Mutations in CRADD Result in Reduced Caspase-2-Mediated Neuronal Apoptosis and Cause Megalencephaly with a Rare Lissencephaly Variant

Lissencephaly is a malformation of cortical development typically caused by deficient neuronal migration resulting in cortical thickening and reduced gyration. Here we describe a “thin” lissencephaly (TLIS) variant characterized by megalencephaly, frontal predominant pachygyria, intellectual disabil...

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Autores principales: Di Donato, Nataliya, Jean, Ying Y., Maga, A. Murat, Krewson, Briana D., Shupp, Alison B., Avrutsky, Maria I., Roy, Achira, Collins, Sarah, Olds, Carissa, Willert, Rebecca A., Czaja, Agnieszka M., Johnson, Rachel, Stover, Jessi A., Gottlieb, Steven, Bartholdi, Deborah, Rauch, Anita, Goldstein, Amy, Boyd-Kyle, Victoria, Aldinger, Kimberly A., Mirzaa, Ghayda M., Nissen, Anke, Brigatti, Karlla W., Puffenberger, Erik G., Millen, Kathleen J., Strauss, Kevin A., Dobyns, William B., Troy, Carol M., Jinks, Robert N.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2016
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5097945/
https://www.ncbi.nlm.nih.gov/pubmed/27773430
http://dx.doi.org/10.1016/j.ajhg.2016.09.010
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author Di Donato, Nataliya
Jean, Ying Y.
Maga, A. Murat
Krewson, Briana D.
Shupp, Alison B.
Avrutsky, Maria I.
Roy, Achira
Collins, Sarah
Olds, Carissa
Willert, Rebecca A.
Czaja, Agnieszka M.
Johnson, Rachel
Stover, Jessi A.
Gottlieb, Steven
Bartholdi, Deborah
Rauch, Anita
Goldstein, Amy
Boyd-Kyle, Victoria
Aldinger, Kimberly A.
Mirzaa, Ghayda M.
Nissen, Anke
Brigatti, Karlla W.
Puffenberger, Erik G.
Millen, Kathleen J.
Strauss, Kevin A.
Dobyns, William B.
Troy, Carol M.
Jinks, Robert N.
author_facet Di Donato, Nataliya
Jean, Ying Y.
Maga, A. Murat
Krewson, Briana D.
Shupp, Alison B.
Avrutsky, Maria I.
Roy, Achira
Collins, Sarah
Olds, Carissa
Willert, Rebecca A.
Czaja, Agnieszka M.
Johnson, Rachel
Stover, Jessi A.
Gottlieb, Steven
Bartholdi, Deborah
Rauch, Anita
Goldstein, Amy
Boyd-Kyle, Victoria
Aldinger, Kimberly A.
Mirzaa, Ghayda M.
Nissen, Anke
Brigatti, Karlla W.
Puffenberger, Erik G.
Millen, Kathleen J.
Strauss, Kevin A.
Dobyns, William B.
Troy, Carol M.
Jinks, Robert N.
author_sort Di Donato, Nataliya
collection PubMed
description Lissencephaly is a malformation of cortical development typically caused by deficient neuronal migration resulting in cortical thickening and reduced gyration. Here we describe a “thin” lissencephaly (TLIS) variant characterized by megalencephaly, frontal predominant pachygyria, intellectual disability, and seizures. Trio-based whole-exome sequencing and targeted re-sequencing identified recessive mutations of CRADD in six individuals with TLIS from four unrelated families of diverse ethnic backgrounds. CRADD (also known as RAIDD) is a death-domain-containing adaptor protein that oligomerizes with PIDD and caspase-2 to initiate apoptosis. TLIS variants cluster in the CRADD death domain, a platform for interaction with other death-domain-containing proteins including PIDD. Although caspase-2 is expressed in the developing mammalian brain, little is known about its role in cortical development. CRADD/caspase-2 signaling is implicated in neurotrophic factor withdrawal- and amyloid-β-induced dendritic spine collapse and neuronal apoptosis, suggesting a role in cortical sculpting and plasticity. TLIS-associated CRADD variants do not disrupt interactions with caspase-2 or PIDD in co-immunoprecipitation assays, but still abolish CRADD’s ability to activate caspase-2, resulting in reduced neuronal apoptosis in vitro. Homozygous Cradd knockout mice display megalencephaly and seizures without obvious defects in cortical lamination, supporting a role for CRADD/caspase-2 signaling in mammalian brain development. Megalencephaly and lissencephaly associated with defective programmed cell death from loss of CRADD function in humans implicate reduced apoptosis as an important pathophysiological mechanism of cortical malformation. Our data suggest that CRADD/caspase-2 signaling is critical for normal gyration of the developing human neocortex and for normal cognitive ability.
