Rui Yang scite author profile

Rui Yang

4Publications

32Citation Statements Received

198Citation Statements Given

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Florida State University

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AAGAB is an assembly chaperone regulating AP1 and AP2 clathrin adaptors

Wan

Crisman

Wang

et al. 2021

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Multimeric cargo adaptors such as AP2 play central roles in intracellular membrane trafficking. We recently discovered that the assembly of AP2 adaptor, a key player in clathrin-mediated endocytosis, is a highly organized process controlled by alpha and gamma adaptin binding protein (AAGAB, also known as p34). In this work, we demonstrate that besides AP2, AAGAB also regulates the assembly of AP1, a cargo adaptor involved in clathrin-mediated transport between the trans-Golgi and the endosome. AAGAB, however, is not involved in the formation of other adaptor complexes including AP3. AAGAB promotes AP1 assembly by binding and stabilizing the γ and σ subunits of AP1, and its mutation abolishes AP1 assembly and disrupts AP1-mediated cargo trafficking. Comparative proteomic analyses indicate that AAGAB mutation massively alters surface protein homeostasis and its loss-of-function phenotypes reflect the synergistic effects of AP1 and AP2 deficiency. Together, these findings establish AAGAB as an assembly chaperone for both AP1 and AP2 adaptors and pave the way for understanding the pathogenesis of AAGAB-linked diseases.

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Reconstituting and Purifying Assembly Intermediates of Clathrin Adaptors AP1 and AP2

Wang

Yang

Tian

et al. 2022

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Oligomer-to-monomer transition underlies the chaperone function of AAGAB in AP1/AP2 assembly

Tian

Datta

Yang

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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Assembly of protein complexes is facilitated by assembly chaperones. Alpha and gamma adaptin-binding protein (AAGAB) is a chaperone governing the assembly of the heterotetrameric adaptor complexes 1 and 2 (AP1 and AP2) involved in clathrin-mediated membrane trafficking. Here, we found that before AP1/2 binding, AAGAB exists as a homodimer. AAGAB dimerization is mediated by its C-terminal domain (CTD), which is critical for AAGAB stability and is missing in mutant proteins found in patients with the skin disease punctate palmoplantar keratoderma type 1 (PPKP1). We solved the crystal structure of the dimerization-mediating CTD, revealing an antiparallel dimer of bent helices. Interestingly, AAGAB uses the same CTD to recognize and stabilize the γ subunit in the AP1 complex and the α subunit in the AP2 complex, forming binary complexes containing only one copy of AAGAB. These findings demonstrate a dual role of CTD in stabilizing resting AAGAB and binding to substrates, providing a molecular explanation for disease-causing AAGAB mutations. The oligomerization state transition mechanism may also underlie the functions of other assembly chaperones.

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Oligomer-to-Monomer Transition Underlies the Chaperone Function of AAGAB in AP1/AP2 Assembly

Tian

Datta

Yang

et al. 2022

Preprint

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Assembly of protein complexes is facilitated by assembly chaperones. Alpha and gamma adaptin binding protein (AAGAB) is a chaperone governing the assembly of the heterotetrameric adaptor complexes 1 and 2 (AP1 and AP2) involved in clathrin-mediated membrane trafficking. Here, we found that before AP1/2 binding, AAGAB exists as a homotetramer. AAGAB tetramerization is mediated by its C-terminal domain, which is critical for AAGAB stability and is missing in mutant proteins found in patients with the skin disease punctate palmoplantar keratoderma type 1 (PPKP1). We solved the crystal structure of the tetramerization domain (TD), revealing a dimer of dimer assembly. Interestingly, AAGAB uses the same TD to recognize and stabilize the γ subunit in the AP1 complex and the α subunit in the AP2 complex, forming binary complexes containing only one copy of AAGAB. These findings demonstrate a dual role of TD in stabilizing resting AAGAB and binding to substrates, providing a molecular explanation for disease-causing AAGAB mutations. The oligomerization state transition mechanism may also underlie the functions of other assembly chaperones.

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Rui Yang

AAGAB is an assembly chaperone regulating AP1 and AP2 clathrin adaptors

Reconstituting and Purifying Assembly Intermediates of Clathrin Adaptors AP1 and AP2

Oligomer-to-monomer transition underlies the chaperone function of AAGAB in AP1/AP2 assembly

Oligomer-to-Monomer Transition Underlies the Chaperone Function of AAGAB in AP1/AP2 Assembly

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