Variants in DTNA cause a mild, dominantly inherited muscular dystrophy

Andres Nascimento; Christine C. Bruels; Sandra Donkervoort; A. Reghan Foley; Anna Codina; Jose C. Milisenda; Elicia A. Estrella; Chengcheng Li; Jordi Pijuan; Isabelle Draper; Ying Hu; Seth A. Stafki; Lynn S. Pais; Vijay S. Ganesh; Anne O’Donnell-Luria; Safoora B. Syeda; Laura Carrera-García; Jessica Expósito-Escudero; Delia Yubero; Loreto Martorell; Iago Pinal-Fernandez; Hart G.W. Lidov; Andrew L. Mammen; Josep M. Grau-Junyent; Carlos Ortez; Francesc Palau; Partha S. Ghosh; Basil T. Darras; Cristina Jou; Louis M. Kunkel; Janet Hoenicka; Carsten G. Bönnemann; Peter B. Kang; Daniel Natera-de Benito

doi:10.1007/s00401-023-02551-7

Variants in DTNA cause a mild, dominantly inherited muscular dystrophy

Andres Nascimento, Christine C. Bruels, Sandra Donkervoort, A. Reghan Foley, Anna Codina, Jose C. Milisenda, Elicia A. Estrella, Chengcheng Li, Jordi Pijuan, Isabelle Draper, Ying Hu, Seth A. Stafki, Lynn S. Pais, Vijay S. Ganesh, Anne O’Donnell-Luria, Safoora B. Syeda, Laura Carrera-García, Jessica Expósito-Escudero, Delia Yubero, Loreto MartorellIago Pinal-Fernandez, Hart G.W. Lidov, Andrew L. Mammen, Josep M. Grau-Junyent, Carlos Ortez, Francesc Palau, Partha S. Ghosh, Basil T. Darras, Cristina Jou, Louis M. Kunkel, Janet Hoenicka, Carsten G. Bönnemann, Peter B. Kang, Daniel Natera-de Benito

Neurology

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

Abstract

DTNA encodes α-dystrobrevin, a component of the macromolecular dystrophin–glycoprotein complex (DGC) that binds to dystrophin/utrophin and α-syntrophin. Mice lacking α-dystrobrevin have a muscular dystrophy phenotype, but variants in DTNA have not previously been associated with human skeletal muscle disease. We present 12 individuals from four unrelated families with two different monoallelic DTNA variants affecting the coiled-coil domain of α-dystrobrevin. The five affected individuals from family A harbor a c.1585G > A; p.Glu529Lys variant, while the recurrent c.1567_1587del; p.Gln523_Glu529del DTNA variant was identified in the other three families (family B: four affected individuals, family C: one affected individual, and family D: two affected individuals). Myalgia and exercise intolerance, with variable ages of onset, were reported in 10 of 12 affected individuals. Proximal lower limb weakness with onset in the first decade of life was noted in three individuals. Persistent elevations of serum creatine kinase (CK) levels were detected in 11 of 12 affected individuals, 1 of whom had an episode of rhabdomyolysis at 20 years of age. Autism spectrum disorder or learning disabilities were reported in four individuals with the c.1567_1587 deletion. Muscle biopsies in eight affected individuals showed mixed myopathic and dystrophic findings, characterized by fiber size variability, internalized nuclei, and slightly increased extracellular connective tissue and inflammation. Immunofluorescence analysis of biopsies from five affected individuals showed reduced α-dystrobrevin immunoreactivity and variably reduced immunoreactivity of other DGC proteins: dystrophin, α, β, δ and γ-sarcoglycans, and α and β-dystroglycans. The DTNA deletion disrupted an interaction between α-dystrobrevin and syntrophin. Specific variants in the coiled-coil domain of DTNA cause skeletal muscle disease with variable penetrance. Affected individuals show a spectrum of clinical manifestations, with severity ranging from hyperCKemia, myalgias, and exercise intolerance to childhood-onset proximal muscle weakness. Our findings expand the molecular etiologies of both muscular dystrophy and paucisymptomatic hyperCKemia, to now include monoallelic DTNA variants as a novel cause of skeletal muscle disease in humans.

Original language	English (US)
Pages (from-to)	479-496
Number of pages	18
Journal	Acta Neuropathologica
Volume	145
Issue number	4
DOIs	https://doi.org/10.1007/s00401-023-02551-7
State	Published - Apr 2023

Bibliographical note

Publisher Copyright:
© 2023, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.