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spelling pubmed-50979452017-05-03 Mutations in CRADD Result in Reduced Caspase-2-Mediated Neuronal Apoptosis and Cause Megalencephaly with a Rare Lissencephaly Variant Di Donato, Nataliya Jean, Ying Y. Maga, A. Murat Krewson, Briana D. Shupp, Alison B. Avrutsky, Maria I. Roy, Achira Collins, Sarah Olds, Carissa Willert, Rebecca A. Czaja, Agnieszka M. Johnson, Rachel Stover, Jessi A. Gottlieb, Steven Bartholdi, Deborah Rauch, Anita Goldstein, Amy Boyd-Kyle, Victoria Aldinger, Kimberly A. Mirzaa, Ghayda M. Nissen, Anke Brigatti, Karlla W. Puffenberger, Erik G. Millen, Kathleen J. Strauss, Kevin A. Dobyns, William B. Troy, Carol M. Jinks, Robert N. Am J Hum Genet Article Lissencephaly is a malformation of cortical development typically caused by deficient neuronal migration resulting in cortical thickening and reduced gyration. Here we describe a “thin” lissencephaly (TLIS) variant characterized by megalencephaly, frontal predominant pachygyria, intellectual disability, and seizures. Trio-based whole-exome sequencing and targeted re-sequencing identified recessive mutations of CRADD in six individuals with TLIS from four unrelated families of diverse ethnic backgrounds. CRADD (also known as RAIDD) is a death-domain-containing adaptor protein that oligomerizes with PIDD and caspase-2 to initiate apoptosis. TLIS variants cluster in the CRADD death domain, a platform for interaction with other death-domain-containing proteins including PIDD. Although caspase-2 is expressed in the developing mammalian brain, little is known about its role in cortical development. CRADD/caspase-2 signaling is implicated in neurotrophic factor withdrawal- and amyloid-β-induced dendritic spine collapse and neuronal apoptosis, suggesting a role in cortical sculpting and plasticity. TLIS-associated CRADD variants do not disrupt interactions with caspase-2 or PIDD in co-immunoprecipitation assays, but still abolish CRADD’s ability to activate caspase-2, resulting in reduced neuronal apoptosis in vitro. Homozygous Cradd knockout mice display megalencephaly and seizures without obvious defects in cortical lamination, supporting a role for CRADD/caspase-2 signaling in mammalian brain development. Megalencephaly and lissencephaly associated with defective programmed cell death from loss of CRADD function in humans implicate reduced apoptosis as an important pathophysiological mechanism of cortical malformation. Our data suggest that CRADD/caspase-2 signaling is critical for normal gyration of the developing human neocortex and for normal cognitive ability. Elsevier 2016-11-03 2016-10-20 /pmc/articles/PMC5097945/ /pubmed/27773430 http://dx.doi.org/10.1016/j.ajhg.2016.09.010 Text en © 2016 The Author(s) http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Di Donato, Nataliya
Jean, Ying Y.
Maga, A. Murat
Krewson, Briana D.
Shupp, Alison B.
Avrutsky, Maria I.
Roy, Achira
Collins, Sarah
Olds, Carissa
Willert, Rebecca A.
Czaja, Agnieszka M.
Johnson, Rachel
Stover, Jessi A.
Gottlieb, Steven
Bartholdi, Deborah
Rauch, Anita
Goldstein, Amy
Boyd-Kyle, Victoria
Aldinger, Kimberly A.
Mirzaa, Ghayda M.
Nissen, Anke
Brigatti, Karlla W.
Puffenberger, Erik G.
Millen, Kathleen J.
Strauss, Kevin A.
Dobyns, William B.
Troy, Carol M.
Jinks, Robert N.
Mutations in CRADD Result in Reduced Caspase-2-Mediated Neuronal Apoptosis and Cause Megalencephaly with a Rare Lissencephaly Variant
title Mutations in CRADD Result in Reduced Caspase-2-Mediated Neuronal Apoptosis and Cause Megalencephaly with a Rare Lissencephaly Variant
title_full Mutations in CRADD Result in Reduced Caspase-2-Mediated Neuronal Apoptosis and Cause Megalencephaly with a Rare Lissencephaly Variant
title_fullStr Mutations in CRADD Result in Reduced Caspase-2-Mediated Neuronal Apoptosis and Cause Megalencephaly with a Rare Lissencephaly Variant
title_full_unstemmed Mutations in CRADD Result in Reduced Caspase-2-Mediated Neuronal Apoptosis and Cause Megalencephaly with a Rare Lissencephaly Variant
title_short Mutations in CRADD Result in Reduced Caspase-2-Mediated Neuronal Apoptosis and Cause Megalencephaly with a Rare Lissencephaly Variant
title_sort mutations in cradd result in reduced caspase-2-mediated neuronal apoptosis and cause megalencephaly with a rare lissencephaly variant
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5097945/
https://www.ncbi.nlm.nih.gov/pubmed/27773430
http://dx.doi.org/10.1016/j.ajhg.2016.09.010
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