Influence of trehalose on the molecular chaperone activity of p26, a
small heat shock/alpha-crystallin protein
R.I.
Viner, J.S. Clegg-2001
Cell
Stress and Chaperones, 6(2): 126-135 (from
Current Contents)
Abstract :
Encysted
embryos of the primitive crustacean Artemia franciscana are among the most
resistant of all multicellular eukaryotes to environmental stress, in part
due to massive amounts of a small heat shock/alpha -crystallin protein (p26)
that acts as a molecular chaperone. These embryos also contain very large
amounts of the disaccharide trehalose, well known for its ability to protect
macromolecules and membranes against damage due to water removal and
temperature extremes. Therefore, we looked for potential interactions
between trehalose and p26 in the protection of a model substrate, citrate
synthase (CS), against heat denaturation and aggregation and in the
restoration of activity after heating in vitro. Both trehalose and p26
decreased the aggregation and irreversible inactivation of CS at 43°C. At
approximate physiological concentrations (0.4 M), trehalose did not
interfere with the ability of p26 to assist in the reactivation of CS after
heating, but higher concentrations (0.8 M) were inhibitory. We also showed
that CS and p26 interact physically during heating and that trehalose
interferes with complex formation and disrupts CS-p26 complexes that form at
high temperatures. We suggest from these results that trehalose may act as a
"release factor," freeing folding intermediates of CS that p26 can
chaperone to the native state. Trehalose and p26 can act synergistically in
vitro, during and after thermal stress, suggesting that these interactions
also occur in vivo.
(Univ
Calif Davis, Bodega Marine Lab, Bodega Bay, CA 94923, USA, e-mail of J.S.
Clegg: jsclegg@ucdavis.edu)