Autosomal recessive VWA1-related disorder: comprehensive analysis of phenotypic variability and genetic mutations

Sara Nagy; Alistair T. Pagnamenta; Elisa Cali; Hilde M.H. Braakman; Juerd Wijntjes; Benno Kusters; Marc Gotkine; Orly Elpeleg; Vardiella Meiner; Jerica Lenberg; Kristen Wigby; Jennifer Friedman; Luke D. Perry; Alexander M. Rossor; Anna Uhrova Meszarosova; Dana Thomasova; Saiju Jacob; Mary O. Driscoll; Lenika De Simone; Dorothy K. Grange; Richard Sommerville; Zahra Firoozfar; Shahryar Alavi; Mahta Mazaheri; Jevin M. Parmar; Phillipa J. Lamont; Veronica Pini; Anna Sarkozy; Francesco Muntoni; Gianina Ravenscroft; Eppie Jones; Declan O. Rourke; Melissa Nel; Jeannine M. Heckmann; Michelle Kvalsund; Musambo M. Kapapa; Somwe Wa Somwe; David R. Bearden; Arman Çakar; Anne Marie Childs; Rita Horvath; Mary M. Reilly; Henry Houlden; Reza Maroofian

doi:10.1093/braincomms/fcae377

Autosomal recessive VWA1-related disorder: comprehensive analysis of phenotypic variability and genetic mutations

Sara Nagy, Alistair T. Pagnamenta, Elisa Cali, Hilde M.H. Braakman, Juerd Wijntjes, Benno Kusters, Marc Gotkine, Orly Elpeleg, Vardiella Meiner, Jerica Lenberg, Kristen Wigby, Jennifer Friedman, Luke D. Perry, Alexander M. Rossor, Anna Uhrova Meszarosova, Dana Thomasova, Saiju Jacob, Mary O. Driscoll, Lenika De Simone, Dorothy K. GrangeRichard Sommerville, Zahra Firoozfar, Shahryar Alavi, Mahta Mazaheri, Jevin M. Parmar, Phillipa J. Lamont, Veronica Pini, Anna Sarkozy, Francesco Muntoni, Gianina Ravenscroft, Eppie Jones, Declan O. Rourke, Melissa Nel, Jeannine M. Heckmann, Michelle Kvalsund, Musambo M. Kapapa, Somwe Wa Somwe, David R. Bearden, Arman Çakar, Anne Marie Childs, Rita Horvath, Mary M. Reilly, Henry Houlden, Reza Maroofian

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

Abstract

A newly identified subtype of hereditary axonal motor neuropathy, characterized by early proximal limb involvement, has been discovered in a cohort of 34 individuals with biallelic variants in von Willebrand factor A domain-containing 1 (VWA1). This study further delineates the disease characteristics in a cohort of 20 individuals diagnosed through genome or exome sequencing, incorporating neurophysiological, laboratory and imaging data, along with data from previously reported cases across three different studies. Newly reported clinical features include hypermobility/hyperlaxity, axial weakness, dysmorphic signs, asymmetric presentation, dystonic features and, notably, upper motor neuron signs. Foot drop, foot deformities and distal leg weakness followed by early proximal leg weakness are confirmed to be initial manifestations. Additionally, this study identified 11 novel VWA1 variants, reaffirming the 10 bp insertion-induced p.Gly25ArgfsTer74 as the most prevalent disease-causing allele, with a carrier frequency of ∼1 in 441 in the UK and Western European population. Importantly, VWA1-related pathology may mimic various neuromuscular conditions, advocating for its inclusion in diverse gene panels spanning hereditary neuropathies to muscular dystrophies. The study highlights the potential of lower quality control filters in exome analysis to enhance diagnostic yield of VWA1 disease that may account for up to 1% of unexplained hereditary neuropathies.

Original language	English
Article number	fcae377
Number of pages	10
Journal	Brain communications
Volume	6
Issue number	6
DOIs	https://doi.org/10.1093/braincomms/fcae377
Publication status	Published - 28 Oct 2024

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10.1093/braincomms/fcae377Licence: CC BY

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Nagy, S., Pagnamenta, A. T., Cali, E., Braakman, H. M. H., Wijntjes, J., Kusters, B., Gotkine, M., Elpeleg, O., Meiner, V., Lenberg, J., Wigby, K., Friedman, J., Perry, L. D., Rossor, A. M., Meszarosova, A. U., Thomasova, D., Jacob, S., Driscoll, M. O., De Simone, L., ... Maroofian, R. (2024). Autosomal recessive VWA1-related disorder: comprehensive analysis of phenotypic variability and genetic mutations. Brain communications, 6(6), Article fcae377. https://doi.org/10.1093/braincomms/fcae377

