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A new glucocerebrosidase-deficient neuronal cell model provides a tool to probe pathophysiology and therapeutics for Gaucher disease
Glucocerebrosidase is a lysosomal hydrolase involved in the breakdown of glucosylceramide. Gaucher disease, a recessive lysosomal storage disorder, is caused by mutations in the gene GBA1. Dysfunctional glucocerebrosidase leads to accumulation of glucosylceramide and glycosylsphingosine in various c...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
The Company of Biologists Ltd
2016
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4958308/ https://www.ncbi.nlm.nih.gov/pubmed/27482815 http://dx.doi.org/10.1242/dmm.024588 |
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| author | Westbroek, Wendy Nguyen, Matthew Siebert, Marina Lindstrom, Taylor Burnett, Robert A. Aflaki, Elma Jung, Olive Tamargo, Rafael Rodriguez-Gil, Jorge L. Acosta, Walter Hendrix, An Behre, Bahafta Tayebi, Nahid Fujiwara, Hideji Sidhu, Rohini Renvoise, Benoit Ginns, Edward I. Dutra, Amalia Pak, Evgenia Cramer, Carole Ory, Daniel S. Pavan, William J. Sidransky, Ellen |
| author_facet | Westbroek, Wendy Nguyen, Matthew Siebert, Marina Lindstrom, Taylor Burnett, Robert A. Aflaki, Elma Jung, Olive Tamargo, Rafael Rodriguez-Gil, Jorge L. Acosta, Walter Hendrix, An Behre, Bahafta Tayebi, Nahid Fujiwara, Hideji Sidhu, Rohini Renvoise, Benoit Ginns, Edward I. Dutra, Amalia Pak, Evgenia Cramer, Carole Ory, Daniel S. Pavan, William J. Sidransky, Ellen |
| author_sort | Westbroek, Wendy |
| collection | PubMed |
| description | Glucocerebrosidase is a lysosomal hydrolase involved in the breakdown of glucosylceramide. Gaucher disease, a recessive lysosomal storage disorder, is caused by mutations in the gene GBA1. Dysfunctional glucocerebrosidase leads to accumulation of glucosylceramide and glycosylsphingosine in various cell types and organs. Mutations in GBA1 are also a common genetic risk factor for Parkinson disease and related synucleinopathies. In recent years, research on the pathophysiology of Gaucher disease, the molecular link between Gaucher and Parkinson disease, and novel therapeutics, have accelerated the need for relevant cell models with GBA1 mutations. Although induced pluripotent stem cells, primary rodent neurons, and transfected neuroblastoma cell lines have been used to study the effect of glucocerebrosidase deficiency on neuronal function, these models have limitations because of challenges in culturing and propagating the cells, low yield, and the introduction of exogenous mutant GBA1. To address some of these difficulties, we established a high yield, easy-to-culture mouse neuronal cell model with nearly complete glucocerebrosidase deficiency representative of Gaucher disease. We successfully immortalized cortical neurons from embryonic null allele gba(−/−) mice and the control littermate (gba(+/+)) by infecting differentiated primary cortical neurons in culture with an EF1α-SV40T lentivirus. Immortalized gba(−/−) neurons lack glucocerebrosidase protein and enzyme activity, and exhibit a dramatic increase in glucosylceramide and glucosylsphingosine accumulation, enlarged lysosomes, and an impaired ATP-dependent calcium-influx response; these phenotypical characteristics were absent in gba(+/+) neurons. This null allele gba(−/−) mouse neuronal model provides a much-needed tool to study the pathophysiology of Gaucher disease and to evaluate new therapies. |
| format | Online Article Text |
| id | pubmed-4958308 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2016 |
