Hepatocyte-intrinsic SMN deficiency drives metabolic dysfunction and liver steatosis in spinal muscular atrophy

Damien Meng-Kiat Leow; Yang Kai Ng; Loo Chien Wang; Hiromi Wl Koh; Tianyun Zhao; Zi Jian Khong; Tommaso Tabaglio; Gunaseelan Narayanan; Richard M Giadone; Radoslaw M Sobota; Shi-Yan Ng; Adrian Kk Teo; Simon H Parson; Lee L Rubin; Wei-Yi Ong; Basil T Darras; Crystal Jj Yeo

doi:10.1172/JCI173702

Hepatocyte-intrinsic SMN deficiency drives metabolic dysfunction and liver steatosis in spinal muscular atrophy

Damien Meng-Kiat Leow
, Yang Kai Ng
, Loo Chien Wang
, Hiromi Wl Koh
, Tianyun Zhao
, Zi Jian Khong
, Tommaso Tabaglio
, Gunaseelan Narayanan
, Richard M Giadone
, Radoslaw M Sobota
, Shi-Yan Ng
, Adrian Kk Teo
, Simon H Parson
, Lee L Rubin
, Wei-Yi Ong
, Basil T Darras
, Crystal Jj Yeo^* (Corresponding Author)

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

Spinal Muscular Atrophy (SMA) is typically characterized as a motor neuron disease, but extra-neuronal phenotypes are present in almost every organ in severely affected patients and animal models. Extra-neuronal phenotypes were previously underappreciated as patients with severe SMA phenotypes usually died in infancy; however, with current treatments for motor neurons increasing patient lifespan, impaired function of peripheral organs may develop into significant future comorbidities and lead to new treatment-modified phenotypes. Fatty liver is seen in SMA animal models , but generalizability to patients and whether this is due to hepatocyte-intrinsic Survival Motor Neuron (SMN) protein deficiency and/or subsequent to skeletal muscle denervation is unknown. If liver pathology in SMA is SMN-dependent and hepatocyte-intrinsic, this suggests SMN repleting therapies must target extra-neuronal tissues and motor neurons for optimal patient outcome. Here we showed that fatty liver is present in SMA and that SMA patient-specific iHeps were susceptible to steatosis. Using proteomics, functional studies and CRISPR/Cas9 gene editing, we confirmed that fatty liver in SMA is a primary SMN-dependent hepatocyte-intrinsic liver defect associated with mitochondrial and other hepatic metabolism implications. These pathologies require monitoring and indicate need for systematic clinical surveillance and additional and/or combinatorial therapies to ensure continued SMA patient health.

Original language	English
Article number	e173702
Number of pages	19
Journal	The Journal of Clinical Investigation
Volume	134
Issue number	12
Early online date	9 May 2024
DOIs	https://doi.org/10.1172/JCI173702
Publication status	Published - 17 Jun 2024

Bibliographical note

This work was supported by an Agency for Science, Technology and Research (A*STAR) CDF grant number C210112024 (to CJJY). Acknowledgments to Dave Wee, Edward Manser, Frederick Bard, and Uttam Surana from A*STAR for scientific discussions and to Shaye Moore from Boston Children’s Hospital for assistance with editing and submission.

Data Availability Statement

All data can be requested from the corresponding author. The proteomics data set is publicly available in the Japan ProteOme Standard Repository (jPOSTrepo) with the identifier PXD045401. Raw data underlying the results of this study can be found in the Supporting Data Values file.

Funding

This work was supported by an Agency for Science, Technology and Research (A*STAR) CDF grant number C210112024 (to CJJY).

Funders	Funder number
Agency for Science, Technology and Research	C210112024

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Leow_etal_JCI_Hepatocyte_intrinsic_SMN_VoR
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Cite this

Leow, D. M.-K., Ng, Y. K., Wang, L. C., Koh, H. W., Zhao, T., Khong, Z. J., Tabaglio, T., Narayanan, G., Giadone, R. M., Sobota, R. M., Ng, S.-Y., Teo, A. K., Parson, S. H., Rubin, L. L., Ong, W.-Y., Darras, B. T., & Yeo, C. J. (2024). Hepatocyte-intrinsic SMN deficiency drives metabolic dysfunction and liver steatosis in spinal muscular atrophy. The Journal of Clinical Investigation, 134(12), Article e173702. https://doi.org/10.1172/JCI173702

Leow, DM-K, Ng, YK, Wang, LC, Koh, HW, Zhao, T, Khong, ZJ, Tabaglio, T, Narayanan, G, Giadone, RM, Sobota, RM, Ng, S-Y, Teo, AK, Parson, SH, Rubin, LL, Ong, W-Y, Darras, BT & Yeo, CJ 2024, 'Hepatocyte-intrinsic SMN deficiency drives metabolic dysfunction and liver steatosis in spinal muscular atrophy', The Journal of Clinical Investigation, vol. 134, no. 12, e173702. https://doi.org/10.1172/JCI173702

