The Upregulation of Cognate and Inducible Heat Shock Proteins in the Anoxic Turtle Brain | Zendy

Howard Prentice | Zendy; Sarah Milton | Zendy; Daniela Scheurle | Zendy; Peter L. Lutz | Zendy

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The Upregulation of Cognate and Inducible Heat Shock Proteins in the Anoxic Turtle Brain

Author(s) -

Howard Prentice,

Sarah Milton,

Daniela Scheurle,

Peter L. Lutz

Publication year - 2004

Publication title -

journal of cerebral blood flow and metabolism

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.167

H-Index - 193

eISSN - 1559-7016

pISSN - 0271-678X

DOI - 10.1097/01.wcb.0000126565.27130.79

Subject(s) - heat shock protein , turtle (robot) , downregulation and upregulation , shock (circulatory) , brain function , anoxic waters , biology , neuroscience , microbiology and biotechnology , chemistry , medicine , gene , biochemistry , ecology

Because heat shock proteins (HSPs) have an important protective function against ischemia/anoxia in mammalian brain, the authors investigated the expression of Hsp72 and Hsc73 in the anoxia-surviving turtle brain. Unlike the mammalian brain, high levels of Hsp72 were found in the normoxic turtle brain. Hsp72 levels were significantly increased by 4 hours of anoxia, remained constant until 8 hours, and then decreased to baseline at 12 hours. By contrast, Hsc73 was progressively increased throughout 12 hours of anoxia. This differential expression suggests different protective roles: Hsp72 in the initial downregulatory transition phase, and Hsc73 in maintaining neural network integrity during the long-term hypometabolic phase.

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