Abstract
The endosomal sorting complexes required for transport (ESCRTs) function in a variety of membrane remodeling processes including multivesicular body sorting, abscission during cytokinesis, budding of enveloped viruses, and repair of the plasma membrane. Vps4 ATPase activity modulates ESCRT function and is itself modulated by its cofactor Vta1 and its substrate ESCRT-III. The carboxyl-terminal Vta1/SBP-1/Lip5 (VSL) domain of Vta1 binds to the Vps4 β-domain to promote Vps4 oligomerization-dependent ATP hydrolysis. Additionally, the Vps4 stimulatory element (VSE) of Vta1 contributes to enhancing Vps4 oligomer ATP hydrolysis. The VSE is also required for Vta1-dependent stimulation of Vps4 by ESCRT-III subunits. However, the manner by which the Vta1 VSE contributes to Vps4 activation is unknown. Existing structural data were used to generate a model of the Vta1 VSE in complex with Vps4. This model implicated residues within the small ATPase associated with various activities (AAA) domain, specifically α-helices 7 and 9, as relevant contact sites. Rational generation of Vps4 mutants defective for VSE-mediated stimulation, as well as intergenic compensatory mutations, support the validity of this model. These findings have uncovered the Vps4 surface responsible for coordinating ESCRT-III-stimulated Vta1 input during ESCRT function and identified a novel mechanism of Vps4 stimulation.
Highlights
endosomal sorting complexes required for transport (ESCRTs)-III can enhance Vta1 stimulation of Vps4 ATPase activity via the Vps4 stimulatory element (VSE) of Vta1
The mechanisms by which these inputs are transmitted to the Vps4 associated with various activities (AAA) domain to alter ATP hydrolysis are unclear
Vta1 residues implicated for the stimulatory activity of the VSE (Leu-284, Ile-287, and Met-288) [53] are proximal to Vps4 residues Met-330 and Leu-407 within the small AAA domain
Summary
ESCRT-III can enhance Vta stimulation of Vps ATPase activity via the Vps stimulatory element (VSE) of Vta. Binding of ESCRT-III subunits Did or Vps to the amino-terminal Vta MIT domains relieve autoinhibition within Vta to further enhance stimulation of Vps ATP hydrolysis via the Vta VSE [31, 43, 46, 47, 53]. Vps mutants with these residues altered exhibited concentration-dependent ATPase activity comparable with that of WT Vps and were responsive to direct stimulation by ESCRT-III, indicating that these mutants do not globally compromise Vps structure and function These Vps mutants exhibited defects in VSE-mediated activation by Vta. Vps4(L407K) exhibited deficits in the maturation of the MVB cargo CPS and recycling of ESCRT-III subunit Snf in vivo These observations support a model in which the Vta VSE contacts the Vps small AAA domain via ␣7 and ␣9 to mediate ESCRT-III enhancement of Vps41⁄7Vta, thereby promoting ATP hydrolysis and coordinating ESCRT function
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