Congenital Titinopathy: Comprehensive Characterization of the Most Severe End of the Disease Spectrum

Titin Research Consortium; Sandra Coppens; Nicolas Deconinck; Patricia Sullivan; Andrei Smolnikov; Joshua S. Clayton; Kaitlyn R. Griffin; Kristi J. Jones; Catheline N. Vilain; Hazim Kadhim; Samantha J. Bryen; Fathimath Faiz; Leigh B. Waddell; Frances J. Evesson; Madhura Bakshi; Jason R. Pinner; Amanda Charlton; Susan Brammah; Nicole S. Graf; Michael Krivanek; Chee Geap Tay; Nicola C. Foulds; Marjorie A. Illingworth; Neil H. Thomas; Sian Ellard; Ingrid Mazanti; Soo Mi Park; Courtney E. French; Jennifer Brewster; Gusztav Belteki; Shazia Hoodbhoy; Kieren Allinson; Deepa Krishnakumar; Gareth Baynam; Bradley M. Wood; Michelle Ward; Kayal Vijayakumar; Amber Syed; Archana Murugan; Anirban Majumdar; Ingrid J. Scurr; Miranda P. Splitt; Corina Moldovan; Deepthi C. de Silva; Kumudu Senanayake; Thatjana Gardeitchik; Yvonne Arens; Sandra T. Cooper; Nigel G. Laing; F. Lucy Raymond; Heinz Jungbluth; Erik Jan Kamsteeg; Adnan Manzur; Susan M. Corley; Gianina Ravenscroft; Marc R. Wilkins; Mark J. Cowley; Mark Pinese; Ana Ferreiro; Isabelle Richard; Carsten G. Bönnemann; Sandra Donkervoort; Ho Ming Luk; Hugo Sampaio; Michelle A. Farrar; David Mowat; Robin B. Fitzsimons; Carole Vuillerot; Rahul Phadke; Mark R. Davis; Francesco Muntoni; Emily C. Oates

doi:10.1002/ana.27087

Congenital Titinopathy: Comprehensive Characterization of the Most Severe End of the Disease Spectrum

Titin Research Consortium, Sandra Coppens, Nicolas Deconinck, Patricia Sullivan, Andrei Smolnikov, Joshua S. Clayton, Kaitlyn R. Griffin, Kristi J. Jones, Catheline N. Vilain, Hazim Kadhim, Samantha J. Bryen, Fathimath Faiz, Leigh B. Waddell, Frances J. Evesson, Madhura Bakshi, Jason R. Pinner, Amanda Charlton, Susan Brammah, Nicole S. Graf, Michael KrivanekChee Geap Tay, Nicola C. Foulds, Marjorie A. Illingworth, Neil H. Thomas, Sian Ellard, Ingrid Mazanti, Soo Mi Park, Courtney E. French, Jennifer Brewster, Gusztav Belteki, Shazia Hoodbhoy, Kieren Allinson, Deepa Krishnakumar, Gareth Baynam, Bradley M. Wood, Michelle Ward, Kayal Vijayakumar, Amber Syed, Archana Murugan, Anirban Majumdar, Ingrid J. Scurr, Miranda P. Splitt, Corina Moldovan, Deepthi C. de Silva, Kumudu Senanayake, Thatjana Gardeitchik, Yvonne Arens, Sandra T. Cooper, Nigel G. Laing, F. Lucy Raymond, Heinz Jungbluth, Erik Jan Kamsteeg, Adnan Manzur, Susan M. Corley, Gianina Ravenscroft, Marc R. Wilkins, Mark J. Cowley, Mark Pinese, Ana Ferreiro, Isabelle Richard, Carsten G. Bönnemann, Sandra Donkervoort, Ho Ming Luk, Hugo Sampaio, Michelle A. Farrar, David Mowat, Robin B. Fitzsimons, Carole Vuillerot, Rahul Phadke, Mark R. Davis, Francesco Muntoni, Emily C. Oates

UWA Centre for Medical Research (affiliated with the Harry Perkins Institute of Medical Research)

