Increasing Role of Titin Mutations in Neuromuscular Disorders

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Abstract

The TTN gene with 363 coding exons encodes titin, a giant muscle protein spanning from the Z-disk to the M-band within the sarcomere. Mutations in the TTN gene have been associated with different genetic disorders, including hypertrophic and dilated cardiomyopathy and several skeletal muscle diseases.

Before the introduction of next generation sequencing (NGS) methods, the molecular analysis of TTN has been laborious, expensive and not widely used, resulting in a limited number of mutations identified. Recent studies however, based on the use of NGS strategies, give evidence of an increasing number of rare and unique TTN variants. The interpretation of these rare variants of uncertain significance (VOUS) represents a challenge for clinicians and researchers.

The main aim of this review is to describe the wide spectrum of muscle diseases caused by TTN mutations so far determined, summarizing the molecular findings as well as the clinical data, and to highlight the importance of joint efforts to respond to the challenges arising from the use of NGS. An international collaboration through a clinical and research consortium and the development of a single accessible database listing variants in the TTN gene, identified by high throughput approaches, may be the key to a better assessment of titinopathies and to systematic genotype– phenotype correlation studies.

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Most cited references 83

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Target-enrichment strategies for next-generation sequencing.

Lira Mamanova, Alison J Coffey, Carol E Scott … (2010)

We have not yet reached a point at which routine sequencing of large numbers of whole eukaryotic genomes is feasible, and so it is often necessary to select genomic regions of interest and to enrich these regions before sequencing. There are several enrichment approaches, each with unique advantages and disadvantages. Here we describe our experiences with the leading target-enrichment technologies, the optimizations that we have performed and typical results that can be obtained using each. We also provide detailed protocols for each technology so that end users can find the best compromise between sensitivity, specificity and uniformity for their particular project.

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A gene mutated in X-linked myotubular myopathy defines a new putative tyrosine phosphatase family conserved in yeast.

L. Hu, J. Laporte, Mark J Mandel … (1996)

X-linked recessive myotubular myopathy (MTM1) is characterized by severe hypotonia and generalized muscle weakness, with impaired maturation of muscle fibres. We have restricted the candidate region to 280 kb and characterized two candidate genes using positional cloning strategies. The presence of frameshift or missense mutations (of which two are new mutations) in seven patients proved that one of these genes is indeed implicated in MTM1. The protein encoded by the MTM1 gene is highly conserved in yeast, which is surprising for a muscle specific disease. The protein contains the consensus sequence for the active site of tyrosine phosphatases, a wide class of proteins involved in signal transduction. At least three other genes, one located within 100 kb distal from the MTM1 gene, encode proteins with very high sequence similarities and define, together with the MTM1 gene, a new family of putative tyrosine phosphatases in man.

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The complete gene sequence of titin, expression of an unusual approximately 700-kDa titin isoform, and its interaction with obscurin identify a novel Z-line to I-band linking system.

M McNabb, F Fornoff, Juliana Gregorio … (2001)

Titin is a giant vertebrate striated muscle protein with critical importance for myofibril elasticity and structural integrity. We show here that the complete sequence of the human titin gene contains 363 exons, which together code for 38 138 residues (4200 kDa). In its central I-band region, 47 novel PEVK exons were found, which contribute to titin's extensible spring properties. Additionally, 3 unique I-band titin exons were identified (named novex-1 to -3). Novex-3 functions as an alternative titin C-terminus. The novex-3 titin isoform is approximately 700 kDa in size and spans from Z1-Z2 (titin's N-terminus) to novex-3 (C-terminal exon). Novex-3 titin specifically interacts with obscurin, a 721-kDa myofibrillar protein composed of 57 Ig/FN3 domains, followed by one IQ, SH3, DH, and a PH domain at its C-terminus. The obscurin domains Ig48/Ig49 bind to novex-3 titin and target to the Z-line region when expressed as a GFP fusion protein in live cardiac myocytes. Immunoelectron microscopy detected the C-terminal Ig48/Ig49 obscurin epitope near the Z-line edge. The distance from the Z-line varied with sarcomere length, suggesting that the novex-3 titin/obscurin complex forms an elastic Z-disc to I-band linking system. This system could link together calcium-dependent, SH3-, and GTPase-regulated signaling pathways in close proximity to the Z-disc, a structure increasingly implicated in the restructuring of sarcomeres during cardiomyopathies.

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Author and article information

Journal

Journal ID (nlm-ta): J Neuromuscul Dis

Journal ID (iso-abbrev): J Neuromuscul Dis

Journal ID (publisher-id): JND

Title: Journal of Neuromuscular Diseases

Publisher: IOS Press (Nieuwe Hemweg 6B, 1013 BG Amsterdam, The Netherlands )

ISSN (Print): 2214-3599

ISSN (Electronic): 2214-3602

Publication date (Electronic, preprint): 22 August 2016

Publication date (Electronic, pub): 30 August 2016

Publication date (Electronic, collection): 2016

Volume: 3

Issue: 3

Pages: 293-308

Affiliations

[a ]Folkhälsan Institute of Genetics and Department of Medical Genetics, Haartman Institute, University of Helsinki , Helsinki, Finland

[b ]Albert Einstein College of Medicine, Departments of Medicine– Endocrinology and Molecular Pharmacology , Bronx, NY, USA

[c ]Neuromuscular Research Center, University of Tampere and Tampere University Hospital , Tampere, Finland

[d ]Department of Neurology, Vaasa Central Hospital , Vaasa, Finland

Author notes

[* ]Correspondence to: Dr Peter Hackman, Folkhalsan Institute of Genetics and Department of Medical Genetics, Haartman Institute, University of Helsinki, Helsinki, Finland. E-mail: peter.hackman@ 123456helsinki.fi .

Article

Publisher ID: JND160158

DOI: 10.3233/JND-160158

PMC ID: 5123623

PubMed ID: 27854229

SO-VID: 4e24cac3-a7ba-410b-8486-cd37a177485d

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This is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial (CC BY-NC 4.0) License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Increasing Role of Titin Mutations in Neuromuscular Disorders

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Most cited references 83

Target-enrichment strategies for next-generation sequencing.

A gene mutated in X-linked myotubular myopathy defines a new putative tyrosine phosphatase family conserved in yeast.

The complete gene sequence of titin, expression of an unusual approximately 700-kDa titin isoform, and its interaction with obscurin identify a novel Z-line to I-band linking system.

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