2015
DOI: 10.1021/acs.biochem.5b00148
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ATP Acyl Phosphate Reactivity Reveals Native Conformations of Hsp90 Paralogs and Inhibitor Target Engagement

Abstract: Hsp90 is an ATP-dependent chaperone of widespread interest as a drug target. Here, using an LC-MS/MS chemoproteomics platform based on a lysine-reactive ATP acyl phosphate probe, several Hsp90 inhibitors were profiled in native cell lysates. Inhibitor specificities for all four human paralogs of Hsp90 were simultaneously monitored at their endogenous relative abundances. Equipotent inhibition of probe labeling in each paralog occurred at sites both proximal to and distal from bound ATP observed in Hsp90 cocrys… Show more

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Cited by 21 publications
(22 citation statements)
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“…Our results are in line with the observation that 17-AAG mimics the binding of ADP (Roe et al, 1999), and contacts between NTD and MD that are required for ATP hydrolysis (Cunningham et al, 2008). The results also agree with the observation of a recent study which found that MD residues, including and surrounding K347 of HS90B, were labeled by an ATP acyl phosphate probe (Nordin et al, 2015). Nordin et al concluded that the ATP acyl phosphate probe identified a novel, highly conserved conformational state of Hsp90, and although no model was provided, their data are in excellent agreement with our results of a compact conformation that is enriched upon 17-AAG binding.…”
Section: Resultssupporting
confidence: 92%
“…Our results are in line with the observation that 17-AAG mimics the binding of ADP (Roe et al, 1999), and contacts between NTD and MD that are required for ATP hydrolysis (Cunningham et al, 2008). The results also agree with the observation of a recent study which found that MD residues, including and surrounding K347 of HS90B, were labeled by an ATP acyl phosphate probe (Nordin et al, 2015). Nordin et al concluded that the ATP acyl phosphate probe identified a novel, highly conserved conformational state of Hsp90, and although no model was provided, their data are in excellent agreement with our results of a compact conformation that is enriched upon 17-AAG binding.…”
Section: Resultssupporting
confidence: 92%
“…Although we cannot rule out the possibility of alternative mechanisms, e.g. probe binding due to domain- (Nordin et al, 2015) or protein-interactions (Okerberg et al, 2014), we do provide evidence that the C1 domain serves as a ligand binding site for ritanserin distinct from the ATP binding region of DGKα (Figure 5A and 6A). The overlapping (DAGKa) and distinct (C1) binding sites of ritanserin compared with ATP helps explain previous kinetic findings of a mixed competitive mechanism of inhibition whereby ritanserin prefers to bind a DGKα-ATP complex (Boroda et al, 2017).…”
Section: Discussionmentioning
confidence: 70%
“…Finally, it is further unlikely given the experimental validation of the geldanamycin scaffold as chaperone specific in both human and P. falciparum chaperones [24, 48], and for the lack of off-target effects against other ATP binding proteins like protein kinases [49]. Therefore, a more likely explanation for the activity of these inhibitors could be associated with the inhibition of additional members of the Hsp90 family, such as Grp94 or Trap-1 [50, 51]. The results support this hypothesis since the most active compounds against malaria parasite, 17-DMAG and NVP-AUY922, also showed the highest affinity for the two Plasmodium chaperones tested (Table 2).…”
Section: Discussionmentioning
confidence: 99%