Keywords

Dystrophin
Muscle sarcolemmal proteins
Myalgia
Rhabdomyolysis
hyperCKemia
α-Dystrobrevin

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't
Research Support, N.I.H., Extramural

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Nascimento, A., Bruels, C. C., Donkervoort, S., Foley, A. R., Codina, A., Milisenda, J. C., Estrella, E. A., Li, C., Pijuan, J., Draper, I., Hu, Y., Stafki, S. A., Pais, L. S., Ganesh, V. S., O’Donnell-Luria, A., Syeda, S. B., Carrera-García, L., Expósito-Escudero, J., Yubero, D., ... Natera-de Benito, D. (2023). Variants in DTNA cause a mild, dominantly inherited muscular dystrophy. Acta Neuropathologica, 145(4), 479-496. https://doi.org/10.1007/s00401-023-02551-7

Nascimento, A, Bruels, CC, Donkervoort, S, Foley, AR, Codina, A, Milisenda, JC, Estrella, EA, Li, C, Pijuan, J, Draper, I, Hu, Y, Stafki, SA, Pais, LS, Ganesh, VS, O’Donnell-Luria, A, Syeda, SB, Carrera-García, L, Expósito-Escudero, J, Yubero, D, Martorell, L, Pinal-Fernandez, I, Lidov, HGW, Mammen, AL, Grau-Junyent, JM, Ortez, C, Palau, F, Ghosh, PS, Darras, BT, Jou, C, Kunkel, LM, Hoenicka, J, Bönnemann, CG, Kang, PB & Natera-de Benito, D 2023, 'Variants in DTNA cause a mild, dominantly inherited muscular dystrophy', Acta Neuropathologica, vol. 145, no. 4, pp. 479-496. https://doi.org/10.1007/s00401-023-02551-7

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abstract = "DTNA encodes α-dystrobrevin, a component of the macromolecular dystrophin–glycoprotein complex (DGC) that binds to dystrophin/utrophin and α-syntrophin. Mice lacking α-dystrobrevin have a muscular dystrophy phenotype, but variants in DTNA have not previously been associated with human skeletal muscle disease. We present 12 individuals from four unrelated families with two different monoallelic DTNA variants affecting the coiled-coil domain of α-dystrobrevin. The five affected individuals from family A harbor a c.1585G > A; p.Glu529Lys variant, while the recurrent c.1567_1587del; p.Gln523_Glu529del DTNA variant was identified in the other three families (family B: four affected individuals, family C: one affected individual, and family D: two affected individuals). Myalgia and exercise intolerance, with variable ages of onset, were reported in 10 of 12 affected individuals. Proximal lower limb weakness with onset in the first decade of life was noted in three individuals. Persistent elevations of serum creatine kinase (CK) levels were detected in 11 of 12 affected individuals, 1 of whom had an episode of rhabdomyolysis at 20 years of age. Autism spectrum disorder or learning disabilities were reported in four individuals with the c.1567_1587 deletion. Muscle biopsies in eight affected individuals showed mixed myopathic and dystrophic findings, characterized by fiber size variability, internalized nuclei, and slightly increased extracellular connective tissue and inflammation. Immunofluorescence analysis of biopsies from five affected individuals showed reduced α-dystrobrevin immunoreactivity and variably reduced immunoreactivity of other DGC proteins: dystrophin, α, β, δ and γ-sarcoglycans, and α and β-dystroglycans. The DTNA deletion disrupted an interaction between α-dystrobrevin and syntrophin. Specific variants in the coiled-coil domain of DTNA cause skeletal muscle disease with variable penetrance. Affected individuals show a spectrum of clinical manifestations, with severity ranging from hyperCKemia, myalgias, and exercise intolerance to childhood-onset proximal muscle weakness. Our findings expand the molecular etiologies of both muscular dystrophy and paucisymptomatic hyperCKemia, to now include monoallelic DTNA variants as a novel cause of skeletal muscle disease in humans.",

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note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.",

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doi = "10.1007/s00401-023-02551-7",

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AU - Nascimento, Andres

AU - Bruels, Christine C.

AU - Donkervoort, Sandra

AU - Foley, A. Reghan

AU - Codina, Anna

AU - Milisenda, Jose C.

AU - Estrella, Elicia A.

AU - Li, Chengcheng

AU - Pijuan, Jordi

AU - Draper, Isabelle

AU - Hu, Ying

AU - Stafki, Seth A.

AU - Pais, Lynn S.

AU - Ganesh, Vijay S.

AU - O’Donnell-Luria, Anne

AU - Syeda, Safoora B.

AU - Carrera-García, Laura

AU - Expósito-Escudero, Jessica

AU - Yubero, Delia

AU - Martorell, Loreto

AU - Pinal-Fernandez, Iago

AU - Lidov, Hart G.W.

AU - Mammen, Andrew L.

AU - Grau-Junyent, Josep M.

AU - Ortez, Carlos

AU - Palau, Francesc

AU - Ghosh, Partha S.

AU - Darras, Basil T.