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

Abstract

Congenital titinopathy has recently emerged as one of the most common congenital muscle disorders. Objective: To better understand the presentation and clinical needs of the under-characterized extreme end of the congenital titinopathy severity spectrum. Methods: We comprehensively analyzed the clinical, imaging, pathology, autopsy, and genetic findings in 15 severely affected individuals from 11 families. Results: Prenatal features included hypokinesia or akinesia and growth restriction. Six pregnancies were terminated. Nine infants were born at or near term with severe-to-profound weakness and required resuscitation. Seven died following withdrawal of life support. Two surviving children require ongoing respiratory support. Most cohort members had at least 1 disease-causing variant predicted to result in some near-normal-length titin expression. The exceptions, from 2 unrelated families, had homozygous truncating variants predicted to induce complete nonsense mediated decay. However, subsequent analyses suggested that the causative variant in each family had an additional previously unrecognized impact on splicing likely to result in some near-normal-length titin expression. This impact was confirmed by minigene assay for 1 variant. Interpretation: This study confirms the clinical variability of congenital titinopathy. Severely affected individuals succumb prenatally/during infancy, whereas others survive into adulthood. It is likely that this variability is because of differences in the amount and/or length of expressed titin. If confirmed, analysis of titin expression could facilitate clinical prediction and increasing expression might be an effective treatment strategy. Our findings also further-support the hypothesis that some near-normal-length titin expression is essential to early prenatal survival. Sometimes expression of normal/near-normal-length titin is due to disease-causing variants having an additional impact on splicing. ANN NEUROL 2025.

Original language	English
Number of pages	18
Journal	Annals of Neurology
DOIs	https://doi.org/10.1002/ana.27087
Publication status	E-pub ahead of print - 24 Jan 2025

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10.1002/ana.27087Licence: CC BY-NC-ND

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Titin Research Consortium, Coppens, S., Deconinck, N., Sullivan, P., Smolnikov, A., Clayton, J. S., Griffin, K. R., Jones, K. J., Vilain, C. N., Kadhim, H., Bryen, S. J., Faiz, F., Waddell, L. B., Evesson, F. J., Bakshi, M., Pinner, J. R., Charlton, A., Brammah, S., Graf, N. S., ... Oates, E. C. (2025). Congenital Titinopathy: Comprehensive Characterization of the Most Severe End of the Disease Spectrum. Annals of Neurology. Advance online publication. https://doi.org/10.1002/ana.27087

@article{12f57b6393cb46bfa33449cc1281801a,

title = "Congenital Titinopathy: Comprehensive Characterization of the Most Severe End of the Disease Spectrum",

abstract = "Congenital titinopathy has recently emerged as one of the most common congenital muscle disorders. Objective: To better understand the presentation and clinical needs of the under-characterized extreme end of the congenital titinopathy severity spectrum. Methods: We comprehensively analyzed the clinical, imaging, pathology, autopsy, and genetic findings in 15 severely affected individuals from 11 families. Results: Prenatal features included hypokinesia or akinesia and growth restriction. Six pregnancies were terminated. Nine infants were born at or near term with severe-to-profound weakness and required resuscitation. Seven died following withdrawal of life support. Two surviving children require ongoing respiratory support. Most cohort members had at least 1 disease-causing variant predicted to result in some near-normal-length titin expression. The exceptions, from 2 unrelated families, had homozygous truncating variants predicted to induce complete nonsense mediated decay. However, subsequent analyses suggested that the causative variant in each family had an additional previously unrecognized impact on splicing likely to result in some near-normal-length titin expression. This impact was confirmed by minigene assay for 1 variant. Interpretation: This study confirms the clinical variability of congenital titinopathy. Severely affected individuals succumb prenatally/during infancy, whereas others survive into adulthood. It is likely that this variability is because of differences in the amount and/or length of expressed titin. If confirmed, analysis of titin expression could facilitate clinical prediction and increasing expression might be an effective treatment strategy. Our findings also further-support the hypothesis that some near-normal-length titin expression is essential to early prenatal survival. Sometimes expression of normal/near-normal-length titin is due to disease-causing variants having an additional impact on splicing. ANN NEUROL 2025.",

author = "{Titin Research Consortium} and Sandra Coppens and Nicolas Deconinck and Patricia Sullivan and Andrei Smolnikov and Clayton, {Joshua S.} and Griffin, {Kaitlyn R.} and Jones, {Kristi J.} and Vilain, {Catheline N.} and Hazim Kadhim and Bryen, {Samantha J.} and Fathimath Faiz and Waddell, {Leigh B.} and Evesson, {Frances J.} and Madhura Bakshi and Pinner, {Jason R.} and Amanda Charlton and Susan Brammah and Graf, {Nicole S.} and Michael Krivanek and Tay, {Chee Geap} and Foulds, {Nicola C.} and Illingworth, {Marjorie A.} and Thomas, {Neil H.} and Sian Ellard and Ingrid Mazanti and Park, {Soo Mi} and French, {Courtney E.} and Jennifer Brewster and Gusztav Belteki and Shazia Hoodbhoy and Kieren Allinson and Deepa Krishnakumar and Gareth Baynam and Wood, {Bradley M.} and Michelle Ward and Kayal Vijayakumar and Amber Syed and Archana Murugan and Anirban Majumdar and Scurr, {Ingrid J.} and Splitt, {Miranda P.} and Corina Moldovan and {de Silva}, {Deepthi C.} and Kumudu Senanayake and Thatjana Gardeitchik and Yvonne Arens and Cooper, {Sandra T.} and Laing, {Nigel G.} and Raymond, {F. Lucy} and Heinz Jungbluth and Kamsteeg, {Erik Jan} and Adnan Manzur and Corley, {Susan M.} and Gianina Ravenscroft and Wilkins, {Marc R.} and Cowley, {Mark J.} and Mark Pinese and Ana Ferreiro and Isabelle Richard and B{\"o}nnemann, {Carsten G.} and Sandra Donkervoort and Luk, {Ho Ming} and Hugo Sampaio and Farrar, {Michelle A.} and David Mowat and Fitzsimons, {Robin B.} and Carole Vuillerot and Rahul Phadke and Davis, {Mark R.} and Francesco Muntoni and Oates, {Emily C.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Annals of Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.",

