Chaperone action of a versatile small heat shock protein from Methanococcoides burtonii, a cold adapted archaeon.

The Methanococcoides burtonii small heat shock protein (Mb-sHsp) is an alphaB-crystallin homolog that delivers protein stabilizing and protective functions to model enzymes, presumably reflecting its role as a molecular chaperone in vivo. Although the gene encoding Mb-shsp was cloned from a cold-adapted microorganism, the Mb-sHsp is an efficient protein chaperone at temperatures far above the optimum growth temperature of M. burtonii. We show that Mb-sHsp can prevent aggregation in E. coli cell free extracts at 60 degrees C for 4 h and can stabilize bovine liver glutamate dehydrogenase for 3 h at 50 degrees C. Surface plasmon resonance was used to determine the binding affinity of Mb-sHsp for denatured proteins. Mb-sHsp bound tightly to denatured lysozyme but not to the native form. When Mb-Cpn and Mg(2+)-ATP were added to the reaction, bound lysozyme was released from Mb-sHsp establishing that Mb-Cpn is able to off-load folding intermediates from Mb-sHsp. In addition, Mb-sHsp and Mb-Cpn also function cooperatively to protect an enzyme substrate. Through characterization of these M. burtonii chaperones, we were able to reconstitute a key heat shock regulated protein folding function of this cold adapted organism in vitro.