The APOL1 variant p.N264K is predicted to block ion flow by occluding a pore at the cell surface
Verena Höffken, Lara Console, Niklas Nelde, Hermann Pavenstädt, Cesare Indiveri, Thomas Weide

TL;DR
A new APOL1 variant, p.N264K, is found to prevent kidney toxicity by blocking ion flow through a pore at the cell surface.
Contribution
This study provides the first mechanistic explanation for the protective effect of the APOL1 M1-G2 variant against kidney toxicity.
Findings
The p.N264K variant physically blocks ion flux by occluding a pore at the cell surface.
Both G2 and M1-G2 variants have similar intracellular localization and surface expression.
Molecular dynamics suggest lysine at position 264 in M1-G2 prevents ion pore activity.
Abstract
Based on a combination of in silico and cell biological analyses, this study suggests that the APOL1 variant p.N264K (M1) may prevent G2-mediated kidney toxicity by physically blocking ion flux. The APOL1 gene variants G1 and G2 are associated with an increased risk of APOL1-mediated kidney disease. A recently identified variant, p.N264K (M1), mitigates this risk of renal damage by abolishing APOL1-G2’s associated cytotoxicity. However, the molecular and structural basis of this protective effect remains incompletely understood. In this study, we first show that both the cytotoxic G2 and the nontoxic M1-G2 exhibit similar intracellular localization, surface expression, and turnover kinetics. Moreover, N-glycosylation assays indicated no differences in topology, and 3D models demonstrated that both cytotoxic G2 and nontoxic APOL1 M1-G2 span the membrane four times, forming a potential…
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Taxonomy
TopicsRenal Diseases and Glomerulopathies · Coagulation, Bradykinin, Polyphosphates, and Angioedema · Complement system in diseases