| publisher | The Company of Biologists Ltd |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-49583082016-08-04 A new glucocerebrosidase-deficient neuronal cell model provides a tool to probe pathophysiology and therapeutics for Gaucher disease Westbroek, Wendy Nguyen, Matthew Siebert, Marina Lindstrom, Taylor Burnett, Robert A. Aflaki, Elma Jung, Olive Tamargo, Rafael Rodriguez-Gil, Jorge L. Acosta, Walter Hendrix, An Behre, Bahafta Tayebi, Nahid Fujiwara, Hideji Sidhu, Rohini Renvoise, Benoit Ginns, Edward I. Dutra, Amalia Pak, Evgenia Cramer, Carole Ory, Daniel S. Pavan, William J. Sidransky, Ellen Dis Model Mech Research Article Glucocerebrosidase is a lysosomal hydrolase involved in the breakdown of glucosylceramide. Gaucher disease, a recessive lysosomal storage disorder, is caused by mutations in the gene GBA1. Dysfunctional glucocerebrosidase leads to accumulation of glucosylceramide and glycosylsphingosine in various cell types and organs. Mutations in GBA1 are also a common genetic risk factor for Parkinson disease and related synucleinopathies. In recent years, research on the pathophysiology of Gaucher disease, the molecular link between Gaucher and Parkinson disease, and novel therapeutics, have accelerated the need for relevant cell models with GBA1 mutations. Although induced pluripotent stem cells, primary rodent neurons, and transfected neuroblastoma cell lines have been used to study the effect of glucocerebrosidase deficiency on neuronal function, these models have limitations because of challenges in culturing and propagating the cells, low yield, and the introduction of exogenous mutant GBA1. To address some of these difficulties, we established a high yield, easy-to-culture mouse neuronal cell model with nearly complete glucocerebrosidase deficiency representative of Gaucher disease. We successfully immortalized cortical neurons from embryonic null allele gba(−/−) mice and the control littermate (gba(+/+)) by infecting differentiated primary cortical neurons in culture with an EF1α-SV40T lentivirus. Immortalized gba(−/−) neurons lack glucocerebrosidase protein and enzyme activity, and exhibit a dramatic increase in glucosylceramide and glucosylsphingosine accumulation, enlarged lysosomes, and an impaired ATP-dependent calcium-influx response; these phenotypical characteristics were absent in gba(+/+) neurons. This null allele gba(−/−) mouse neuronal model provides a much-needed tool to study the pathophysiology of Gaucher disease and to evaluate new therapies. The Company of Biologists Ltd 2016-07-01 /pmc/articles/PMC4958308/ /pubmed/27482815 http://dx.doi.org/10.1242/dmm.024588 Text en © 2016. Published by The Company of Biologists Ltd http://creativecommons.org/licenses/by/3.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed. |
| spellingShingle | Research Article Westbroek, Wendy Nguyen, Matthew Siebert, Marina Lindstrom, Taylor Burnett, Robert A. Aflaki, Elma Jung, Olive Tamargo, Rafael Rodriguez-Gil, Jorge L. Acosta, Walter Hendrix, An Behre, Bahafta Tayebi, Nahid Fujiwara, Hideji Sidhu, Rohini Renvoise, Benoit Ginns, Edward I. Dutra, Amalia Pak, Evgenia Cramer, Carole Ory, Daniel S. Pavan, William J. Sidransky, Ellen A new glucocerebrosidase-deficient neuronal cell model provides a tool to probe pathophysiology and therapeutics for Gaucher disease |
| title | A new glucocerebrosidase-deficient neuronal cell model provides a tool to probe pathophysiology and therapeutics for Gaucher disease |
| title_full | A new glucocerebrosidase-deficient neuronal cell model provides a tool to probe pathophysiology and therapeutics for Gaucher disease |
| title_fullStr | A new glucocerebrosidase-deficient neuronal cell model provides a tool to probe pathophysiology and therapeutics for Gaucher disease |
| title_full_unstemmed | A new glucocerebrosidase-deficient neuronal cell model provides a tool to probe pathophysiology and therapeutics for Gaucher disease |
| title_short | A new glucocerebrosidase-deficient neuronal cell model provides a tool to probe pathophysiology and therapeutics for Gaucher disease |
| title_sort | new glucocerebrosidase-deficient neuronal cell model provides a tool to probe pathophysiology and therapeutics for gaucher disease |
| topic | Research Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4958308/ https://www.ncbi.nlm.nih.gov/pubmed/27482815 http://dx.doi.org/10.1242/dmm.024588 |
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