APOL1–Mediated Cell Injury Involves Disruption of Conserved Trafficking Processes

Kruzel-Davila, Etty; Shemer, Revital; Ofir, Ayala; Bavli-Kertselli, Ira; Darlyuk-Saadon, Ilona; Oren-Giladi, Pazit; Wasser, Walter G.; Magen, Daniella; Zaknoun, Eid; Schuldiner, Maya; Salzberg, Adi; Kornitzer, Daniel; Marelja, Zvonimir; Simons, Matias; Skorecki, Karl

doi:10.1681/asn.2016050546

Cited by 89 publications

(118 citation statements)

References 84 publications

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“…The formation of such a triple complex results in the activation of multiple α v β 3 -integrin signaling pathways, which leads to the formation of autophagosomes, dysregulation of the actin cytoskeleton and, ultimately, cell detachment. Therefore, our results do not challenge a concurrent mechanism for cell injury emanating from podocyte-generated APOL1 proteins, as was previously suggested 27–30 . Rather, they suggest that, for the podocyte injury to occur, the secreted APOL1 risk-variant protein needs to be internalized by the cell in a urokinase receptor and β 3 -integrin-dependent manner (Supplementary Fig.…”

Section: Discussionsupporting

confidence: 75%

A tripartite complex of suPAR, APOL1 risk variants and αvβ3 integrin on podocytes mediates chronic kidney disease

Hayek

Koh

Grams

et al. 2017

Nat Med

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176

170

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Soluble urokinase plasminogen activator receptor (suPAR) independently predicts chronic kidney disease (CKD) incidence and progression. Apolipoprotein L1 (APOL1) gene variants G1 and G2, but not the reference allele (G0), are associated with an increased risk of CKD in individuals of recent African ancestry. Here we show in two large, unrelated cohorts that decline in kidney function associated with APOL1 risk variants was dependent on plasma suPAR levels: APOL1-related risk was attenuated in patients with lower suPAR, and strengthened in those with higher suPAR levels. Mechanistically, surface plasmon resonance studies identified high-affinity interactions between suPAR, APOL1 and αvβ3 integrin, whereby APOL1 protein variants G1 and G2 exhibited higher affinity for suPAR-activated avb3 integrin than APOL1 G0. APOL1 G1 or G2 augments αvβ3 integrin activation and causes proteinuria in mice in a suPAR-dependent manner. The synergy of circulating factor suPAR and APOL1 G1 or G2 on αvβ3 integrin activation is a mechanism for CKD.

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Section: Discussionsupporting

confidence: 75%

A tripartite complex of suPAR, APOL1 risk variants and αvβ3 integrin on podocytes mediates chronic kidney disease

Hayek

Koh

Grams

et al. 2017

Nat Med

Self Cite

176

170

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“…44 Two reports of ectopic expression of variant but not reference APOL1s in the Drosophila nephrocyte, a cell type with some similarities to the podocyte, increased endocytosis and loss of nephrocytes with aging. 45,46 Experiments in Saccharomyces cerevisiae also found a genetic interaction between APOL1 expression and deletion of components in the endocytic pathway. 46 Together, these results suggest that processes such as podocyte adhesion and endocytic trafficking, in addition to cytotoxicity, may also contribute to renal pathology associated with APOL1 risk variants.…”

Section: Discussionmentioning

confidence: 96%

ApoL1 Overexpression Drives Variant-Independent Cytotoxicity

O’Toole

Schilling

Kunze

et al. 2017

JASN

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Coding variants in the gene are associated with kidney diseases in African ancestral populations; yet, the underlying biologic mechanisms remain uncertain. Variant-dependent autophagic and cytotoxic cell death have been proposed as pathogenic pathways mediating kidney injury. To examine this possibility, we conditionally expressed APOL1-G0 (reference), -G1, and -G2 (variants) using a tetracycline-regulated system in HEK293 cells. Autophagy was monitored biochemically and cell death was measured using multiple assays. We measured intracellular Na and K content with atomic absorption spectroscopy and APOL1-dependent currents with whole-cell patch clamping. Neither reference nor variant APOL1s induced autophagy. At high expression levels, APOL1-G0, -G1, and -G2 inserted into the plasma membrane and formed pH-sensitive cation channels, causing collapse of cellular Na and K gradients, phosphorylation of p38 mitogen-activated protein kinase, and cell death, without variant-dependent differences. APOL1-G0 and -G2 exhibited similar channel properties in whole-cell patch clamp experiments. At low expression levels, neither reference nor variant APOL1s localized on the plasma membrane, Na and K gradients were maintained, and cells remained viable. Our results indicate that APOL1-mediated pore formation is critical for the trypanolytic activity of APOL1 and drives APOL1-mediated cytotoxicity in overexpression systems. The absence of cytotoxicity at physiologic expression levels suggests variant-dependent intracellular K loss and cytotoxicity does not drive kidney disease progression.

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“…Localization of VAMP8 with its cognate autophagosomal SNARE partner STX17 is diminished in presence of APOL1 variants (24). In addition, mice and Drosophila transgenic for human APOL1 kidney disease risk variants have been shown to have disordered endosomal trafficking and variant-dependent glomerular and nephrocyte injury (24,34,35). Our results suggest a model in which APOL1, in concert with VAMP8 or other SNARE proteins, identifies vesicles containing cargo capable of mediating cellular damage and their functional interaction mediates a cellular response capable of attenuating/mitigating the pathogenic potential of these cargos.…”

Section: Discussionmentioning

confidence: 99%

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

Madhavan¹,

O’Toole²,

Konieczkowski³

et al. 2017

JCI Insight

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APOL1–Mediated Cell Injury Involves Disruption of Conserved Trafficking Processes

Cited by 89 publications

References 84 publications

A tripartite complex of suPAR, APOL1 risk variants and αvβ3 integrin on podocytes mediates chronic kidney disease

A tripartite complex of suPAR, APOL1 risk variants and αvβ3 integrin on podocytes mediates chronic kidney disease

ApoL1 Overexpression Drives Variant-Independent Cytotoxicity

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

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