Heterozygous frameshift variants in HNRNPA2B1 cause early-onset oculopharyngeal muscular dystrophy

Hong Joo Kim; Payam Mohassel; Sandra Donkervoort; Lin Guo; Kevin O’Donovan; Maura Coughlin; Xaviere Lornage; Nicola Foulds; Simon R. Hammans; A. Reghan Foley; Charlotte M. Fare; Alice F. Ford; Masashi Ogasawara; Aki Sato; Aritoshi Iida; Pinki Munot; Gautam Ambegaonkar; Rahul Phadke; Dominic G. O’Donovan; Rebecca Buchert; Mona Grimmel; Ana Töpf; Irina T. Zaharieva; Lauren Brady; Ying Hu; Thomas E. Lloyd; Andrea Klein; Maja Steinlin; Alice Kuster; Sandra Mercier; Pascale Marcorelles; Yann Péréon; Emmanuelle Fleurence; Adnan Manzur; Sarah Ennis; Rosanna Upstill-Goddard; Luca Bello; Cinzia Bertolin; Elena Pegoraro; Leonardo Salviati; Courtney E. French; Andriy Shatillo; F. Lucy Raymond; Tobias B. Haack; Susana Quijano-Roy; Johann Böhm; Isabelle Nelson; Tanya Stojkovic; Teresinha Evangelista; Volker Straub; Norma B. Romero; Jocelyn Laporte; Francesco Muntoni; Ichizo Nishino; Mark A. Tarnopolsky; James Shorter; Carsten G. Bönnemann; J. Paul Taylor

doi:10.1038/s41467-022-30015-1

Heterozygous frameshift variants in HNRNPA2B1 cause early-onset oculopharyngeal muscular dystrophy

Hong Joo Kim, Payam Mohassel, Sandra Donkervoort, Lin Guo, Kevin O’Donovan, Maura Coughlin, Xaviere Lornage, Nicola Foulds, Simon R. Hammans, A. Reghan Foley, Charlotte M. Fare, Alice F. Ford, Masashi Ogasawara, Aki Sato, Aritoshi Iida, Pinki Munot, Gautam Ambegaonkar, Rahul Phadke, Dominic G. O’Donovan, Rebecca BuchertMona Grimmel, Ana Töpf, Irina T. Zaharieva, Lauren Brady, Ying Hu, Thomas E. Lloyd, Andrea Klein, Maja Steinlin, Alice Kuster, Sandra Mercier, Pascale Marcorelles, Yann Péréon, Emmanuelle Fleurence, Adnan Manzur, Sarah Ennis, Rosanna Upstill-Goddard, Luca Bello, Cinzia Bertolin, Elena Pegoraro, Leonardo Salviati, Courtney E. French, Andriy Shatillo, F. Lucy Raymond, Tobias B. Haack, Susana Quijano-Roy, Johann Böhm, Isabelle Nelson, Tanya Stojkovic, Teresinha Evangelista, Volker Straub, Norma B. Romero, Jocelyn Laporte, Francesco Muntoni, Ichizo Nishino, Mark A. Tarnopolsky, James Shorter, Carsten G. Bönnemann, J. Paul Taylor

School of Medicine

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

Abstract

Missense variants in RNA-binding proteins (RBPs) underlie a spectrum of disease phenotypes, including amyotrophic lateral sclerosis, frontotemporal dementia, and inclusion body myopathy. Here, we present ten independent families with a severe, progressive muscular dystrophy, reminiscent of oculopharyngeal muscular dystrophy (OPMD) but of much earlier onset, caused by heterozygous frameshift variants in the RBP hnRNPA2/B1. All disease-causing frameshift mutations abolish the native stop codon and extend the reading frame, creating novel transcripts that escape nonsense-mediated decay and are translated to produce hnRNPA2/B1 protein with the same neomorphic C-terminal sequence. In contrast to previously reported disease-causing missense variants in HNRNPA2B1, these frameshift variants do not increase the propensity of hnRNPA2 protein to fibrillize. Rather, the frameshift variants have reduced affinity for the nuclear import receptor karyopherin β2, resulting in cytoplasmic accumulation of hnRNPA2 protein in cells and in animal models that recapitulate the human pathology. Thus, we expand the phenotypes associated with HNRNPA2B1 to include an early-onset form of OPMD caused by frameshift variants that alter its nucleocytoplasmic transport dynamics.

