Jc. David et al., EXPRESSION AND DISTRIBUTION OF HSP71 AND HSC73 MESSENGER-RNAS IN RAT-BRAIN FOLLOWING HEAT-SHOCK - EFFECT OF DIZOCILPINE MALEATE, Neuroscience, 62(3), 1994, pp. 945-954
Induction of hsp71 mRNA, coding for the inducible heat shock protein H
SP71, and the constitutively expressed, hsc73 mRNA coding for the heat
shock cognate protein HSC73 were studied after heat shock using north
ern blotting and ill situ hybridization. Two cDNA oligonucleotides com
plementary to the messenger RNAs for hsp71 and hsc73 and suitable for
in situ hybridization were designed and shown to hybridize selectively
to their respective mRNAs. The inducible hsp71 was rapidly synthesize
d in brain after heat shock and disappeared in 6 h. A high level of ex
pression was observed first in the dentate granule cell layer and then
slightly later in the hippocampal pyramidal cell layer. There was als
o a dramatic increase in the granular layer of the cerebellar cortex.
There was a more modest increase in expression of hsc73 after heat sho
ck in forebrain and in cerebellum (granular layer). The N-methyl-D-asp
artate receptor antagonist dizocilpine maleate (0.5 mg/kg, i.p.), give
n 15 min before heat shock, significantly reduced the expression of hs
p71 but had no effect on hsc73. These results suggest that glutamate p
lays a role in heat shock-induced expression of hsp71 in brain.