A Mouse Model with a Frameshift Mutation in the Nuclear Factor I/X ( NFIX ) Gene Has Phenotypic Features of Marshall‐Smith Syndrome

The nuclear factor I/X (NFIX) gene encodes a ubiquitously expressed transcription factor whose mutations lead to two allelic disorders characterized by developmental, skeletal, and neural abnormalities, namely, Malan syndrome (MAL) and Marshall–Smith syndrome (MSS). NFIX mutations associated with MA...

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Autores principales: Kooblall, Kreepa G., Stevenson, Mark, Stewart, Michelle, Harris, Lachlan, Zalucki, Oressia, Dewhurst, Hannah, Butterfield, Natalie, Leng, Houfu, Hough, Tertius A., Ma, Da, Siow, Bernard, Potter, Paul, Cox, Roger D., Brown, Stephen D.M., Horwood, Nicole, Wright, Benjamin, Lockstone, Helen, Buck, David, Vincent, Tonia L., Hannan, Fadil M., Bassett, J.H. Duncan, Williams, Graham R., Lines, Kate E., Piper, Michael, Wells, Sara, Teboul, Lydia, Hennekam, Raoul C., Thakker, Rajesh V.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley & Sons, Inc. 2023
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10241085/
https://www.ncbi.nlm.nih.gov/pubmed/37283649
http://dx.doi.org/10.1002/jbm4.10739
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author Kooblall, Kreepa G.
Stevenson, Mark
Stewart, Michelle
Harris, Lachlan
Zalucki, Oressia
Dewhurst, Hannah
Butterfield, Natalie
Leng, Houfu
Hough, Tertius A.
Ma, Da
Siow, Bernard
Potter, Paul
Cox, Roger D.
Brown, Stephen D.M.
Horwood, Nicole
Wright, Benjamin
Lockstone, Helen
Buck, David
Vincent, Tonia L.
Hannan, Fadil M.
Bassett, J.H. Duncan
Williams, Graham R.
Lines, Kate E.
Piper, Michael
Wells, Sara
Teboul, Lydia
Hennekam, Raoul C.
Thakker, Rajesh V.
author_facet Kooblall, Kreepa G.
Stevenson, Mark
Stewart, Michelle
Harris, Lachlan
Zalucki, Oressia
Dewhurst, Hannah
Butterfield, Natalie
Leng, Houfu
Hough, Tertius A.
Ma, Da
Siow, Bernard
Potter, Paul
Cox, Roger D.
Brown, Stephen D.M.
Horwood, Nicole
Wright, Benjamin
Lockstone, Helen
Buck, David
Vincent, Tonia L.
Hannan, Fadil M.
Bassett, J.H. Duncan
Williams, Graham R.
Lines, Kate E.
Piper, Michael
Wells, Sara
Teboul, Lydia
Hennekam, Raoul C.
Thakker, Rajesh V.
author_sort Kooblall, Kreepa G.
collection PubMed
description The nuclear factor I/X (NFIX) gene encodes a ubiquitously expressed transcription factor whose mutations lead to two allelic disorders characterized by developmental, skeletal, and neural abnormalities, namely, Malan syndrome (MAL) and Marshall–Smith syndrome (MSS). NFIX mutations associated with MAL mainly cluster in exon 2 and are cleared by nonsense‐mediated decay (NMD) leading to NFIX haploinsufficiency, whereas NFIX mutations associated with MSS are clustered in exons 6–10 and escape NMD and result in the production of dominant‐negative mutant NFIX proteins. Thus, different NFIX mutations have distinct consequences on NFIX expression. To elucidate the in vivo effects of MSS‐associated NFIX exon 7 mutations, we used CRISPR‐Cas9 to generate mouse models with exon 7 deletions that comprised: a frameshift deletion of two nucleotides (Nfix Del2); in‐frame deletion of 24 nucleotides (Nfix Del24); and deletion of 140 nucleotides (Nfix Del140). Nfix ( +/Del2 ), Nfix ( +/Del24 ), Nfix ( +/Del140 ), Nfix ( Del24/Del24 ), and Nfix ( Del140/Del140 ) mice were viable, normal, and fertile, with no skeletal abnormalities, but Nfix ( Del2/Del2 ) mice had significantly reduced viability (p < 0.002) and died at 2–3 weeks of age. Nfix Del2 was not cleared by NMD, and Nfix(Del2/Del2) mice, when compared to Nfix ( +/+ ) and Nfix ( +/Del2 ) mice, had: growth retardation; short stature with kyphosis; reduced skull length; marked porosity of the vertebrae with decreased vertebral and femoral bone mineral content; and reduced caudal vertebrae height and femur length. Plasma biochemistry analysis revealed Nfix ( Del2/Del2 ) mice to have increased total alkaline phosphatase activity but decreased C‐terminal telopeptide and procollagen‐type‐1‐N‐terminal propeptide concentrations compared to Nfix ( +/+ ) and Nfix ( +/Del2 ) mice. Nfix ( Del2/Del2 ) mice were also found to have enlarged cerebral cortices and ventricular areas but smaller dentate gyrus compared to Nfix ( +/+ ) mice. Thus, Nfix ( Del2/Del2 ) mice provide a model for studying the in vivo effects of NFIX mutants that escape NMD and result in developmental abnormalities of the skeletal and neural tissues that are associated with MSS. © 2023 The Authors. JBMR Plus published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research.