Original language	English (US)
Article number	2306
Journal	Nature communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-30015-1
State	Published - Dec 2022

ASJC Scopus subject areas

General Physics and Astronomy
General Chemistry
General Biochemistry, Genetics and Molecular Biology

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10.1038/s41467-022-30015-1

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Kim, H. J., Mohassel, P., Donkervoort, S., Guo, L., O’Donovan, K., Coughlin, M., Lornage, X., Foulds, N., Hammans, S. R., Foley, A. R., Fare, C. M., Ford, A. F., Ogasawara, M., Sato, A., Iida, A., Munot, P., Ambegaonkar, G., Phadke, R., O’Donovan, D. G., ... Taylor, J. P. (2022). Heterozygous frameshift variants in HNRNPA2B1 cause early-onset oculopharyngeal muscular dystrophy. Nature communications, 13(1), Article 2306. https://doi.org/10.1038/s41467-022-30015-1

Kim, HJ, Mohassel, P, Donkervoort, S, Guo, L, O’Donovan, K, Coughlin, M, Lornage, X, Foulds, N, Hammans, SR, Foley, AR, Fare, CM, Ford, AF, Ogasawara, M, Sato, A, Iida, A, Munot, P, Ambegaonkar, G, Phadke, R, O’Donovan, DG, Buchert, R, Grimmel, M, Töpf, A, Zaharieva, IT, Brady, L, Hu, Y, Lloyd, TE, Klein, A, Steinlin, M, Kuster, A, Mercier, S, Marcorelles, P, Péréon, Y, Fleurence, E, Manzur, A, Ennis, S, Upstill-Goddard, R, Bello, L, Bertolin, C, Pegoraro, E, Salviati, L, French, CE, Shatillo, A, Raymond, FL, Haack, TB, Quijano-Roy, S, Böhm, J, Nelson, I, Stojkovic, T, Evangelista, T, Straub, V, Romero, NB, Laporte, J, Muntoni, F, Nishino, I, Tarnopolsky, MA, Shorter, J, Bönnemann, CG & Taylor, JP 2022, 'Heterozygous frameshift variants in HNRNPA2B1 cause early-onset oculopharyngeal muscular dystrophy', Nature communications, vol. 13, no. 1, 2306. https://doi.org/10.1038/s41467-022-30015-1

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title = "Heterozygous frameshift variants in HNRNPA2B1 cause early-onset oculopharyngeal muscular dystrophy",

abstract = "Missense variants in RNA-binding proteins (RBPs) underlie a spectrum of disease phenotypes, including amyotrophic lateral sclerosis, frontotemporal dementia, and inclusion body myopathy. Here, we present ten independent families with a severe, progressive muscular dystrophy, reminiscent of oculopharyngeal muscular dystrophy (OPMD) but of much earlier onset, caused by heterozygous frameshift variants in the RBP hnRNPA2/B1. All disease-causing frameshift mutations abolish the native stop codon and extend the reading frame, creating novel transcripts that escape nonsense-mediated decay and are translated to produce hnRNPA2/B1 protein with the same neomorphic C-terminal sequence. In contrast to previously reported disease-causing missense variants in HNRNPA2B1, these frameshift variants do not increase the propensity of hnRNPA2 protein to fibrillize. Rather, the frameshift variants have reduced affinity for the nuclear import receptor karyopherin β2, resulting in cytoplasmic accumulation of hnRNPA2 protein in cells and in animal models that recapitulate the human pathology. Thus, we expand the phenotypes associated with HNRNPA2B1 to include an early-onset form of OPMD caused by frameshift variants that alter its nucleocytoplasmic transport dynamics.",

author = "Kim, {Hong Joo} and Payam Mohassel and Sandra Donkervoort and Lin Guo and Kevin O{\textquoteright}Donovan and Maura Coughlin and Xaviere Lornage and Nicola Foulds and Hammans, {Simon R.} and Foley, {A. Reghan} and Fare, {Charlotte M.} and Ford, {Alice F.} and Masashi Ogasawara and Aki Sato and Aritoshi Iida and Pinki Munot and Gautam Ambegaonkar and Rahul Phadke and O{\textquoteright}Donovan, {Dominic G.} and Rebecca Buchert and Mona Grimmel and Ana T{\"o}pf and Zaharieva, {Irina T.} and Lauren Brady and Ying Hu and Lloyd, {Thomas E.} and Andrea Klein and Maja Steinlin and Alice Kuster and Sandra Mercier and Pascale Marcorelles and Yann P{\'e}r{\'e}on and Emmanuelle Fleurence and Adnan Manzur and Sarah Ennis and Rosanna Upstill-Goddard and Luca Bello and Cinzia Bertolin and Elena Pegoraro and Leonardo Salviati and French, {Courtney E.} and Andriy Shatillo and Raymond, {F. Lucy} and Haack, {Tobias B.} and Susana Quijano-Roy and Johann B{\"o}hm and Isabelle Nelson and Tanya Stojkovic and Teresinha Evangelista and Volker Straub and Romero, {Norma B.} and Jocelyn Laporte and Francesco Muntoni and Ichizo Nishino and Tarnopolsky, {Mark A.} and James Shorter and B{\"o}nnemann, {Carsten G.} and Taylor, {J. Paul}",

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AU - Kim, Hong Joo

AU - Mohassel, Payam

AU - Donkervoort, Sandra

AU - Guo, Lin

AU - O’Donovan, Kevin

AU - Coughlin, Maura

AU - Lornage, Xaviere

AU - Foulds, Nicola

AU - Hammans, Simon R.

