Binding of MG132 or Deletion of the Thr Active Sites in HslV Subunits Increases the Affinity of HslV Protease for HslU ATPase and Makes This Interaction Nucleotide-independent

HslVU is an ATP-dependent protease in bacteria consisting of HslV dodecamer and HslU hexamer. Upon ATP binding, HslU ATPase allosterically activates the catalytic function of HslV protease by 1–2 orders of magnitude. However, relatively little is known about the role of HslV in the control of HslU function. Here we describe the involvement of the N-terminal Thr active sites (Thr-1) of HslV in the communication between HslV and HslU. Binding of proteasome inhibitors to Thr-1 led to a dramatic increase in the interaction between HslV and HslU with a marked increase in ATP hydrolysis by HslU. Moreover, carbobenzoxy-leucyl-leucyl-leucinal (MG132) could bind to Thr-1 of free HslV, and this binding induced a tight interaction between HslV and HslU with the activation of HslU ATPase, suggesting that substrate-bound HslV can allosterically regulate HslU function. Unexpectedly, the deletion of Thr-1 also caused a dramatic increase in the affinity between HslV and HslU even in the absence of ATP. Furthermore, the increase in the number of the Thr-1 deletion mutant subunit in place of HslV subunit in a dodecamer led to a proportional increase in the affinity between HslV and HslU with gradual activation of HslU ATPase. Although the molecular mechanism elucidating how the Thr-1 deletion influences the interaction between HslV and HslU remains unknown, these results suggest an additional allosteric mechanism for the control of HslU function by HslV. Taken together, our findings indicate a critical involvement of Thr-1 of HslV in the reciprocal control of HslU function and, thus, for their communication.