Recessive nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum is caused by homozygous protein-truncating mutations of WDR73

We describe a novel nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum among 30 children (ages 1.0 to 28 years) from diverse Amish demes. Children with nephrocerebellar syndrome had progressive microcephaly, visual impairment, stagnant psychomotor development, abnormal extrapyramidal...

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Autores principales: Jinks, Robert N., Puffenberger, Erik G., Baple, Emma, Harding, Brian, Crino, Peter, Fogo, Agnes B., Wenger, Olivia, Xin, Baozhong, Koehler, Alanna E., McGlincy, Madeleine H., Provencher, Margaret M., Smith, Jeffrey D., Tran, Linh, Al Turki, Saeed, Chioza, Barry A., Cross, Harold, Harlalka, Gaurav V., Hurles, Matthew E., Maroofian, Reza, Heaps, Adam D., Morton, Mary C., Stempak, Lisa, Hildebrandt, Friedhelm, Sadowski, Carolin E., Zaritsky, Joshua, Campellone, Kenneth, Morton, D. Holmes, Wang, Heng, Crosby, Andrew, Strauss, Kevin A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2015
Materias:
Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4511861/
https://www.ncbi.nlm.nih.gov/pubmed/26070982
http://dx.doi.org/10.1093/brain/awv153
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author Jinks, Robert N.
Puffenberger, Erik G.
Baple, Emma
Harding, Brian
Crino, Peter
Fogo, Agnes B.
Wenger, Olivia
Xin, Baozhong
Koehler, Alanna E.
McGlincy, Madeleine H.
Provencher, Margaret M.
Smith, Jeffrey D.
Tran, Linh
Al Turki, Saeed
Chioza, Barry A.
Cross, Harold
Harlalka, Gaurav V.
Hurles, Matthew E.
Maroofian, Reza
Heaps, Adam D.
Morton, Mary C.
Stempak, Lisa
Hildebrandt, Friedhelm
Sadowski, Carolin E.
Zaritsky, Joshua
Campellone, Kenneth
Morton, D. Holmes
Wang, Heng
Crosby, Andrew
Strauss, Kevin A.
author_facet Jinks, Robert N.
Puffenberger, Erik G.
Baple, Emma
Harding, Brian
Crino, Peter
Fogo, Agnes B.
Wenger, Olivia
Xin, Baozhong
Koehler, Alanna E.
McGlincy, Madeleine H.
Provencher, Margaret M.
Smith, Jeffrey D.
Tran, Linh
Al Turki, Saeed
Chioza, Barry A.
Cross, Harold
Harlalka, Gaurav V.
Hurles, Matthew E.
Maroofian, Reza
Heaps, Adam D.
Morton, Mary C.
Stempak, Lisa
Hildebrandt, Friedhelm
Sadowski, Carolin E.
Zaritsky, Joshua
Campellone, Kenneth
Morton, D. Holmes
Wang, Heng
Crosby, Andrew
Strauss, Kevin A.
author_sort Jinks, Robert N.
collection PubMed
description We describe a novel nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum among 30 children (ages 1.0 to 28 years) from diverse Amish demes. Children with nephrocerebellar syndrome had progressive microcephaly, visual impairment, stagnant psychomotor development, abnormal extrapyramidal movements and nephrosis. Fourteen died between ages 2.7 and 28 years, typically from renal failure. Post-mortem studies revealed (i) micrencephaly without polymicrogyria or heterotopia; (ii) atrophic cerebellar hemispheres with stunted folia, profound granule cell depletion, Bergmann gliosis, and signs of Purkinje cell deafferentation; (iii) selective striatal cholinergic interneuron loss; and (iv) optic atrophy with delamination of the lateral geniculate nuclei. Renal tissue showed focal and segmental glomerulosclerosis and extensive effacement and microvillus transformation of podocyte foot processes. Nephrocerebellar syndrome mapped to 700 kb on chromosome 15, which contained a single novel homozygous frameshift variant (WDR73 c.888delT; p.Phe296Leufs*26). WDR73 protein is expressed in human cerebral cortex, hippocampus, and cultured embryonic kidney cells. It is concentrated at mitotic microtubules and interacts with α-, β-, and γ-tubulin, heat shock proteins 70 and 90 (HSP-70; HSP-90), and the carbamoyl phosphate synthetase 2/aspartate transcarbamylase/dihydroorotase multi-enzyme complex. Recombinant WDR73 p.Phe296Leufs*26 and p.Arg256Profs*18 proteins are truncated, unstable, and show increased interaction with α- and β-tubulin and HSP-70/HSP-90. Fibroblasts from patients homozygous for WDR73 p.Phe296Leufs*26 proliferate poorly in primary culture and senesce early. Our data suggest that in humans, WDR73 interacts with mitotic microtubules to regulate cell cycle progression, proliferation and survival in brain and kidney. We extend the Galloway-Mowat syndrome spectrum with the first description of diencephalic and striatal neuropathology.