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title = "Hepatocyte-intrinsic SMN deficiency drives metabolic dysfunction and liver steatosis in spinal muscular atrophy",

abstract = "Spinal Muscular Atrophy (SMA) is typically characterized as a motor neuron disease, but extra-neuronal phenotypes are present in almost every organ in severely affected patients and animal models. Extra-neuronal phenotypes were previously underappreciated as patients with severe SMA phenotypes usually died in infancy; however, with current treatments for motor neurons increasing patient lifespan, impaired function of peripheral organs may develop into significant future comorbidities and lead to new treatment-modified phenotypes. Fatty liver is seen in SMA animal models , but generalizability to patients and whether this is due to hepatocyte-intrinsic Survival Motor Neuron (SMN) protein deficiency and/or subsequent to skeletal muscle denervation is unknown. If liver pathology in SMA is SMN-dependent and hepatocyte-intrinsic, this suggests SMN repleting therapies must target extra-neuronal tissues and motor neurons for optimal patient outcome. Here we showed that fatty liver is present in SMA and that SMA patient-specific iHeps were susceptible to steatosis. Using proteomics, functional studies and CRISPR/Cas9 gene editing, we confirmed that fatty liver in SMA is a primary SMN-dependent hepatocyte-intrinsic liver defect associated with mitochondrial and other hepatic metabolism implications. These pathologies require monitoring and indicate need for systematic clinical surveillance and additional and/or combinatorial therapies to ensure continued SMA patient health.",

author = "Leow, \{Damien Meng-Kiat\} and Ng, \{Yang Kai\} and Wang, \{Loo Chien\} and Koh, \{Hiromi Wl\} and Tianyun Zhao and Khong, \{Zi Jian\} and Tommaso Tabaglio and Gunaseelan Narayanan and Giadone, \{Richard M\} and Sobota, \{Radoslaw M\} and Shi-Yan Ng and Teo, \{Adrian Kk\} and Parson, \{Simon H\} and Rubin, \{Lee L\} and Wei-Yi Ong and Darras, \{Basil T\} and Yeo, \{Crystal Jj\}",

note = "This work was supported by an Agency for Science, Technology and Research (A*STAR) CDF grant number C210112024 (to CJJY). Acknowledgments to Dave Wee, Edward Manser, Frederick Bard, and Uttam Surana from A*STAR for scientific discussions and to Shaye Moore from Boston Children{\textquoteright}s Hospital for assistance with editing and submission.",

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AU - Leow, Damien Meng-Kiat

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AU - Koh, Hiromi Wl

AU - Zhao, Tianyun

AU - Khong, Zi Jian

AU - Tabaglio, Tommaso

AU - Narayanan, Gunaseelan

AU - Giadone, Richard M

AU - Sobota, Radoslaw M

AU - Ng, Shi-Yan

AU - Teo, Adrian Kk

AU - Parson, Simon H

AU - Rubin, Lee L

AU - Ong, Wei-Yi

AU - Darras, Basil T

AU - Yeo, Crystal Jj

N1 - This work was supported by an Agency for Science, Technology and Research (A*STAR) CDF grant number C210112024 (to CJJY). Acknowledgments to Dave Wee, Edward Manser, Frederick Bard, and Uttam Surana from A*STAR for scientific discussions and to Shaye Moore from Boston Children’s Hospital for assistance with editing and submission.

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N2 - Spinal Muscular Atrophy (SMA) is typically characterized as a motor neuron disease, but extra-neuronal phenotypes are present in almost every organ in severely affected patients and animal models. Extra-neuronal phenotypes were previously underappreciated as patients with severe SMA phenotypes usually died in infancy; however, with current treatments for motor neurons increasing patient lifespan, impaired function of peripheral organs may develop into significant future comorbidities and lead to new treatment-modified phenotypes. Fatty liver is seen in SMA animal models , but generalizability to patients and whether this is due to hepatocyte-intrinsic Survival Motor Neuron (SMN) protein deficiency and/or subsequent to skeletal muscle denervation is unknown. If liver pathology in SMA is SMN-dependent and hepatocyte-intrinsic, this suggests SMN repleting therapies must target extra-neuronal tissues and motor neurons for optimal patient outcome. Here we showed that fatty liver is present in SMA and that SMA patient-specific iHeps were susceptible to steatosis. Using proteomics, functional studies and CRISPR/Cas9 gene editing, we confirmed that fatty liver in SMA is a primary SMN-dependent hepatocyte-intrinsic liver defect associated with mitochondrial and other hepatic metabolism implications. These pathologies require monitoring and indicate need for systematic clinical surveillance and additional and/or combinatorial therapies to ensure continued SMA patient health.

AB - Spinal Muscular Atrophy (SMA) is typically characterized as a motor neuron disease, but extra-neuronal phenotypes are present in almost every organ in severely affected patients and animal models. Extra-neuronal phenotypes were previously underappreciated as patients with severe SMA phenotypes usually died in infancy; however, with current treatments for motor neurons increasing patient lifespan, impaired function of peripheral organs may develop into significant future comorbidities and lead to new treatment-modified phenotypes. Fatty liver is seen in SMA animal models , but generalizability to patients and whether this is due to hepatocyte-intrinsic Survival Motor Neuron (SMN) protein deficiency and/or subsequent to skeletal muscle denervation is unknown. If liver pathology in SMA is SMN-dependent and hepatocyte-intrinsic, this suggests SMN repleting therapies must target extra-neuronal tissues and motor neurons for optimal patient outcome. Here we showed that fatty liver is present in SMA and that SMA patient-specific iHeps were susceptible to steatosis. Using proteomics, functional studies and CRISPR/Cas9 gene editing, we confirmed that fatty liver in SMA is a primary SMN-dependent hepatocyte-intrinsic liver defect associated with mitochondrial and other hepatic metabolism implications. These pathologies require monitoring and indicate need for systematic clinical surveillance and additional and/or combinatorial therapies to ensure continued SMA patient health.

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DO - 10.1172/JCI173702

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M1 - e173702

ER -

Hepatocyte-intrinsic SMN deficiency drives metabolic dysfunction and liver steatosis in spinal muscular atrophy

Abstract

Bibliographical note

Data Availability Statement

Funding

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