@article{18efdb8f6658466c8e09781a52c6e0e1,

title = "Autosomal recessive VWA1-related disorder: comprehensive analysis of phenotypic variability and genetic mutations",

abstract = "A newly identified subtype of hereditary axonal motor neuropathy, characterized by early proximal limb involvement, has been discovered in a cohort of 34 individuals with biallelic variants in von Willebrand factor A domain-containing 1 (VWA1). This study further delineates the disease characteristics in a cohort of 20 individuals diagnosed through genome or exome sequencing, incorporating neurophysiological, laboratory and imaging data, along with data from previously reported cases across three different studies. Newly reported clinical features include hypermobility/hyperlaxity, axial weakness, dysmorphic signs, asymmetric presentation, dystonic features and, notably, upper motor neuron signs. Foot drop, foot deformities and distal leg weakness followed by early proximal leg weakness are confirmed to be initial manifestations. Additionally, this study identified 11 novel VWA1 variants, reaffirming the 10 bp insertion-induced p.Gly25ArgfsTer74 as the most prevalent disease-causing allele, with a carrier frequency of ∼1 in 441 in the UK and Western European population. Importantly, VWA1-related pathology may mimic various neuromuscular conditions, advocating for its inclusion in diverse gene panels spanning hereditary neuropathies to muscular dystrophies. The study highlights the potential of lower quality control filters in exome analysis to enhance diagnostic yield of VWA1 disease that may account for up to 1% of unexplained hereditary neuropathies.",

keywords = "neuromuscular disorders, neuromyopathy, recessive disorders, VWA1",

author = "Sara Nagy and Pagnamenta, {Alistair T.} and Elisa Cali and Braakman, {Hilde M.H.} and Juerd Wijntjes and Benno Kusters and Marc Gotkine and Orly Elpeleg and Vardiella Meiner and Jerica Lenberg and Kristen Wigby and Jennifer Friedman and Perry, {Luke D.} and Rossor, {Alexander M.} and Meszarosova, {Anna Uhrova} and Dana Thomasova and Saiju Jacob and Driscoll, {Mary O.} and {De Simone}, Lenika and Grange, {Dorothy K.} and Richard Sommerville and Zahra Firoozfar and Shahryar Alavi and Mahta Mazaheri and Parmar, {Jevin M.} and Lamont, {Phillipa J.} and Veronica Pini and Anna Sarkozy and Francesco Muntoni and Gianina Ravenscroft and Eppie Jones and Rourke, {Declan O.} and Melissa Nel and Heckmann, {Jeannine M.} and Michelle Kvalsund and Kapapa, {Musambo M.} and Somwe, {Somwe Wa} and Bearden, {David R.} and Arman {\c C}akar and Childs, {Anne Marie} and Rita Horvath and Reilly, {Mary M.} and Henry Houlden and Reza Maroofian",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024. Published by Oxford University Press on behalf of the Guarantors of Brain.",

year = "2024",

month = oct,

day = "28",

doi = "10.1093/braincomms/fcae377",

language = "English",

volume = "6",

journal = "Brain communications",

issn = "2632-1297",

publisher = "Oxford University Press",

number = "6",

}

Nagy, S, Pagnamenta, AT, Cali, E, Braakman, HMH, Wijntjes, J, Kusters, B, Gotkine, M, Elpeleg, O, Meiner, V, Lenberg, J, Wigby, K, Friedman, J, Perry, LD, Rossor, AM, Meszarosova, AU, Thomasova, D, Jacob, S, Driscoll, MO, De Simone, L, Grange, DK, Sommerville, R, Firoozfar, Z, Alavi, S, Mazaheri, M, Parmar, JM, Lamont, PJ, Pini, V, Sarkozy, A, Muntoni, F, Ravenscroft, G, Jones, E, Rourke, DO, Nel, M, Heckmann, JM, Kvalsund, M, Kapapa, MM, Somwe, SW, Bearden, DR, Çakar, A, Childs, AM, Horvath, R, Reilly, MM, Houlden, H & Maroofian, R 2024, 'Autosomal recessive VWA1-related disorder: comprehensive analysis of phenotypic variability and genetic mutations', Brain communications, vol. 6, no. 6, fcae377. https://doi.org/10.1093/braincomms/fcae377

TY - JOUR

T1 - Autosomal recessive VWA1-related disorder

T2 - comprehensive analysis of phenotypic variability and genetic mutations

AU - Nagy, Sara

AU - Pagnamenta, Alistair T.

AU - Cali, Elisa

AU - Braakman, Hilde M.H.