AU - Foley, A. Reghan

AU - Fare, Charlotte M.

AU - Ford, Alice F.

AU - Ogasawara, Masashi

AU - Sato, Aki

AU - Iida, Aritoshi

AU - Munot, Pinki

AU - Ambegaonkar, Gautam

AU - Phadke, Rahul

AU - O’Donovan, Dominic G.

AU - Buchert, Rebecca

AU - Grimmel, Mona

AU - Töpf, Ana

AU - Zaharieva, Irina T.

AU - Brady, Lauren

AU - Hu, Ying

AU - Lloyd, Thomas E.

AU - Klein, Andrea

AU - Steinlin, Maja

AU - Kuster, Alice

AU - Mercier, Sandra

AU - Marcorelles, Pascale

AU - Péréon, Yann

AU - Fleurence, Emmanuelle

AU - Manzur, Adnan

AU - Ennis, Sarah

AU - Upstill-Goddard, Rosanna

AU - Bello, Luca

AU - Bertolin, Cinzia

AU - Pegoraro, Elena

AU - Salviati, Leonardo

AU - French, Courtney E.

AU - Shatillo, Andriy

AU - Raymond, F. Lucy

AU - Haack, Tobias B.

AU - Quijano-Roy, Susana

AU - Böhm, Johann

AU - Nelson, Isabelle

AU - Stojkovic, Tanya

AU - Evangelista, Teresinha

AU - Straub, Volker

AU - Romero, Norma B.

AU - Laporte, Jocelyn

AU - Muntoni, Francesco

AU - Nishino, Ichizo

AU - Tarnopolsky, Mark A.

AU - Shorter, James

AU - Bönnemann, Carsten G.

AU - Taylor, J. Paul

PY - 2022/12

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N2 - Missense variants in RNA-binding proteins (RBPs) underlie a spectrum of disease phenotypes, including amyotrophic lateral sclerosis, frontotemporal dementia, and inclusion body myopathy. Here, we present ten independent families with a severe, progressive muscular dystrophy, reminiscent of oculopharyngeal muscular dystrophy (OPMD) but of much earlier onset, caused by heterozygous frameshift variants in the RBP hnRNPA2/B1. All disease-causing frameshift mutations abolish the native stop codon and extend the reading frame, creating novel transcripts that escape nonsense-mediated decay and are translated to produce hnRNPA2/B1 protein with the same neomorphic C-terminal sequence. In contrast to previously reported disease-causing missense variants in HNRNPA2B1, these frameshift variants do not increase the propensity of hnRNPA2 protein to fibrillize. Rather, the frameshift variants have reduced affinity for the nuclear import receptor karyopherin β2, resulting in cytoplasmic accumulation of hnRNPA2 protein in cells and in animal models that recapitulate the human pathology. Thus, we expand the phenotypes associated with HNRNPA2B1 to include an early-onset form of OPMD caused by frameshift variants that alter its nucleocytoplasmic transport dynamics.

AB - Missense variants in RNA-binding proteins (RBPs) underlie a spectrum of disease phenotypes, including amyotrophic lateral sclerosis, frontotemporal dementia, and inclusion body myopathy. Here, we present ten independent families with a severe, progressive muscular dystrophy, reminiscent of oculopharyngeal muscular dystrophy (OPMD) but of much earlier onset, caused by heterozygous frameshift variants in the RBP hnRNPA2/B1. All disease-causing frameshift mutations abolish the native stop codon and extend the reading frame, creating novel transcripts that escape nonsense-mediated decay and are translated to produce hnRNPA2/B1 protein with the same neomorphic C-terminal sequence. In contrast to previously reported disease-causing missense variants in HNRNPA2B1, these frameshift variants do not increase the propensity of hnRNPA2 protein to fibrillize. Rather, the frameshift variants have reduced affinity for the nuclear import receptor karyopherin β2, resulting in cytoplasmic accumulation of hnRNPA2 protein in cells and in animal models that recapitulate the human pathology. Thus, we expand the phenotypes associated with HNRNPA2B1 to include an early-onset form of OPMD caused by frameshift variants that alter its nucleocytoplasmic transport dynamics.

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Heterozygous frameshift variants in HNRNPA2B1 cause early-onset oculopharyngeal muscular dystrophy

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