Abstract
Hsp104 is an important determinant of thermotolerance in yeast and is an unusual molecular chaperone that specializes in the remodeling of aggregated proteins. The structural requirements for Hsp104-substrate interactions remain unclear. Upon mild heat shock Hsp104 formed cytosolic foci in live cells that indicated co-localization of the chaperone with aggregates of thermally denatured proteins. We generated random amino acid substitutions in the C-terminal 199 amino acid residues of a GFP-Hsp104 fusion protein, and we used a visual screen to identify mutants that remained diffusely distributed immediately after heat shock. Multiple amino acid substitutions were required for loss of heat-inducible redistribution, and this correlated with complete loss of nucleotide-dependent oligomerization. Based on the multiply substituted proteins, several single amino acid substitutions were generated by site-directed mutagenesis. The singly substituted proteins retained the ability to oligomerize and detect substrates. Intriguingly, some derivatives of Hsp104 functioned well in prion propagation and multiple stress tolerance but failed to protect yeast from extreme thermal stress. We demonstrate that these proteins co-aggregate in the presence of other thermolabile proteins during heat treatment both in vitro and in vivo suggesting a novel mechanism for uncoupling the function of Hsp104 in acute severe heat shock from its functions at moderate temperatures.
Highlights
Hsp104 is a member of the Hsp100/Clp family of proteins, itself a subset within the AAAϩ family
Because Hsp104 expression is barely detectable in unstressed cells, wild type Hsp104 and two Hsp104 mutants with amino acid substitutions in each of the two nucleotide-binding domain (NBD) for Hsp104, Hsp104K218T and Hsp104K620T, were expressed in an hsp104 deletion strain under the control of a copper-inducible promoter [33]
To further our understanding of substrate interaction by Hsp104, we developed a novel visual screen that exploited the co-localization of Hsp104 with one of its natural substrates, thermally inactivated proteins, in living cells
Summary
Hsp104 is a member of the Hsp100/Clp family of proteins, itself a subset within the AAAϩ family. The AAAϩ family of proteins is a recently described extension of the AAA family of ATPases associated with diverse cellular activities [1] that, as the family name suggests, participate in array of cellular processes including protein degradation, membrane fusion, and DNA replication Each of these activities appears to involve remodeling macromolecular targets. Amino acid substitutions in the first and second NBDs of two AAAϩ modules of the Hsp104 have distinct structural and functional consequences (18 –20). Substitutions in the second Walker A motif (K620T or G619V) impair oligomerization as well as ATPase activity [18] In each case, these amino acid substitutions disrupt both thermotolerance and prion propagation. To probe the role of the C terminus of Hsp104 in substrate recognition, we introduced random amino acid sub-
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