Browsing by UMass Chan Affiliation "Laboratory of Biochemistry and Genetics"

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    • Functionally redundant isoforms of a yeast Hsp70 chaperone subfamily have different antiprion effects
      Sharma, Deepak; Masison, Daniel C. (2008-06-20)
      Why eukaryotes encode multiple Hsp70 isoforms is unclear. Saccharomyces cerevisiae Ssa1p and Ssa2p are constitutive 98% identical Hsp70's. Stress-inducible Ssa3p and Ssa4p are 80% identical to Ssa1/2p. We show Ssa1p-4p have distinct functions affecting [PSI(+)] and [URE3] prions. When expressed as the only Ssa, Ssa1p antagonized [URE3] and Ssa2p antagonized [PSI(+)]. Ssa3p and Ssa4p influenced [URE3] and [PSI(+)] somewhat differently but overall their effects paralleled those of Ssa1p and Ssa2p, respectively. Additionally, Ssa3p suppressed a prion-inhibitory effect of elevated temperature. Our previously described Ssa1-21p mutant weakens [PSI(+)] in SSA1-21 SSA2 cells and abolishes it in SSA1-21 ssa2Delta cells. To test if the same mutation affected other prions or altered Ssa2p similarly, we compared effects of a constructed Ssa2-21p mutant and Ssa1-21p on both prions. Surprisingly, [URE3] was unaffected in SSA1-21 SSA2 cells and could propagate in SSA1-21 ssa2Delta cells. Ssa2-21p impaired [URE3] considerably and weakened [PSI(+)] strongly but in a manner distinct from Ssa1-21p, highlighting functional differences between these nearly identical Hsp70's. Our data uncover exquisite functional differences among isoforms of a highly homologous cytosolic Hsp70 subfamily and point to a possibility that variations in Hsp70 function that might improve fitness under optimal conditions are also important during stress.

    • Prion-impairing mutations in Hsp70 chaperone Ssa1: effects on ATPase and chaperone activities
      Needham, Patrick G.; Masison, Daniel C. (2008-08-19)
      We previously described many Hsp70 Ssa1p mutants that impair [PSI(+)] prion propagation in yeast without affecting cell growth. To determine how the mutations alter Hsp70 we analyzed biochemically the substrate-binding domain (SBD) mutant L483W and the nucleotide-binding domain (NBD) mutants A17V and R34K. Ssa1(L483W) ATPase activity was elevated 10-fold and was least stimulated by substrates or Hsp40 co-chaperones. Ssa1(A17V) and Ssa1(R34K) ATPase activities were nearly wild type but both showed increased stimulation by substrates. Peptide binding and reactivation of denatured luciferase were enhanced in Ssa1(A17V) and Ssa1(R34K) but compromised in Ssa1(L483W). The nucleotide exchange factor Fes1 influenced ATPase of wild type Ssa1 and each mutant differently. Partial protease digestion uncovered similar and distinct conformational changes of the substrate-binding domain among the three mutants. Our data suggest that prion-impairing mutations of Ssa1 can increase or decrease substrate interactions, alter the Hsp70 reaction cycle at different points and impair normal NBD-SBD cooperation.