AU - Jou, Cristina

AU - Kunkel, Louis M.

AU - Hoenicka, Janet

AU - Bönnemann, Carsten G.

AU - Kang, Peter B.

AU - Natera-de Benito, Daniel

PY - 2023/4

Y1 - 2023/4

N2 - DTNA encodes α-dystrobrevin, a component of the macromolecular dystrophin–glycoprotein complex (DGC) that binds to dystrophin/utrophin and α-syntrophin. Mice lacking α-dystrobrevin have a muscular dystrophy phenotype, but variants in DTNA have not previously been associated with human skeletal muscle disease. We present 12 individuals from four unrelated families with two different monoallelic DTNA variants affecting the coiled-coil domain of α-dystrobrevin. The five affected individuals from family A harbor a c.1585G > A; p.Glu529Lys variant, while the recurrent c.1567_1587del; p.Gln523_Glu529del DTNA variant was identified in the other three families (family B: four affected individuals, family C: one affected individual, and family D: two affected individuals). Myalgia and exercise intolerance, with variable ages of onset, were reported in 10 of 12 affected individuals. Proximal lower limb weakness with onset in the first decade of life was noted in three individuals. Persistent elevations of serum creatine kinase (CK) levels were detected in 11 of 12 affected individuals, 1 of whom had an episode of rhabdomyolysis at 20 years of age. Autism spectrum disorder or learning disabilities were reported in four individuals with the c.1567_1587 deletion. Muscle biopsies in eight affected individuals showed mixed myopathic and dystrophic findings, characterized by fiber size variability, internalized nuclei, and slightly increased extracellular connective tissue and inflammation. Immunofluorescence analysis of biopsies from five affected individuals showed reduced α-dystrobrevin immunoreactivity and variably reduced immunoreactivity of other DGC proteins: dystrophin, α, β, δ and γ-sarcoglycans, and α and β-dystroglycans. The DTNA deletion disrupted an interaction between α-dystrobrevin and syntrophin. Specific variants in the coiled-coil domain of DTNA cause skeletal muscle disease with variable penetrance. Affected individuals show a spectrum of clinical manifestations, with severity ranging from hyperCKemia, myalgias, and exercise intolerance to childhood-onset proximal muscle weakness. Our findings expand the molecular etiologies of both muscular dystrophy and paucisymptomatic hyperCKemia, to now include monoallelic DTNA variants as a novel cause of skeletal muscle disease in humans.

AB - DTNA encodes α-dystrobrevin, a component of the macromolecular dystrophin–glycoprotein complex (DGC) that binds to dystrophin/utrophin and α-syntrophin. Mice lacking α-dystrobrevin have a muscular dystrophy phenotype, but variants in DTNA have not previously been associated with human skeletal muscle disease. We present 12 individuals from four unrelated families with two different monoallelic DTNA variants affecting the coiled-coil domain of α-dystrobrevin. The five affected individuals from family A harbor a c.1585G > A; p.Glu529Lys variant, while the recurrent c.1567_1587del; p.Gln523_Glu529del DTNA variant was identified in the other three families (family B: four affected individuals, family C: one affected individual, and family D: two affected individuals). Myalgia and exercise intolerance, with variable ages of onset, were reported in 10 of 12 affected individuals. Proximal lower limb weakness with onset in the first decade of life was noted in three individuals. Persistent elevations of serum creatine kinase (CK) levels were detected in 11 of 12 affected individuals, 1 of whom had an episode of rhabdomyolysis at 20 years of age. Autism spectrum disorder or learning disabilities were reported in four individuals with the c.1567_1587 deletion. Muscle biopsies in eight affected individuals showed mixed myopathic and dystrophic findings, characterized by fiber size variability, internalized nuclei, and slightly increased extracellular connective tissue and inflammation. Immunofluorescence analysis of biopsies from five affected individuals showed reduced α-dystrobrevin immunoreactivity and variably reduced immunoreactivity of other DGC proteins: dystrophin, α, β, δ and γ-sarcoglycans, and α and β-dystroglycans. The DTNA deletion disrupted an interaction between α-dystrobrevin and syntrophin. Specific variants in the coiled-coil domain of DTNA cause skeletal muscle disease with variable penetrance. Affected individuals show a spectrum of clinical manifestations, with severity ranging from hyperCKemia, myalgias, and exercise intolerance to childhood-onset proximal muscle weakness. Our findings expand the molecular etiologies of both muscular dystrophy and paucisymptomatic hyperCKemia, to now include monoallelic DTNA variants as a novel cause of skeletal muscle disease in humans.

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Variants in DTNA cause a mild, dominantly inherited muscular dystrophy

Abstract

Bibliographical note

Keywords

PubMed: MeSH publication types

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