A role for the transcriptional coregulator RIP140 in the control of muscle endurance fitness
Elizabeth Pruzinsky, … , Tejvir S. Khurana, Daniel P. Kelly
Elizabeth Pruzinsky, … , Tejvir S. Khurana, Daniel P. Kelly
Published October 21, 2025
Citation Information: JCI Insight. 2025;10(22):e192376. https://doi.org/10.1172/jci.insight.192376.
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Research Article Metabolism Muscle biology

A role for the transcriptional coregulator RIP140 in the control of muscle endurance fitness

Abstract

Poor skeletal muscle fitness contributes to many chronic disease states, including obesity, heart failure, primary muscle disorders, and age-related sarcopenia. Receptor-interacting protein 140 (RIP140) is a striated muscle–enriched nuclear receptor coregulator known to suppress mitochondrial oxidative capacity. To investigate the role of RIP140 in skeletal muscle, striated muscle–specific RIP140-deficient (strNrip1–/–) mice were generated and characterized. strNrip1–/– mice displayed an enhanced endurance performance phenotype. RNA-sequence (RNA-seq) analysis of glycolytic fast-twitch muscle from strNrip1–/– mice identified a broad array of differentially upregulated metabolic and structural muscle genes known to be induced by endurance training, including pathways involved in mitochondrial biogenesis and respiration, fatty acid oxidation, slow muscle fiber type, and angiogenesis. In addition, muscle RIP140 deficiency induced expansive neuromuscular junction (NMJ) remodeling. Integration of RNA-seq results with CUT&RUN analysis of strNrip1–/– myotubes identified Wnt16 as a candidate effector for the NMJ biogenesis in RIP140-deficient skeletal myotubes. We conclude that RIP140 serves as a physiological “rheostat” for a broad coordinated network of metabolic and structural genes involved in skeletal muscle fitness.

Authors

Elizabeth Pruzinsky, Kirill Batmanov, Denis M. Medeiros, Sarah M. Sulon, Brian P. Sullivan, Tomoya Sakamoto, Teresa C. Leone, Tejvir S. Khurana, Daniel P. Kelly

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Figure 6

strNrip1–/– mice display a shift in fiber type and increased angiogenesis.

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strNrip1–/– mice display a shift in fiber type and increased angiogenesi...
(A) Fiber type staining of EDL muscle from 16-week-old male strNrip1–/– (strKO) sedentary, control sedentary, strNrip1–/– trained, and control trained mice (n = 5–7 mice per group). Scale bars: 50 μm. (B) Quantification of myosin expression (MyHC-2A, MyHC-2X, and MyHC-2B) from EDL fiber type images of male strKO sedentary, control sedentary, strKO trained, and control trained mice (n = 5–7 mice per group). (C) CD31 staining (green) of EDL muscle from 16-week-old male strKO sedentary, control sedentary, strKO trained, and control trained mice (n = 4–5 mice per group). Scale bars: 50 μm. (D) Quantification of capillaries per fiber from CD31-immunostained EDL images from strKO sedentary, control sedentary, strKO trained, and control trained mice (n = 4–5 mice per group). Values are the mean ± SEM. #P < 0.05 comparing genotypes and P < 0.05 comparing training by 2-way ANOVA displaying main effects (B) or *P < 0.05 by 2-way ANOVA with Tukey’s multiple-comparison test (D).