JAK inhibitor blocks COVID-19 cytokine–induced JAK/STAT/APOL1 signaling in glomerular cells and podocytopathy in human kidney organoids
Sarah E. Nystrom, Guojie Li, Somenath Datta, Karen L. Soldano, Daniel Silas, Astrid Weins, Gentzon Hall, David B. Thomas, Opeyemi A. Olabisi
Sarah E. Nystrom, Guojie Li, Somenath Datta, Karen L. Soldano, Daniel Silas, Astrid Weins, Gentzon Hall, David B. Thomas, Opeyemi A. Olabisi
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Research Article Cell biology Nephrology

JAK inhibitor blocks COVID-19 cytokine–induced JAK/STAT/APOL1 signaling in glomerular cells and podocytopathy in human kidney organoids

Abstract

COVID-19 infection causes collapse of glomerular capillaries and loss of podocytes, culminating in a severe kidney disease called COVID-19–associated nephropathy (COVAN). The underlying mechanism of COVAN is unknown. We hypothesized that cytokines induced by COVID-19 trigger expression of pathogenic APOL1 via JAK/STAT signaling, resulting in podocyte loss and COVAN phenotype. Here, based on 9 biopsy-proven COVAN cases, we demonstrated for the first time, to the best of our knowledge, that APOL1 protein was abundantly expressed in podocytes and glomerular endothelial cells (GECs) of COVAN kidneys but not in controls. Moreover, a majority of patients with COVAN carried 2 APOL1 risk alleles. We show that recombinant cytokines induced by SARS-CoV-2 acted synergistically to drive APOL1 expression through the JAK/STAT pathway in primary human podocytes, GECs, and kidney micro-organoids derived from a carrier of 2 APOL1 risk alleles, but expression was blocked by a JAK1/2 inhibitor, baricitinib. We demonstrate that cytokine-induced JAK/STAT/APOL1 signaling reduced the viability of kidney organoid podocytes but was rescued by baricitinib. Together, our results support the conclusion that COVID-19–induced cytokines are sufficient to drive COVAN-associated podocytopathy via JAK/STAT/APOL1 signaling and that JAK inhibitors could block this pathogenic process. These findings suggest JAK inhibitors may have therapeutic benefits for managing cytokine-induced, APOL1-mediated podocytopathy.

Authors

Sarah E. Nystrom, Guojie Li, Somenath Datta, Karen L. Soldano, Daniel Silas, Astrid Weins, Gentzon Hall, David B. Thomas, Opeyemi A. Olabisi

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Figure 5

Cytokine-induced APOL1 expression correlates with significantly decreased viability and cellular metabolism in organoid-derived podocytes (genotype G1G2).

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Cytokine-induced APOL1 expression correlates with significantly decrease...
Cells are rescued by co-administration with a JAK inhibitor. (A) Schemata summarizing the isolation of organoid-derived glomeruli and subculture of podocytes followed by treatment with or without cytokines and baricitinib with subsequent measures in APOL1, viability, and IF. (B) Representative immunofluorescence staining of DAPI and NEPH1 in organoid-derived podocytes treated for 96 hours with specified treatment conditions; n = 4 biological replicates. All cytokine concentrations were 10 ng/mL. Baricitinib at a 10 μM final concentration was used. Scale bar: 140 μm. (C) Relative APOL1 mRNA levels in organoid-derived podocytes treated for 96 hours with IFN-γ (10 ng/mL), combination of cytokines (10 ng/mL), IFN-γ plus JAK inhibitor (baricitinib, 10 μM), and combination of cytokines plus baricitinib (10 μM) versus media-treated control. GAPDH was used for normalization. Analysis was performed using a t test with significance set at P < 0.05. Data are expressed as mean ± SD; n = 3. (D) Relative fluorescence units were measured after performing a viability assay in organoid-derived podocytes treated for 96 hours with IFN-γ (10 ng/mL), combination of cytokines (10 ng/mL each), IFN-γ plus a JAK inhibitor (baricitinib, 10 μM), and combination of cytokines plus baricitinib (10 μM) versus media-treated control. Data are expressed as mean ± SD. Significance was determined by t test with α = 0.05; n = 3 representing independent biological replicates. (E) Relative luminescence units were measured to quantitate ATP as an indicator of metabolically active cells in organoid-derived podocytes treated for 96 hours with IFN-γ (10 ng/mL), combination of cytokines (10 ng/mL each), IFN-γ plus a JAK inhibitor (baricitinib, 10 μM), and combination of cytokines plus baricitinib (10 μM) versus media-treated control. Data are expressed as mean ± SD. Significance was determined by 2-tailed t tests with α = 0.05; n = 3 representing independent biological replicates.