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spelling pubmed-102410852023-06-06 A Mouse Model with a Frameshift Mutation in the Nuclear Factor I/X ( NFIX ) Gene Has Phenotypic Features of Marshall‐Smith Syndrome Kooblall, Kreepa G. Stevenson, Mark Stewart, Michelle Harris, Lachlan Zalucki, Oressia Dewhurst, Hannah Butterfield, Natalie Leng, Houfu Hough, Tertius A. Ma, Da Siow, Bernard Potter, Paul Cox, Roger D. Brown, Stephen D.M. Horwood, Nicole Wright, Benjamin Lockstone, Helen Buck, David Vincent, Tonia L. Hannan, Fadil M. Bassett, J.H. Duncan Williams, Graham R. Lines, Kate E. Piper, Michael Wells, Sara Teboul, Lydia Hennekam, Raoul C. Thakker, Rajesh V. JBMR Plus Research Articles The nuclear factor I/X (NFIX) gene encodes a ubiquitously expressed transcription factor whose mutations lead to two allelic disorders characterized by developmental, skeletal, and neural abnormalities, namely, Malan syndrome (MAL) and Marshall–Smith syndrome (MSS). NFIX mutations associated with MAL mainly cluster in exon 2 and are cleared by nonsense‐mediated decay (NMD) leading to NFIX haploinsufficiency, whereas NFIX mutations associated with MSS are clustered in exons 6–10 and escape NMD and result in the production of dominant‐negative mutant NFIX proteins. Thus, different NFIX mutations have distinct consequences on NFIX expression. To elucidate the in vivo effects of MSS‐associated NFIX exon 7 mutations, we used CRISPR‐Cas9 to generate mouse models with exon 7 deletions that comprised: a frameshift deletion of two nucleotides (Nfix Del2); in‐frame deletion of 24 nucleotides (Nfix Del24); and deletion of 140 nucleotides (Nfix Del140). Nfix ( +/Del2 ), Nfix ( +/Del24 ), Nfix ( +/Del140 ), Nfix ( Del24/Del24 ), and Nfix ( Del140/Del140 ) mice were viable, normal, and fertile, with no skeletal abnormalities, but Nfix ( Del2/Del2 ) mice had significantly reduced viability (p < 0.002) and died at 2–3 weeks of age. Nfix Del2 was not cleared by NMD, and Nfix(Del2/Del2) mice, when compared to Nfix ( +/+ ) and Nfix ( +/Del2 ) mice, had: growth retardation; short stature with kyphosis; reduced skull length; marked porosity of the vertebrae with decreased vertebral and femoral bone mineral content; and reduced caudal vertebrae height and femur length. Plasma biochemistry analysis revealed Nfix ( Del2/Del2 ) mice to have increased total alkaline phosphatase activity but decreased C‐terminal telopeptide and procollagen‐type‐1‐N‐terminal propeptide concentrations compared to Nfix ( +/+ ) and Nfix ( +/Del2 ) mice. Nfix ( Del2/Del2 ) mice were also found to have enlarged cerebral cortices and ventricular areas but smaller dentate gyrus compared to Nfix ( +/+ ) mice. Thus, Nfix ( Del2/Del2 ) mice provide a model for studying the in vivo effects of NFIX mutants that escape NMD and result in developmental abnormalities of the skeletal and neural tissues that are associated with MSS. © 2023 The Authors. JBMR Plus published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research. John Wiley & Sons, Inc. 2023-03-30 /pmc/articles/PMC10241085/ /pubmed/37283649 http://dx.doi.org/10.1002/jbm4.10739 Text en © 2023 The Authors. JBMR Plus published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research. https://creativecommons.org/licenses/by/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Articles
Kooblall, Kreepa G.
Stevenson, Mark
Stewart, Michelle
Harris, Lachlan
Zalucki, Oressia
Dewhurst, Hannah
Butterfield, Natalie
Leng, Houfu
Hough, Tertius A.
Ma, Da
Siow, Bernard
Potter, Paul
Cox, Roger D.
Brown, Stephen D.M.
Horwood, Nicole
Wright, Benjamin
Lockstone, Helen
Buck, David
Vincent, Tonia L.
Hannan, Fadil M.
Bassett, J.H. Duncan
Williams, Graham R.
Lines, Kate E.
Piper, Michael
Wells, Sara
Teboul, Lydia
Hennekam, Raoul C.
Thakker, Rajesh V.
A Mouse Model with a Frameshift Mutation in the Nuclear Factor I/X ( NFIX ) Gene Has Phenotypic Features of Marshall‐Smith Syndrome
title A Mouse Model with a Frameshift Mutation in the Nuclear Factor I/X ( NFIX ) Gene Has Phenotypic Features of Marshall‐Smith Syndrome
title_full A Mouse Model with a Frameshift Mutation in the Nuclear Factor I/X ( NFIX ) Gene Has Phenotypic Features of Marshall‐Smith Syndrome
title_fullStr A Mouse Model with a Frameshift Mutation in the Nuclear Factor I/X ( NFIX ) Gene Has Phenotypic Features of Marshall‐Smith Syndrome
title_full_unstemmed A Mouse Model with a Frameshift Mutation in the Nuclear Factor I/X ( NFIX ) Gene Has Phenotypic Features of Marshall‐Smith Syndrome
title_short A Mouse Model with a Frameshift Mutation in the Nuclear Factor I/X ( NFIX ) Gene Has Phenotypic Features of Marshall‐Smith Syndrome
title_sort mouse model with a frameshift mutation in the nuclear factor i/x ( nfix ) gene has phenotypic features of marshall‐smith syndrome
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10241085/
https://www.ncbi.nlm.nih.gov/pubmed/37283649
http://dx.doi.org/10.1002/jbm4.10739
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