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spelling pubmed-45118612015-07-24 Recessive nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum is caused by homozygous protein-truncating mutations of WDR73 Jinks, Robert N. Puffenberger, Erik G. Baple, Emma Harding, Brian Crino, Peter Fogo, Agnes B. Wenger, Olivia Xin, Baozhong Koehler, Alanna E. McGlincy, Madeleine H. Provencher, Margaret M. Smith, Jeffrey D. Tran, Linh Al Turki, Saeed Chioza, Barry A. Cross, Harold Harlalka, Gaurav V. Hurles, Matthew E. Maroofian, Reza Heaps, Adam D. Morton, Mary C. Stempak, Lisa Hildebrandt, Friedhelm Sadowski, Carolin E. Zaritsky, Joshua Campellone, Kenneth Morton, D. Holmes Wang, Heng Crosby, Andrew Strauss, Kevin A. Brain Original Articles We describe a novel nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum among 30 children (ages 1.0 to 28 years) from diverse Amish demes. Children with nephrocerebellar syndrome had progressive microcephaly, visual impairment, stagnant psychomotor development, abnormal extrapyramidal movements and nephrosis. Fourteen died between ages 2.7 and 28 years, typically from renal failure. Post-mortem studies revealed (i) micrencephaly without polymicrogyria or heterotopia; (ii) atrophic cerebellar hemispheres with stunted folia, profound granule cell depletion, Bergmann gliosis, and signs of Purkinje cell deafferentation; (iii) selective striatal cholinergic interneuron loss; and (iv) optic atrophy with delamination of the lateral geniculate nuclei. Renal tissue showed focal and segmental glomerulosclerosis and extensive effacement and microvillus transformation of podocyte foot processes. Nephrocerebellar syndrome mapped to 700 kb on chromosome 15, which contained a single novel homozygous frameshift variant (WDR73 c.888delT; p.Phe296Leufs*26). WDR73 protein is expressed in human cerebral cortex, hippocampus, and cultured embryonic kidney cells. It is concentrated at mitotic microtubules and interacts with α-, β-, and γ-tubulin, heat shock proteins 70 and 90 (HSP-70; HSP-90), and the carbamoyl phosphate synthetase 2/aspartate transcarbamylase/dihydroorotase multi-enzyme complex. Recombinant WDR73 p.Phe296Leufs*26 and p.Arg256Profs*18 proteins are truncated, unstable, and show increased interaction with α- and β-tubulin and HSP-70/HSP-90. Fibroblasts from patients homozygous for WDR73 p.Phe296Leufs*26 proliferate poorly in primary culture and senesce early. Our data suggest that in humans, WDR73 interacts with mitotic microtubules to regulate cell cycle progression, proliferation and survival in brain and kidney. We extend the Galloway-Mowat syndrome spectrum with the first description of diencephalic and striatal neuropathology. Oxford University Press 2015-08 2015-06-12 /pmc/articles/PMC4511861/ /pubmed/26070982 http://dx.doi.org/10.1093/brain/awv153 Text en © The Author (2015). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For Permissions, please email: journals.permissions@oup.com http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Articles
Jinks, Robert N.
Puffenberger, Erik G.
Baple, Emma
Harding, Brian
Crino, Peter
Fogo, Agnes B.
Wenger, Olivia
Xin, Baozhong
Koehler, Alanna E.
McGlincy, Madeleine H.
Provencher, Margaret M.
Smith, Jeffrey D.
Tran, Linh
Al Turki, Saeed
Chioza, Barry A.
Cross, Harold
Harlalka, Gaurav V.
Hurles, Matthew E.
Maroofian, Reza
Heaps, Adam D.
Morton, Mary C.
Stempak, Lisa
Hildebrandt, Friedhelm
Sadowski, Carolin E.
Zaritsky, Joshua
Campellone, Kenneth
Morton, D. Holmes
Wang, Heng
Crosby, Andrew
Strauss, Kevin A.
Recessive nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum is caused by homozygous protein-truncating mutations of WDR73
title Recessive nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum is caused by homozygous protein-truncating mutations of WDR73
title_full Recessive nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum is caused by homozygous protein-truncating mutations of WDR73
title_fullStr Recessive nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum is caused by homozygous protein-truncating mutations of WDR73
title_full_unstemmed Recessive nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum is caused by homozygous protein-truncating mutations of WDR73
title_short Recessive nephrocerebellar syndrome on the Galloway-Mowat syndrome spectrum is caused by homozygous protein-truncating mutations of WDR73
title_sort recessive nephrocerebellar syndrome on the galloway-mowat syndrome spectrum is caused by homozygous protein-truncating mutations of wdr73
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4511861/
https://www.ncbi.nlm.nih.gov/pubmed/26070982
http://dx.doi.org/10.1093/brain/awv153
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