuronal ceroid-lipofuscinosis in Rambouilletsheep. Vet. Pathol. 1994, 31, 48-54.
• 31. Sulzer D., Mosharov E., Talloczy Z., Zucca F. A., Simon J. D., Zecca L.: Neuronal pigmented autophagic vacuoles: lipofuscin,neuromelanin, and ceroid as macroautophagicresponses during aging and disease. J Neurochem. 2008,106, 24-36.
• 32. Brunk U., Jones C., Sohal R.: A novel hypothesis of lipofuscinogenesis and cellular aging based on interactionbetween oxidative stress and autophagocytosis. Mut. Reserch.1992, 275, 395-403.
• 33. Tohma H., Hepworth A. R., Shavlakadze T., Grounds M. D., Arthur, P. G. Quantification of ceroid and lipofuscin inskeletal muscle. J Histochem Cytochem. 2011, 59, 769.779.
• 34. Martinus R. D., Harper P. A., Jolly R. D., Bayliss S. L., Midwinter G. G., Shaw G. J., i inni.: Bovine ceroid-lipofuscinosis(Battenfs disease): The major component stored isthe DCCD-reactive proteolipid, subunit c, of mitochondrialATP synthase. Vet. Res. Commun. 1991, 15, 85-94.
• 35. St.pie. K., Dzier..ga-L.cznar A., Tam I.: Rola neuromelaniny w chorobie Parkinsona. nowe koncepcje. Wiad Lek.2007, 60, 563-569.
• 36. Zecca L., Bellei C., Costi P., Albertini A., Monzani E., Casella L..: New melanic pigments in the human brain thataccumulate in aging and block environmental toxic metals.PNAS 2008, 105, 17567-72.
• 37. Wei J.Y.: Understanding the aging cardiovascular system. Ger Gerontol Int. 2004, 4, 298.S303.
• 38. Nowacki P., Nowik M.: Neuropatologia ot.pienia naczyniowego. Udar Mozgu 2004, 6, 17-26.
• 39. So.tysiak Z., Barcikowska M., Gajda M., Pawlas M.: Stwardnienie .cian naczy. i zapalenie t.tnic mozgowych przyczyn.udarow i krwotokow u starych zwierz.t. Med. Weter.2006, 62, 1028-1032.
• 40. Yanai T., Masegi T., Ueda K., Manabe J., Teranishi M., Takaoka M.: Vascular mineralization in the monkey brain.Vet. Pathol. 1994, 31, 546-552.
• 41. Gomez C. R.: Microvasculopathy may precede idiopathic cerebral calcifications. Angiology. 1989, 40, 67-72.
• 42. Mandara M.: Meningial blood vessel calcification in the brain of the cat. Acta Neuropathol. 2003, 105, 240-244.
• 43. Pakulski C., Drobnik L., Millo B.: Age and sex as factors modifying the function of the blood. cerebrospinal fluidbarier. Med Sci Monit. 2000, 6, 314-318.
• 44. Mendel T., Wierzba-Bobrowicz T., St.pie. T., Szpak, G.: M. beta-amyloid deposits in veins in patients with cerebralamyloid angiopathy and intracerebral haemorrhage.Folia Neuropathol. 2013, 51, 120-126.
• 45. Mi W., Beirowski B., Gillingwater H. T., Adalbert R., Wagner D., Grumme D.: The slow Wallerian degenerationgene, WldS, inhibits axonal spheroid pathology in gracileaxonal dystrophy mice. Brain 2005, 128, 405-416.
• 46. Arai N., Mizutani T., Morimatsu, Y.: Foamy spheroid bodies in the globus pallidus and the substantia nigra parsreticulata: an investigation on regional distribution in 56 cases without neurodegenerative diseases. Virchows Arch A Pathol Anat Histopathol. 1993, 422, 307-311.
• 47. Hooper P. T.: Incidental lesions in the brain of sheep and goats. Aust. Vet. J. 1999, 77, 398-399.
