Abnormal actin binding of aberrant β-tropomyosins is a molecular cause of muscle weakness in TPM2-related nemaline and cap myopathy
M Marttila, E Lemola, W Wallefeld, M Memo… - Biochemical …, 2012 - portlandpress.com
M Marttila, E Lemola, W Wallefeld, M Memo, K Donner, NG Laing, S Marston, M Grönholm…
Biochemical Journal, 2012•portlandpress.comNM (nemaline myopathy) is a rare genetic muscle disorder defined on the basis of muscle
weakness and the presence of structural abnormalities in the muscle fibres, ie nemaline
bodies. The related disorder cap myopathy is defined by cap-like structures located
peripherally in the muscle fibres. Both disorders may be caused by mutations in the TPM2
gene encoding β-Tm (tropomyosin). Tm controls muscle contraction by inhibiting actin–
myosin interaction in a calcium-sensitive manner. In the present study, we have investigated …
weakness and the presence of structural abnormalities in the muscle fibres, ie nemaline
bodies. The related disorder cap myopathy is defined by cap-like structures located
peripherally in the muscle fibres. Both disorders may be caused by mutations in the TPM2
gene encoding β-Tm (tropomyosin). Tm controls muscle contraction by inhibiting actin–
myosin interaction in a calcium-sensitive manner. In the present study, we have investigated …
NM (nemaline myopathy) is a rare genetic muscle disorder defined on the basis of muscle weakness and the presence of structural abnormalities in the muscle fibres, i.e. nemaline bodies. The related disorder cap myopathy is defined by cap-like structures located peripherally in the muscle fibres. Both disorders may be caused by mutations in the TPM2 gene encoding β-Tm (tropomyosin). Tm controls muscle contraction by inhibiting actin–myosin interaction in a calcium-sensitive manner. In the present study, we have investigated the pathogenetic mechanisms underlying five disease-causing mutations in Tm. We show that four of the mutations cause changes in affinity for actin, which may cause muscle weakness in these patients, whereas two show defective Ca2+ activation of contractility. We have also mapped the amino acids altered by the mutation to regions important for actin binding and note that two of the mutations cause altered protein conformation, which could account for impaired actin affinity.
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