Antisense oligonucleotide treatment ameliorates IFN-γ–induced proteinuria in APOL1-transgenic mice
Mariam Aghajan, Sheri L. Booten, Magnus Althage, Christopher E. Hart, Anette Ericsson, Ingela Maxvall, Joseph Ochaba, Angela Menschik-Lundin, Judith Hartleib, Steven Kuntz, Danielle Gattis, Christine Ahlström, Andrew T. Watt, Jeffery A. Engelhardt, Brett P. Monia, Maria Chiara Magnone, Shuling Guo
Mariam Aghajan, Sheri L. Booten, Magnus Althage, Christopher E. Hart, Anette Ericsson, Ingela Maxvall, Joseph Ochaba, Angela Menschik-Lundin, Judith Hartleib, Steven Kuntz, Danielle Gattis, Christine Ahlström, Andrew T. Watt, Jeffery A. Engelhardt, Brett P. Monia, Maria Chiara Magnone, Shuling Guo
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Research Article Nephrology Therapeutics

Antisense oligonucleotide treatment ameliorates IFN-γ–induced proteinuria in APOL1-transgenic mice

Abstract

African Americans develop end-stage renal disease at a higher rate compared with European Americans due to 2 polymorphisms (G1 and G2 risk variants) in the apolipoprotein L1 (APOL1) gene common in people of African ancestry. Although this compelling genetic evidence provides an exciting opportunity for personalized medicine in chronic kidney disease, drug discovery efforts have been greatly hindered by the fact that APOL1 expression is lacking in rodents. Here, we describe a potentially novel physiologically relevant genomic mouse model of APOL1-associated renal disease that expresses human APOL1 from the endogenous human promoter, resulting in expression in similar tissues and at similar relative levels as humans. While naive APOL1-transgenic mice did not exhibit a renal disease phenotype, administration of IFN-γ was sufficient to robustly induce proteinuria only in APOL1 G1 mice, despite inducing kidney APOL1 expression in both G0 and G1 mice, serving as a clinically relevant “second hit.” Treatment of APOL1 G1 mice with IONIS-APOL1Rx, an antisense oligonucleotide (ASO) targeting APOL1 mRNA, prior to IFN-γ challenge robustly and dose-dependently inhibited kidney and liver APOL1 expression and protected against IFN-γ–induced proteinuria, indicating that the disease-relevant cell types are sensitive to ASO treatment. Therefore, IONIS-APOL1Rx may be an effective therapeutic for APOL1 nephropathies and warrants further development.

Authors

Mariam Aghajan, Sheri L. Booten, Magnus Althage, Christopher E. Hart, Anette Ericsson, Ingela Maxvall, Joseph Ochaba, Angela Menschik-Lundin, Judith Hartleib, Steven Kuntz, Danielle Gattis, Christine Ahlström, Andrew T. Watt, Jeffery A. Engelhardt, Brett P. Monia, Maria Chiara Magnone, Shuling Guo

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Figure 4

IONIS-APOL1Rx is an APOL1 ASO that reduces APOL1 mRNA levels in vitro and in vivo.

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IONIS-APOL1Rx is an APOL1 ASO that reduces APOL1 mRNA levels in vitro an...
(A) APOL1 expression in A431 cells in vitro (n = 4) was measured by qRT-PCR after 72 hours free uptake of IONIS-APOL1Rx or control ASO and normalized to GAPDH expression. IONIS-APOL1Rx significantly reduced APOL1 expression compared with control ASO. (B) A431 cells were treated with IONIS-APOL1Rx for 72 hours by free uptake (n = 4) and expression of APOL1, APOL2, and APOL3 were measured by qRT-PCR followed by normalization to GAPDH expression. (C and D) APOL1 G0–transgenic mice were treated with IONIS-APOL1Rx 1 time per week for 4 weeks and sacrificed 48 hours after the last dose (n = 3–4). (C) Liver and kidney APOL1 expression was measured by qRT-PCR and normalized to Cyp expression. IONIS-APOL1Rx significantly reduced APOL1 mRNA expression compared with PBS control. (D) Plasma APOL1 levels were measured by ELISA and are shown relative to PBS control levels. IONIS-APOL1Rx significantly reduced plasma APOL1 compared with PBS control. All data are presented as mean ± SD. Two-way ANOVA with Bonferroni’s multiple comparisons test for A and one-way ANOVA with Dunnett’s multiple comparison’s test for C and D, *P < 0.05; ***P < 0.001.