Efficacy of AAV9-mediated SGPL1 gene transfer in a mouse model of S1P lyase insufficiency syndrome
Piming Zhao, Gizachew B. Tassew, Joanna Y. Lee, Babak Oskouian, Denise P. Muñoz, Jeffrey B. Hodgin, Gordon L. Watson, Felicia Tang, Jen-Yeu Wang, Jinghui Luo, Yingbao Yang, Sarah King, Ronald M. Krauss, Nancy Keller, Julie D. Saba
Piming Zhao, Gizachew B. Tassew, Joanna Y. Lee, Babak Oskouian, Denise P. Muñoz, Jeffrey B. Hodgin, Gordon L. Watson, Felicia Tang, Jen-Yeu Wang, Jinghui Luo, Yingbao Yang, Sarah King, Ronald M. Krauss, Nancy Keller, Julie D. Saba
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Research Article Metabolism Therapeutics

Efficacy of AAV9-mediated SGPL1 gene transfer in a mouse model of S1P lyase insufficiency syndrome

Abstract

Sphingosine-1-phosphate lyase insufficiency syndrome (SPLIS) is a rare metabolic disorder caused by inactivating mutations in sphingosine-1-phosphate lyase 1 (SGPL1), which is required for the final step of sphingolipid metabolism. SPLIS features include steroid-resistant nephrotic syndrome and impairment of neurological, endocrine, and hematopoietic systems. Many affected individuals die within the first 2 years. No targeted therapy for SPLIS is available. We hypothesized that SGPL1 gene replacement would address the root cause of SPLIS, thereby serving as a universal treatment for the condition. As proof of concept, we evaluated the efficacy of adeno-associated virus 9–mediated transfer of human SGPL1 (AAV-SPL) given to newborn Sgpl1-KO mice that model SPLIS and die in the first weeks of life. Treatment dramatically prolonged survival and prevented nephrosis, neurodevelopmental delay, anemia, and hypercholesterolemia. STAT3 pathway activation and elevated proinflammatory and profibrogenic cytokines observed in KO kidneys were attenuated by treatment. Plasma and tissue sphingolipids were reduced in treated compared with untreated KO pups. SGPL1 expression and activity were measurable for at least 40 weeks. In summary, early AAV-SPL treatment prevents nephrosis, lipidosis, and neurological impairment in a mouse model of SPLIS. Our results suggest that SGPL1 gene replacement holds promise as a durable and universal targeted treatment for SPLIS.

Authors

Piming Zhao, Gizachew B. Tassew, Joanna Y. Lee, Babak Oskouian, Denise P. Muñoz, Jeffrey B. Hodgin, Gordon L. Watson, Felicia Tang, Jen-Yeu Wang, Jinghui Luo, Yingbao Yang, Sarah King, Ronald M. Krauss, Nancy Keller, Julie D. Saba

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Figure 4

Stat3 activation and cytokine upregulation in SPLIS kidneys.

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Stat3 activation and cytokine upregulation in SPLIS kidneys. (A) Immunob...
(A) Immunoblot showing total and tyrosine 705–phosphorylated (activated) Stat3 in kidneys of WT, KO, AAV-SPL–treated KO (AAV), and AAV-SPLK353L–treated KO (K353L) mice; n = 2/group. GAPDH is a loading control. (B) Relative expression of Stat3 target genes Lcn2, Timp1, and Socs1 and Socs3 in WT (black circles), KO (white circles), and AAV kidney (red circles), shown as fold change from WT. For KO vs. AAV, P = 0.003 for all genes except Socs3. (C) Liver and (D) kidney cytokines of WT, KO, and AAV mice, shown as log fold change from WT, with same key as in B. For BD, unpaired t test with Bonferroni’s correction (and Welch’s correction where appropriate) was applied. For liver cytokines, AAV vs. KO: P = 0.0097 for Tnf-α; P = 0.0363 for Il-6; NSD for Ifn-γ; P = 0.0004 for Il-1β; P = 0.0003 for Tgf-β; P < 0.0001 for Mcp1. For kidney cytokines, AAV vs. KO: P = 0.0009 for Tnf-α; P = 0.0023 for Il-6; P = 0.036 for Ifn-γ; P = 0.0046 for Il-1β; P = 0.005 for Tgf-β; P < 0.0001 for Mcp1.