YAP plays a crucial role in the development of cardiomyopathy in lysosomal storage diseases
Shohei Ikeda, … , Hiroaki Shimokawa, Junichi Sadoshima
Shohei Ikeda, … , Hiroaki Shimokawa, Junichi Sadoshima
Published December 29, 2020
Citation Information: J Clin Invest. 2021;131(5):e143173. https://doi.org/10.1172/JCI143173.
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Research Article Cardiology

YAP plays a crucial role in the development of cardiomyopathy in lysosomal storage diseases

Abstract

Lysosomal dysfunction caused by mutations in lysosomal genes results in lysosomal storage disorder (LSD), characterized by accumulation of damaged proteins and organelles in cells and functional abnormalities in major organs, including the heart, skeletal muscle, and liver. In LSD, autophagy is inhibited at the lysosomal degradation step and accumulation of autophagosomes is observed. Enlargement of the left ventricle (LV) and contractile dysfunction were observed in RagA/B cardiac-specific KO (cKO) mice, a mouse model of LSD in which lysosomal acidification is impaired irreversibly. YAP, a downstream effector of the Hippo pathway, was accumulated in RagA/B cKO mouse hearts. Inhibition of YAP ameliorated cardiac hypertrophy and contractile dysfunction and attenuated accumulation of autophagosomes without affecting lysosomal function, suggesting that YAP plays an important role in mediating cardiomyopathy in RagA/B cKO mice. Cardiomyopathy was also alleviated by downregulation of Atg7, an intervention to inhibit autophagy, whereas it was exacerbated by stimulation of autophagy. YAP physically interacted with transcription factor EB (TFEB), a master transcription factor that controls autophagic and lysosomal gene expression, thereby facilitating accumulation of autophagosomes without degradation. These results indicate that accumulation of YAP in the presence of LSD promotes cardiomyopathy by stimulating accumulation of autophagosomes through activation of TFEB.

Authors

Shohei Ikeda, Jihoon Nah, Akihiro Shirakabe, Peiyong Zhai, Shin-ichi Oka, Sebastiano Sciarretta, Kun-Liang Guan, Hiroaki Shimokawa, Junichi Sadoshima

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Figure 4

Downregulation of YAP attenuates autophagy without affecting lysosomal function in the presence of RagA/B downregulation.

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Downregulation of YAP attenuates autophagy without affecting lysosomal f...
(A) Quantitative analysis of immunoblotting for cathepsin D/α-tubulin in mouse hearts. n = 6. (B) Quantitative analysis of immunoblotting for cathepsin D/α-tubulin in cultured CMs. n = 5. (C) Quantitative analysis of lysosomal pH in cultured CMs. Relative intensity was obtained from more than 10 cells per each experiment. n = 4. (D) Quantitative analysis of immunoblotting for LC3II/α-tubulin in cultured CMs. n = 5. (E) Representative images of mRFP-GFP-LC3 puncta in cultured CMs in vitro. Quantitative analyses of LC3 puncta are shown on the right. Yellow puncta (left, indicated by arrows) and columns (right) indicate GFP-RFP double-positive puncta and represent autophagosomes, whereas red puncta (left, indicated by arrowheads) and columns (right) indicate GFP negative-RFP positive puncta and represent autolysosomes. Puncta were measured from more than 100 cells per experiment. n = 3. (F) Neonatal CMs were treated with siControl or siRagA/B for 60 hours or 5 μM TAT–beclin 1 for 24 hours. Cells were treated with 100 nM MtPhagy Dye and 1 μM Lyso dye. Strong MtPhagy Dye puncta colocalized with Lysodye (indicated by white arrows) were counted from more than 20 cells per experiment. n = 3. Scale bars: 20 μm. In A, B, and D, results are shown as box plots, showing the median (center line) and IQR. Whiskers represent minima and maxima within 1.5 IQR as indicated. In C, results are expressed as mean ± SEM. In E and F, results are expressed as mean ± SD. *P < 0.05; **P < 0.01, ANOVA.