PIK3CA inhibition in models of proliferative glomerulonephritis and lupus nephritis
Junna Yamaguchi, … , Fabiola Terzi, Guillaume Canaud
Junna Yamaguchi, … , Fabiola Terzi, Guillaume Canaud
Published June 6, 2024
Citation Information: J Clin Invest. 2024;134(15):e176402. https://doi.org/10.1172/JCI176402.
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Research Article Nephrology

PIK3CA inhibition in models of proliferative glomerulonephritis and lupus nephritis

Abstract

Proliferative glomerulonephritis is a severe condition that often leads to kidney failure. There is a significant lack of effective treatment for these disorders. Here, following the identification of a somatic PIK3CA gain-of-function mutation in podocytes of a patient, we demonstrate using multiple genetically engineered mouse models, single-cell RNA sequencing, and spatial transcriptomics the crucial role played by this pathway for proliferative glomerulonephritis development by promoting podocyte proliferation, dedifferentiation, and inflammation. Additionally, we show that alpelisib, a PI3Kα inhibitor, improves glomerular lesions and kidney function in different mouse models of proliferative glomerulonephritis and lupus nephritis by targeting podocytes. Surprisingly, we determined that pharmacological inhibition of PI3Kα affects B and T lymphocyte populations in lupus nephritis mouse models, with a decrease in the production of proinflammatory cytokines, autoantibodies, and glomerular complement deposition, which are all characteristic features of PI3Kδ inhibition, the primary PI3K isoform expressed in lymphocytes. Importantly, PI3Kα inhibition does not impact lymphocyte function under normal conditions. These findings were then confirmed in human lymphocytes isolated from patients with active lupus nephritis. In conclusion, we demonstrate the major role played by PI3Kα in proliferative glomerulonephritis and show that in this condition, alpelisib acts on both podocytes and the immune system.

Authors

Junna Yamaguchi, Pierre Isnard, Noémie Robil, Pierre de la Grange, Clément Hoguin, Alain Schmitt, Aurélie Hummel, Jérôme Megret, Nicolas Goudin, Marine Luka, Mickaël M. Ménager, Cécile Masson, Mohammed Zarhrate, Christine Bôle-Feysot, Michalina Janiszewska, Kornelia Polyak, Julien Dairou, Sara Baldassari, Stéphanie Baulac, Christine Broissand, Christophe Legendre, Fabiola Terzi, Guillaume Canaud

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Figure 4

Alpelisib improves kidney lesions in uninephrectomized PIK3CAPod-HO mice.

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Alpelisib improves kidney lesions in uninephrectomized PIK3CAPod-HO mice...
(A) Experimental protocol design. UNx, uninephrectomy. (BM) n = 8 for PIK3CAWT-vehicle, PIK3CAWT-alpelisib, PIK3CAHO-vehicle, and n = 9 for PIK3CAHO-alpelisib, unless otherwise stated. (B and C) Urinary albumin/creatinine ratio and BUN of PIK3CAWT and PIK3CAPod-HO mice at sacrifice (2 weeks of treatment following UNx). (D) Representative PAS staining of UNx kidneys from PIK3CAWT and PIK3CAPod-HO mice. (EK) Kidneys from PIK3CAWT and PIK3CAPod-HO mice at sacrifice. (E) PAS staining and (F) glomerular sclerosis (GS) index. (G) p-AKTSer473 immunofluorescent staining and (H) p-AKTSer473 quantification of glomeruli (n = 5 mice per group). Tx, treatment. (I) p-S6RP/nephrin coimmunofluorescent staining and their glomerular quantification (J and K) (n = 5 mice per group). (L) Trajectory of the albumin/creatinine ratio in the urine, and (M) trajectory of GS index of PIK3CAPod-HO mice following UNx and treated with either vehicle or alpelisib. Data are represented as mean ± SD from 3 independent experiments (B, C, F, L, and M) or mean ± SD and representative of 3 independent experiments (H, J, and K). P values were calculated using 2-way ANOVA with Tukey’s post hoc test (B, C, F, H, J, and K), Wilcoxon’s matched-pairs signed-rank test (L), or 2-way ANOVA with Bonferroni’s multiple-comparison test (M). Scale bars: 32.2 μm (D and E) and 20 μm (G and I). Some data are identical between B and L.