year = "2025",

month = jan,

day = "24",

doi = "10.1002/ana.27087",

language = "English",

journal = "Annals of Neurology",

issn = "0364-5134",

publisher = "Wiley-Blackwell",

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Titin Research Consortium, Coppens, S, Deconinck, N, Sullivan, P, Smolnikov, A, Clayton, JS, Griffin, KR, Jones, KJ, Vilain, CN, Kadhim, H, Bryen, SJ, Faiz, F, Waddell, LB, Evesson, FJ, Bakshi, M, Pinner, JR, Charlton, A, Brammah, S, Graf, NS, Krivanek, M, Tay, CG, Foulds, NC, Illingworth, MA, Thomas, NH, Ellard, S, Mazanti, I, Park, SM, French, CE, Brewster, J, Belteki, G, Hoodbhoy, S, Allinson, K, Krishnakumar, D, Baynam, G, Wood, BM, Ward, M, Vijayakumar, K, Syed, A, Murugan, A, Majumdar, A, Scurr, IJ, Splitt, MP, Moldovan, C, de Silva, DC, Senanayake, K, Gardeitchik, T, Arens, Y, Cooper, ST, Laing, NG, Raymond, FL, Jungbluth, H, Kamsteeg, EJ, Manzur, A, Corley, SM, Ravenscroft, G, Wilkins, MR, Cowley, MJ, Pinese, M, Ferreiro, A, Richard, I, Bönnemann, CG, Donkervoort, S, Luk, HM, Sampaio, H, Farrar, MA, Mowat, D, Fitzsimons, RB, Vuillerot, C, Phadke, R, Davis, MR, Muntoni, F & Oates, EC 2025, 'Congenital Titinopathy: Comprehensive Characterization of the Most Severe End of the Disease Spectrum', Annals of Neurology. https://doi.org/10.1002/ana.27087

TY - JOUR

T1 - Congenital Titinopathy

T2 - Comprehensive Characterization of the Most Severe End of the Disease Spectrum

AU - Titin Research Consortium

AU - Coppens, Sandra

AU - Deconinck, Nicolas

AU - Sullivan, Patricia

AU - Smolnikov, Andrei

AU - Clayton, Joshua S.

AU - Griffin, Kaitlyn R.

AU - Jones, Kristi J.

AU - Vilain, Catheline N.

AU - Kadhim, Hazim

AU - Bryen, Samantha J.

AU - Faiz, Fathimath

AU - Waddell, Leigh B.

AU - Evesson, Frances J.

AU - Bakshi, Madhura

AU - Pinner, Jason R.

AU - Charlton, Amanda

AU - Brammah, Susan

AU - Graf, Nicole S.

AU - Krivanek, Michael

AU - Tay, Chee Geap

AU - Foulds, Nicola C.

AU - Illingworth, Marjorie A.

AU - Thomas, Neil H.

AU - Ellard, Sian

AU - Mazanti, Ingrid

AU - Park, Soo Mi

AU - French, Courtney E.

AU - Brewster, Jennifer

AU - Belteki, Gusztav

AU - Hoodbhoy, Shazia

AU - Allinson, Kieren

AU - Krishnakumar, Deepa

AU - Baynam, Gareth

AU - Wood, Bradley M.

AU - Ward, Michelle

AU - Vijayakumar, Kayal

AU - Syed, Amber

AU - Murugan, Archana

AU - Majumdar, Anirban

AU - Scurr, Ingrid J.

AU - Splitt, Miranda P.

AU - Moldovan, Corina

AU - de Silva, Deepthi C.

AU - Senanayake, Kumudu

AU - Gardeitchik, Thatjana

AU - Arens, Yvonne

AU - Cooper, Sandra T.

AU - Laing, Nigel G.

AU - Raymond, F. Lucy

AU - Jungbluth, Heinz

AU - Kamsteeg, Erik Jan

AU - Manzur, Adnan

AU - Corley, Susan M.

