A dual-reporter mouse for therapeutic discovery in Angelman syndrome
Hanna Vihma, Lucas M. James, Hannah C. Nourie, Audrey L. Smith, Siyuan Liang, Carlee A. Friar, Tasmai Vulli, Lei Xing, Dale O. Cowley, Alain C. Burette, Benjamin D. Philpot
Hanna Vihma, Lucas M. James, Hannah C. Nourie, Audrey L. Smith, Siyuan Liang, Carlee A. Friar, Tasmai Vulli, Lei Xing, Dale O. Cowley, Alain C. Burette, Benjamin D. Philpot
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Research Article Genetics Neuroscience

A dual-reporter mouse for therapeutic discovery in Angelman syndrome

Abstract

Angelman syndrome is a neurodevelopmental disorder caused by loss of the maternal UBE3A allele, the sole source of UBE3A in mature neurons owing to epigenetic silencing of the paternal allele. Although emerging therapies are being developed to restore UBE3A expression by activating the dormant paternal UBE3A allele, existing mouse models for such preclinical studies have limited throughput and utility, creating bottlenecks for both in vitro therapeutic screening and in vivo characterization. To address this, we developed the Ube3a-INSG dual-reporter knockin mouse, in which an IRES-Nanoluciferase-T2A-Sun1-sfGFP (INSG) cassette was inserted downstream of the endogenous Ube3a stop codon. The INSG model preserves UBE3A protein levels and function while enabling 2 complementary allele-specific readouts: Sun1-sfGFP and Nanoluciferase. We show that Sun1-sfGFP, a nuclear envelope–localized reporter, enables single-cell fluorescence analysis, whole-brain light-sheet imaging, and nuclear quantification by flow cytometry. Further, Nanoluciferase supports high-throughput luminescence assays for sensitive pharmacological profiling in cultured neurons and noninvasive in vivo bioluminescence imaging for pharmacodynamic assessment. By combining scalable screening, cellular analysis, and real-time in vivo monitoring in a single model, the Ube3a-INSG dual-reporter mouse provides a powerful platform to accelerate therapeutic development centered on UBE3A.

Authors

Hanna Vihma, Lucas M. James, Hannah C. Nourie, Audrey L. Smith, Siyuan Liang, Carlee A. Friar, Tasmai Vulli, Lei Xing, Dale O. Cowley, Alain C. Burette, Benjamin D. Philpot

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Figure 10

GFP and Nluc reporters provide concordant pharmacological readouts for measuring changes in allele-specific Ube3a expression in mouse primary neurons from patINSG and matINSG mice.

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GFP and Nluc reporters provide concordant pharmacological readouts for m...
(AD) Pharmacological profiles for paternal Ube3a unsilencing in patINSG neurons treated with (S)-PHA533533 were assessed using luciferase- and immunofluorescence-based readouts. (A) EC50 values from 3 independent readouts — normalized relative light units (RLU), mean GFP fluorescence, and percentage GFP-positive neurons — show nearly identical potencies with overlapping 95% confidence intervals (CIs). (B) CC50 values from RLU and viability (percentage surviving neurons) also show overlapping 95% CIs. (C and D) Representative dose-response curves illustrate close agreement between Nluc and GFP readouts (C) and between Nluc and cell count–based cytotoxicity (D). (E) EC50 and CC50 values between GFP and Nluc assays showed no significant differences. All assays were performed in quadruplicate in 3 independent experiments (N = 3). Statistical analysis by 2-tailed t tests (E).