Endolysosomal sorting of ubiquitylated caveolin-1 is regulated by VCP and UBXD1 and impaired by VCP disease mutations

Abstract: The AAA-ATPase VCP/p97 cooperates with distinct cofactors to process ubiquitinated proteins in different cellular pathways 1–3. VCP missense mutations cause a systemic degenerative disease in humans, but the molecular pathogenesis is unclear 4, 5. We used an unbiased mass spectrometry approach and identified a VCP complex with the UBXD1 cofactor, which binds the plasma membrane protein caveolin-1 (Cav1) and whose formation is specifically disrupted by disease-associated mutations. We show that VCP-UBXD1 target… Show more

“…Specifically, increased amounts of p47, UFD1-NPL4, and ataxin-3, but decreased amounts of UBXD1 and UBE4B have been found. Interestingly, the decreased binding to UBXD1 is associated with a blockage of the endolysosomal trafficking of caveolin 1 [10]. Although disease mutants and wild-type p97 interact with both cofactors in a similar manner in vitro, disease mutants no longer can be activated by p37, but are still inhibited by p47 [112].…”

“…Due to an altered inter-subunit communication in IBMPFD mutants the D1 domains fail to regulate their respective nucleotide-binding states as evidenced by a lower amount of pre-bound ADP and weaker affinity for ADP, resulting in a better accessibility for ATP in comparison to the wild-type protein [29,30]. The altered conformational equilibrium of the N domain in p97 disease mutants is accompanied by elevated ATPase activities in vitro [43,115,116] and altered interactions with some but not all cofactors in cells, which has been proposed to be key to the pathogenesis of IBMPFD [10,[116][117][118] (for a recent review see [119]). Specifically, increased amounts of p47, UFD1-NPL4, and ataxin-3, but decreased amounts of UBXD1 and UBE4B have been found.…”

“…In higher eukaryotes, the p97 UBXD1 complex represents a third, distinct p97 assembly with so far poorly defined function(s) in endolysosomal trafficking [10]. Even though UBXD1 belongs to the UBX family of p97 cofactors, it does not bind p97 via its UBX domain because the R. .…”

“…A subsequent bioinformatic search defined a minimal VIM consensus sequence and identified several additional VIM-containing proteins [63]. These include ANKZF1 (ANKyrin repeat and Zinc Finger domain-containing-1, also known as ZNF744 or Vms1), a protein that has been implicated in mitochondrial protein degradation [64]; the UBX protein UBXD1, involved in sorting of ubiquitylated cargo in the endocytic pathway [10]; AIRAPL (Arsenite Inducible RNA Associated Protein Like Protein, also known as ZFAND2B), an ER membrane-anchored protein which associates with and regulates the function of the 26S proteasome under arsenite stress [65]; SelS (also called VIMP, VCP-Interacting Membrane Protein), a protein involved in the recruitment of p97 to the ER membrane [66]; and the yeast protein Wss1, a metalloprotease involved in DNA-protein crosslink repair [67]. With the exception of SelS it was shown that these proteins interact via their VIM with p97 [63,64,[67][68][69].…”

“…On the cellular level, both diseases are characterized by cytoplasmic protein inclusions (aggregates) positive for ubiquitin and the Tar DNA-binding Protein 43 . Analysis of IBMPFD patient-derived cell-lines and IBMPFD mouse models revealed that disease-causing point mutations in VCP affect autophagy and endolysosomal protein degradation [9,10].…”

Control of p97 function by cofactor binding

“…Specifically, increased amounts of p47, UFD1-NPL4, and ataxin-3, but decreased amounts of UBXD1 and UBE4B have been found. Interestingly, the decreased binding to UBXD1 is associated with a blockage of the endolysosomal trafficking of caveolin 1 [10]. Although disease mutants and wild-type p97 interact with both cofactors in a similar manner in vitro, disease mutants no longer can be activated by p37, but are still inhibited by p47 [112].…”

“…Due to an altered inter-subunit communication in IBMPFD mutants the D1 domains fail to regulate their respective nucleotide-binding states as evidenced by a lower amount of pre-bound ADP and weaker affinity for ADP, resulting in a better accessibility for ATP in comparison to the wild-type protein [29,30]. The altered conformational equilibrium of the N domain in p97 disease mutants is accompanied by elevated ATPase activities in vitro [43,115,116] and altered interactions with some but not all cofactors in cells, which has been proposed to be key to the pathogenesis of IBMPFD [10,[116][117][118] (for a recent review see [119]). Specifically, increased amounts of p47, UFD1-NPL4, and ataxin-3, but decreased amounts of UBXD1 and UBE4B have been found.…”

“…In higher eukaryotes, the p97 UBXD1 complex represents a third, distinct p97 assembly with so far poorly defined function(s) in endolysosomal trafficking [10]. Even though UBXD1 belongs to the UBX family of p97 cofactors, it does not bind p97 via its UBX domain because the R. .…”

“…A subsequent bioinformatic search defined a minimal VIM consensus sequence and identified several additional VIM-containing proteins [63]. These include ANKZF1 (ANKyrin repeat and Zinc Finger domain-containing-1, also known as ZNF744 or Vms1), a protein that has been implicated in mitochondrial protein degradation [64]; the UBX protein UBXD1, involved in sorting of ubiquitylated cargo in the endocytic pathway [10]; AIRAPL (Arsenite Inducible RNA Associated Protein Like Protein, also known as ZFAND2B), an ER membrane-anchored protein which associates with and regulates the function of the 26S proteasome under arsenite stress [65]; SelS (also called VIMP, VCP-Interacting Membrane Protein), a protein involved in the recruitment of p97 to the ER membrane [66]; and the yeast protein Wss1, a metalloprotease involved in DNA-protein crosslink repair [67]. With the exception of SelS it was shown that these proteins interact via their VIM with p97 [63,64,[67][68][69].…”

“…On the cellular level, both diseases are characterized by cytoplasmic protein inclusions (aggregates) positive for ubiquitin and the Tar DNA-binding Protein 43 . Analysis of IBMPFD patient-derived cell-lines and IBMPFD mouse models revealed that disease-causing point mutations in VCP affect autophagy and endolysosomal protein degradation [9,10].…”

Control of p97 function by cofactor binding

The ATPase VCP/p97 functions as a disaggregase against toxic Huntingtin‐exon1 aggregates

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