AU - Ravenscroft, Gianina

AU - Wilkins, Marc R.

AU - Cowley, Mark J.

AU - Pinese, Mark

AU - Ferreiro, Ana

AU - Richard, Isabelle

AU - Bönnemann, Carsten G.

AU - Donkervoort, Sandra

AU - Luk, Ho Ming

AU - Sampaio, Hugo

AU - Farrar, Michelle A.

AU - Mowat, David

AU - Fitzsimons, Robin B.

AU - Vuillerot, Carole

AU - Phadke, Rahul

AU - Davis, Mark R.

AU - Muntoni, Francesco

AU - Oates, Emily C.

PY - 2025/1/24

Y1 - 2025/1/24

N2 - Congenital titinopathy has recently emerged as one of the most common congenital muscle disorders. Objective: To better understand the presentation and clinical needs of the under-characterized extreme end of the congenital titinopathy severity spectrum. Methods: We comprehensively analyzed the clinical, imaging, pathology, autopsy, and genetic findings in 15 severely affected individuals from 11 families. Results: Prenatal features included hypokinesia or akinesia and growth restriction. Six pregnancies were terminated. Nine infants were born at or near term with severe-to-profound weakness and required resuscitation. Seven died following withdrawal of life support. Two surviving children require ongoing respiratory support. Most cohort members had at least 1 disease-causing variant predicted to result in some near-normal-length titin expression. The exceptions, from 2 unrelated families, had homozygous truncating variants predicted to induce complete nonsense mediated decay. However, subsequent analyses suggested that the causative variant in each family had an additional previously unrecognized impact on splicing likely to result in some near-normal-length titin expression. This impact was confirmed by minigene assay for 1 variant. Interpretation: This study confirms the clinical variability of congenital titinopathy. Severely affected individuals succumb prenatally/during infancy, whereas others survive into adulthood. It is likely that this variability is because of differences in the amount and/or length of expressed titin. If confirmed, analysis of titin expression could facilitate clinical prediction and increasing expression might be an effective treatment strategy. Our findings also further-support the hypothesis that some near-normal-length titin expression is essential to early prenatal survival. Sometimes expression of normal/near-normal-length titin is due to disease-causing variants having an additional impact on splicing. ANN NEUROL 2025.

AB - Congenital titinopathy has recently emerged as one of the most common congenital muscle disorders. Objective: To better understand the presentation and clinical needs of the under-characterized extreme end of the congenital titinopathy severity spectrum. Methods: We comprehensively analyzed the clinical, imaging, pathology, autopsy, and genetic findings in 15 severely affected individuals from 11 families. Results: Prenatal features included hypokinesia or akinesia and growth restriction. Six pregnancies were terminated. Nine infants were born at or near term with severe-to-profound weakness and required resuscitation. Seven died following withdrawal of life support. Two surviving children require ongoing respiratory support. Most cohort members had at least 1 disease-causing variant predicted to result in some near-normal-length titin expression. The exceptions, from 2 unrelated families, had homozygous truncating variants predicted to induce complete nonsense mediated decay. However, subsequent analyses suggested that the causative variant in each family had an additional previously unrecognized impact on splicing likely to result in some near-normal-length titin expression. This impact was confirmed by minigene assay for 1 variant. Interpretation: This study confirms the clinical variability of congenital titinopathy. Severely affected individuals succumb prenatally/during infancy, whereas others survive into adulthood. It is likely that this variability is because of differences in the amount and/or length of expressed titin. If confirmed, analysis of titin expression could facilitate clinical prediction and increasing expression might be an effective treatment strategy. Our findings also further-support the hypothesis that some near-normal-length titin expression is essential to early prenatal survival. Sometimes expression of normal/near-normal-length titin is due to disease-causing variants having an additional impact on splicing. ANN NEUROL 2025.

UR - http://www.scopus.com/inward/record.url?scp=85215812617&partnerID=8YFLogxK

U2 - 10.1002/ana.27087

DO - 10.1002/ana.27087

M3 - Article

C2 - 39853809

AN - SCOPUS:85215812617

SN - 0364-5134

JO - Annals of Neurology

JF - Annals of Neurology

ER -

Congenital Titinopathy: Comprehensive Characterization of the Most Severe End of the Disease Spectrum

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Novel genomic approaches to identify the missing genetics underlying skeletal muscle disease

Gene discovery and pathobiology in muscle diseases

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Congenital Titinopathy: Comprehensive Characterization of the Most Severe End of the Disease Spectrum

Abstract

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Novel genomic approaches to identify the missing genetics underlying skeletal muscle disease

Gene discovery and pathobiology in muscle diseases

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