AU - Wijntjes, Juerd

AU - Kusters, Benno

AU - Gotkine, Marc

AU - Elpeleg, Orly

AU - Meiner, Vardiella

AU - Lenberg, Jerica

AU - Wigby, Kristen

AU - Friedman, Jennifer

AU - Perry, Luke D.

AU - Rossor, Alexander M.

AU - Meszarosova, Anna Uhrova

AU - Thomasova, Dana

AU - Jacob, Saiju

AU - Driscoll, Mary O.

AU - De Simone, Lenika

AU - Grange, Dorothy K.

AU - Sommerville, Richard

AU - Firoozfar, Zahra

AU - Alavi, Shahryar

AU - Mazaheri, Mahta

AU - Parmar, Jevin M.

AU - Lamont, Phillipa J.

AU - Pini, Veronica

AU - Sarkozy, Anna

AU - Muntoni, Francesco

AU - Ravenscroft, Gianina

AU - Jones, Eppie

AU - Rourke, Declan O.

AU - Nel, Melissa

AU - Heckmann, Jeannine M.

AU - Kvalsund, Michelle

AU - Kapapa, Musambo M.

AU - Somwe, Somwe Wa

AU - Bearden, David R.

AU - Çakar, Arman

AU - Childs, Anne Marie

AU - Horvath, Rita

AU - Reilly, Mary M.

AU - Houlden, Henry

AU - Maroofian, Reza

PY - 2024/10/28

Y1 - 2024/10/28

N2 - A newly identified subtype of hereditary axonal motor neuropathy, characterized by early proximal limb involvement, has been discovered in a cohort of 34 individuals with biallelic variants in von Willebrand factor A domain-containing 1 (VWA1). This study further delineates the disease characteristics in a cohort of 20 individuals diagnosed through genome or exome sequencing, incorporating neurophysiological, laboratory and imaging data, along with data from previously reported cases across three different studies. Newly reported clinical features include hypermobility/hyperlaxity, axial weakness, dysmorphic signs, asymmetric presentation, dystonic features and, notably, upper motor neuron signs. Foot drop, foot deformities and distal leg weakness followed by early proximal leg weakness are confirmed to be initial manifestations. Additionally, this study identified 11 novel VWA1 variants, reaffirming the 10 bp insertion-induced p.Gly25ArgfsTer74 as the most prevalent disease-causing allele, with a carrier frequency of ∼1 in 441 in the UK and Western European population. Importantly, VWA1-related pathology may mimic various neuromuscular conditions, advocating for its inclusion in diverse gene panels spanning hereditary neuropathies to muscular dystrophies. The study highlights the potential of lower quality control filters in exome analysis to enhance diagnostic yield of VWA1 disease that may account for up to 1% of unexplained hereditary neuropathies.

AB - A newly identified subtype of hereditary axonal motor neuropathy, characterized by early proximal limb involvement, has been discovered in a cohort of 34 individuals with biallelic variants in von Willebrand factor A domain-containing 1 (VWA1). This study further delineates the disease characteristics in a cohort of 20 individuals diagnosed through genome or exome sequencing, incorporating neurophysiological, laboratory and imaging data, along with data from previously reported cases across three different studies. Newly reported clinical features include hypermobility/hyperlaxity, axial weakness, dysmorphic signs, asymmetric presentation, dystonic features and, notably, upper motor neuron signs. Foot drop, foot deformities and distal leg weakness followed by early proximal leg weakness are confirmed to be initial manifestations. Additionally, this study identified 11 novel VWA1 variants, reaffirming the 10 bp insertion-induced p.Gly25ArgfsTer74 as the most prevalent disease-causing allele, with a carrier frequency of ∼1 in 441 in the UK and Western European population. Importantly, VWA1-related pathology may mimic various neuromuscular conditions, advocating for its inclusion in diverse gene panels spanning hereditary neuropathies to muscular dystrophies. The study highlights the potential of lower quality control filters in exome analysis to enhance diagnostic yield of VWA1 disease that may account for up to 1% of unexplained hereditary neuropathies.

KW - neuromuscular disorders

KW - neuromyopathy

KW - recessive disorders

KW - VWA1

UR - http://www.scopus.com/inward/record.url?scp=85208754800&partnerID=8YFLogxK

U2 - 10.1093/braincomms/fcae377

DO - 10.1093/braincomms/fcae377

M3 - Article

C2 - 39502942

AN - SCOPUS:85208754800

SN - 2632-1297

VL - 6

JO - Brain communications

JF - Brain communications

IS - 6

M1 - fcae377

ER -

Autosomal recessive VWA1-related disorder: comprehensive analysis of phenotypic variability and genetic mutations

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The missing genetics of rare diseases

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Autosomal recessive VWA1-related disorder: comprehensive analysis of phenotypic variability and genetic mutations

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The missing genetics of rare diseases

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