Abstract
The constitutively expressed heat shock protein 70 kDa (Hsc70) is a major chaperone protein responsible for maintaining proteostasis, yet how its structure translates into functional decisions regarding client fate is still unclear. We previously showed that Hsc70 preserved aberrant Tau, but it remained unknown if selective inhibition of the activity of this Hsp70 isoform could facilitate Tau clearance. Using single point mutations in the nucleotide binding domain, we assessed the effect of several mutations on the functions of human Hsc70. Biochemical characterization revealed that one mutation abolished both Hsc70 ATPase and refolding activities. This variant resembled the ADP-bound conformer at all times yet remained able to interact with cofactors, nucleotides, and substrates appropriately, resembling a dominant negative Hsc70 (DN-Hsc70). We then assessed the effects of this DN-Hsc70 on its client Tau. DN-Hsc70 potently facilitated Tau clearance via the proteasome in cells and brain tissue, in contrast to wild type Hsc70 that stabilized Tau. Thus, DN-Hsc70 mimics the action of small molecule pan Hsp70 inhibitors with regard to Tau metabolism. This shift in Hsc70 function by a single point mutation was the result of a change in the chaperome associated with Hsc70 such that DN-Hsc70 associated more with Hsp90 and DnaJ proteins, whereas wild type Hsc70 was more associated with other Hsp70 isoforms. Thus, isoform-selective targeting of Hsc70 could be a viable therapeutic strategy for tauopathies and possibly lead to new insights in chaperone complex biology.
Highlights
High levels of constitutive heat shock protein 70 (Hsc70) preserve Tau levels, possibly contributing to neuropathology
In this study, using genetic and biochemical approaches, we determined that isoform-selective inhibition of the most abundant Hsp70 family member, Hsc70, can dramatically enhance Tau clearance, similar to what has previously been observed with small molecule pan Hsp70 inhibitors
Almost identically to these inhibitors, the E175S Hsc70 variant took on dominant negative (DN) properties when overexpressed in cells that led to Tau degradation through the proteasome by recruiting Hsp90 proteins [52]
Summary
High levels of constitutive heat shock protein 70 (Hsc70) preserve Tau levels, possibly contributing to neuropathology. Biochemical characterization revealed that one mutation abolished both Hsc ATPase and refolding activities This variant resembled the ADP-bound conformer at all times yet remained able to interact with cofactors, nucleotides, and substrates appropriately, resembling a dominant negative Hsc (DN-Hsc). We assessed the effects of this DN-Hsc on its client Tau. DN-Hsc potently facilitated Tau clearance via the proteasome in cells and brain tissue, in contrast to wild type Hsc that stabilized Tau. DN-Hsc mimics the action of small molecule pan Hsp inhibitors with regard to Tau metabolism. DN-Hsc mimics the action of small molecule pan Hsp inhibitors with regard to Tau metabolism This shift in Hsc function by a single point mutation was the result of a change in the chaperome associated with Hsc such that DN-Hsc associated more with Hsp and DnaJ proteins, whereas wild type Hsc was more associated with other Hsp isoforms. The exchange of ADP for ATP results in a relaxation of the SBD conformation, allowing substrates to disengage and new substrates to bind; for reviews, see Refs. 4 and 5
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