APOL1 variants change C-terminal conformational dynamics and binding to SNARE protein VAMP8
Sethu M. Madhavan, John F. O’Toole, Martha Konieczkowski, Laura Barisoni, David B. Thomas, Santhi Ganesan, Leslie A. Bruggeman, Matthias Buck, John R. Sedor
Sethu M. Madhavan, John F. O’Toole, Martha Konieczkowski, Laura Barisoni, David B. Thomas, Santhi Ganesan, Leslie A. Bruggeman, Matthias Buck, John R. Sedor
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Research Article Nephrology

APOL1 variants change C-terminal conformational dynamics and binding to SNARE protein VAMP8

Abstract

APOL1 variants in African populations mediate resistance to trypanosomal infection but increase risk for kidney diseases through unknown mechanisms. APOL1 is expressed in glomerular podocytes and does not vary with underlying kidney disease diagnoses or APOL1 genotypes, suggesting that the kidney disease–associated variants dysregulate its function rather than its localization or abundance. Structural homology searches identified vesicle-associated membrane protein 8 (VAMP8) as an APOL1 protein interactor. VAMP8 colocalizes with APOL1 in the podocyte, and the APOL1:VAMP8 interaction was confirmed biochemically and with surface plasmon resonance. APOL1 variants attenuate this interaction. Computational modeling of APOL1’s 3-dimensional structure, followed by molecular dynamics simulations, revealed increased motion of the C-terminal domain of reference APOL1 compared with either variant, suggesting that the variants stabilize a closed or autoinhibited state that diminishes protein interactions with VAMP8. Changes in ellipticity with increasing urea concentrations, as assessed by circular dichroism spectroscopy, showed higher conformational stability of the C-terminal helix of the variants compared with the reference protein. These results suggest that reference APOL1 interacts with VAMP8-coated vesicles, a process attenuated by variant-induced reduction in local dynamics of the C-terminal. Disordered vesicular trafficking in the podocyte may cause injury and progressive chronic kidney diseases in susceptible African Americans subjects.

Authors

Sethu M. Madhavan, John F. O’Toole, Martha Konieczkowski, Laura Barisoni, David B. Thomas, Santhi Ganesan, Leslie A. Bruggeman, Matthias Buck, John R. Sedor

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Figure 4

Kidney disease–associated apolipoprotein L1 variants attenuate protein interaction with vesicle-associated membrane protein 8.

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Kidney disease–associated apolipoprotein L1 variants attenuate protein i...
(A) Carboxy terminal GFP-tagged apolipoprotein L1 (APOL1) (G0, G1, or G2) were overexpressed with carboxy terminal myc-FLAG–tagged vesicle-associated membrane protein 8 (VAMP8) in 293T cells and were coimmunoprecipitated with VAMP8 using an anti-myc antibody. Coimmunoprecipitated APOL1 was detected by Western blot analysis using anti-GFP antibody. The efficiency of VAMP8 coimmunoprecipitation with the APOL1-G1 and -G2 risk variants was reduced compared with reference sequence APOL1-G0. C-terminal GFP-tagged APOL1-G0 also interacts with vesicle-associated membrane protein 1 (VAMP1) as shown by coimmunoprecipitation by C-terminal myc-FLAG–tagged VAMP1. Rabbit IgG was used for control immunoprecipitation experiments (n = 4 for G0 and n = 3 for G1 and G2). (B) Carboxy terminal 6X-His–tagged APOL1 proteins (G0, G1, or G2) or His-tagged sodium/hydrogen exchanger 1 (NHE1), as a nonspecific control protein, on Talon beads were incubated with cell lysates from 293T cells overexpressing myc-FLAG–tagged VAMP8. Representative Western blot of bead-bound protein using anti-myc antibody demonstrates diminished interaction of APOL1-G1 and -G2 variants with VAMP8 (n = 2). (CF) Surface plasmon resonance analysis of VAMP8 (residues 1–76) with amino-terminal 6X-His and T7 tag binding to immobilized N-terminal GST-tagged APOL1 proteins (G0, G1, or G2). GST-tagged APOL1 proteins (residues 305–398) were immobilized on the biosensor chip by amine coupling, and purified VAMP8 was injected at varying concentrations, as labeled. Sensograms show a concentration-dependent binding of VAMP8 to the carboxy terminal domains of APOL1-G0 (C), whereas, the interaction of VAMP8 with the carboxy terminus of the variants APOL1-G1 (D) and APOL1-G2 (E) is diminished. (F) The injection of VAMP8 at a single concentration (172.5 μM) shows reduced binding to the APOL1-G1 and APOL1-G2 variants compared with the APOL1-G0 reference sequence (n = 4 for G0 and n = 3 for G1 and G2).