Triggering typical nemaline myopathy with compound heterozygous nebulin mutations reveals myofilament structural changes as pathomechanism

Johan Lindqvist; Weikang Ma; Frank Li; Yaeren Hernandez; Justin Kolb; Balazs Kiss; Paola Tonino; Robbert van der Pijl; Esmat Karimi; Henry Gong; Josh Strom; Zaynab Hourani; John E. Smith; Coen Ottenheijm; Thomas Irving; Henk Granzier

doi:10.1038/s41467-020-16526-9

Triggering typical nemaline myopathy with compound heterozygous nebulin mutations reveals myofilament structural changes as pathomechanism

Johan Lindqvist
, Weikang Ma
, Frank Li
, Yaeren Hernandez
, Justin Kolb
, Balazs Kiss
, Paola Tonino
, Robbert van der Pijl
, Esmat Karimi
, Henry Gong
, Josh Strom
, Zaynab Hourani
, John E. Smith
, Coen Ottenheijm
, Thomas Irving
, Henk Granzier

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

15 Scopus citations

Abstract

Nebulin is a giant protein that winds around the actin filaments in the skeletal muscle sarcomere. Compound-heterozygous mutations in the nebulin gene (NEB) cause typical nemaline myopathy (NM), a muscle disorder characterized by muscle weakness with limited treatment options. We created a mouse model with a missense mutation p.Ser6366Ile and a deletion of NEB exon 55, the Compound-Het model that resembles typical NM. We show that Compound-Het mice are growth-retarded and have muscle weakness. Muscles have a reduced myofibrillar fractional-area and sarcomeres are disorganized, contain rod bodies, and have longer thin filaments. In contrast to nebulin-based severe NM where haplo-insufficiency is the disease driver, Compound-Het mice express normal amounts of nebulin. X-ray diffraction revealed that the actin filament is twisted with a larger radius, that tropomyosin and troponin behavior is altered, and that the myofilament spacing is increased. The unique disease mechanism of nebulin-based typical NM reveals novel therapeutic targets.

Original language	English (US)
Article number	2699
Journal	Nature communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-020-16526-9
State	Published - Dec 1 2020

ASJC Scopus subject areas

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

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Lindqvist, J., Ma, W., Li, F., Hernandez, Y., Kolb, J., Kiss, B., Tonino, P., van der Pijl, R., Karimi, E., Gong, H., Strom, J., Hourani, Z., Smith, J. E., Ottenheijm, C., Irving, T., & Granzier, H. (2020). Triggering typical nemaline myopathy with compound heterozygous nebulin mutations reveals myofilament structural changes as pathomechanism. Nature communications, 11(1), Article 2699. https://doi.org/10.1038/s41467-020-16526-9

Lindqvist, J, Ma, W, Li, F, Hernandez, Y, Kolb, J, Kiss, B, Tonino, P, van der Pijl, R, Karimi, E, Gong, H, Strom, J, Hourani, Z, Smith, JE, Ottenheijm, C, Irving, T & Granzier, H 2020, 'Triggering typical nemaline myopathy with compound heterozygous nebulin mutations reveals myofilament structural changes as pathomechanism', Nature communications, vol. 11, no. 1, 2699. https://doi.org/10.1038/s41467-020-16526-9

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title = "Triggering typical nemaline myopathy with compound heterozygous nebulin mutations reveals myofilament structural changes as pathomechanism",

abstract = "Nebulin is a giant protein that winds around the actin filaments in the skeletal muscle sarcomere. Compound-heterozygous mutations in the nebulin gene (NEB) cause typical nemaline myopathy (NM), a muscle disorder characterized by muscle weakness with limited treatment options. We created a mouse model with a missense mutation p.Ser6366Ile and a deletion of NEB exon 55, the Compound-Het model that resembles typical NM. We show that Compound-Het mice are growth-retarded and have muscle weakness. Muscles have a reduced myofibrillar fractional-area and sarcomeres are disorganized, contain rod bodies, and have longer thin filaments. In contrast to nebulin-based severe NM where haplo-insufficiency is the disease driver, Compound-Het mice express normal amounts of nebulin. X-ray diffraction revealed that the actin filament is twisted with a larger radius, that tropomyosin and troponin behavior is altered, and that the myofilament spacing is increased. The unique disease mechanism of nebulin-based typical NM reveals novel therapeutic targets.",

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AU - Lindqvist, Johan

AU - Ma, Weikang

AU - Li, Frank

AU - Hernandez, Yaeren

AU - Kolb, Justin

AU - Kiss, Balazs

AU - Tonino, Paola

AU - van der Pijl, Robbert

AU - Karimi, Esmat

AU - Gong, Henry

AU - Strom, Josh

AU - Hourani, Zaynab

AU - Smith, John E.

AU - Ottenheijm, Coen

AU - Irving, Thomas

AU - Granzier, Henk

PY - 2020/12/1

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N2 - Nebulin is a giant protein that winds around the actin filaments in the skeletal muscle sarcomere. Compound-heterozygous mutations in the nebulin gene (NEB) cause typical nemaline myopathy (NM), a muscle disorder characterized by muscle weakness with limited treatment options. We created a mouse model with a missense mutation p.Ser6366Ile and a deletion of NEB exon 55, the Compound-Het model that resembles typical NM. We show that Compound-Het mice are growth-retarded and have muscle weakness. Muscles have a reduced myofibrillar fractional-area and sarcomeres are disorganized, contain rod bodies, and have longer thin filaments. In contrast to nebulin-based severe NM where haplo-insufficiency is the disease driver, Compound-Het mice express normal amounts of nebulin. X-ray diffraction revealed that the actin filament is twisted with a larger radius, that tropomyosin and troponin behavior is altered, and that the myofilament spacing is increased. The unique disease mechanism of nebulin-based typical NM reveals novel therapeutic targets.

AB - Nebulin is a giant protein that winds around the actin filaments in the skeletal muscle sarcomere. Compound-heterozygous mutations in the nebulin gene (NEB) cause typical nemaline myopathy (NM), a muscle disorder characterized by muscle weakness with limited treatment options. We created a mouse model with a missense mutation p.Ser6366Ile and a deletion of NEB exon 55, the Compound-Het model that resembles typical NM. We show that Compound-Het mice are growth-retarded and have muscle weakness. Muscles have a reduced myofibrillar fractional-area and sarcomeres are disorganized, contain rod bodies, and have longer thin filaments. In contrast to nebulin-based severe NM where haplo-insufficiency is the disease driver, Compound-Het mice express normal amounts of nebulin. X-ray diffraction revealed that the actin filament is twisted with a larger radius, that tropomyosin and troponin behavior is altered, and that the myofilament spacing is increased. The unique disease mechanism of nebulin-based typical NM reveals novel therapeutic targets.

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Triggering typical nemaline myopathy with compound heterozygous nebulin mutations reveals myofilament structural changes as pathomechanism

Abstract

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