• 48. Markus E. J., Petit T. L.: Neocortical synaptogenesis, aging, and behavior: lifespan development in the motor-sensorysystem of the rat. Exp. Neurology. 1987, 96, 262-278.
• 49. Wong T. P.: Aging of the cerebral cortex. MJM. 2002, 6, 104-113.
• 50. Perry R. H., Perry E. K., Smith C. J., Xuereb J. H., Irving D., Whitford C. A.: Cortical neuropathological and neurochemicalsubstrates of Alzheimerfs and Parkinsonfs diseases.J Neural Transm. 1987, Suppl 24, 131.136.
• 51. Wenk G. L., Pierce D. J., Struble R. G., Price D. L., Cork, L. C.: Age-related changes in multiple neurotransmittersystems in the monkey brain. Neurobiol Aging. 1989, 10,11-19.
• 52. Wu C. F., Bertorelli R., Sacconi M., Pepeu G., Consolo S.: Decrease of brain acetylcholine release in aging freely--moving rats detected by microdialysis. Neurobiol Aging.1988, 9, 357.361.
• 53. Tyce G. M., Wong K. L.: Conversion of glucose to neurotransmitter amino acids in the brains of young and agingrats. Exp. Gerontol.. 1980, 15, 527.532.
• 54. Dawson J. R., Wallace D. R., Meldrum M. J.: Endogenous glutamate release from frontal cortex of adult and agedrats. Neurobiol. Aging. 1989, 10, 665.668.
• 55. Goldman-Rakic P. S., Brown R. M. Regional changes of monoamines in cerebral cortex and subcortical structuresof aging rhesus monkeys. Neuroscience 1981, 6, 177.187.
• 56. Cotman C. W., Monaghan D. T., Ottersen O. P., Storm- -Mathisen J.: Anatomical organization of excitatory amino acid receptors and their pathways. Trends Neurosci.1987, 10, 273.280.
• 57. Banay-Schwartz M., Lajtha A., Palkovits M.: Changes with aging in the levels of amino acids in rat CNS structuralelements. 1. Glutamate and related amino acids. Neurochem, Res. 1989, 14, 555.562.
• 58. Wenk G. L., Walker L. C., Price D. L., Cork L. C.: Loss of NMDA, but not GABA-A, binding in the brains of agedrats and monkeys. Neurobiol Aging. 1991, 12, 93.98.
• 59. Bai L., Hof P. R., Standaert D. G., Xing Y., Nelson S. E., Young A. B.: Changes in the expression of the NR2B subunitduring aging in macaque monkeys. Neurobiol. Aging2004, 25, 201.208.
• 60. Hof P. R., Duan H., Page T. L., Einstein M., Wicinski B., He Y..: Age-related changes in GluR2 and NMDAR1 glutamate receptor subunit protein immunoreactivity in corticocortically projecting neurons in macaque and patasmonkeys. Brain Res. 2002, 928, 175.186.
• 61. Magnusson K. R. Declines in mRNA expression of different subunits may account for differential effects of aging on agonist and antagonist binding to the NMDA receptor.J Neurosci. 2000, 20, 1666-1674.
• 62. Penny G. R., Afsharpour S., Kitai, S. T.: The glutamate decarboxylase-, leucine enkephalin-, methionine enkephalinaand substance P-immunoreactive neurons in the neostriatumof the rat and cat: evidence for partial populationoverlap. Neuroscience 1986, 17, 1011.1045.
• 63. Govoni S., Memo M., Saiani L., Spano P. F., Trabucchi, M.: Impairment of brain neurotransmitter receptors inaged rats. Mech. Aging Develop. 1980, 12, 39-46.
• 64. Turgeon S. M., Albin, R. L.: GABAB binding sites in early adult and aging rat brain. Neurobiol. Aging. 1994, 15,705-711.
• 65. Mhatre M. C., Fernandes G., Ticku, M. K.: Aging reduces the mRNA of alpha 1 GABAA receptor subunit in rat cerebralcortex. Europ. J. Pharmacol. 1991, 208, 171-174.