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Xrp1 genetically interacts with the ALS-associated FUS orthologue caz and mediates its toxicity.


ABSTRACT: Cabeza (caz) is the single Drosophila melanogaster orthologue of the human FET proteins FUS, TAF15, and EWSR1, which have been implicated in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia. In this study, we identified Xrp1, a nuclear chromatin-binding protein, as a key modifier of caz mutant phenotypes. Xrp1 expression was strongly up-regulated in caz mutants, and Xrp1 heterozygosity rescued their motor defects and life span. Interestingly, selective neuronal Xrp1 knockdown was sufficient to rescue, and neuronal Xrp1 overexpression phenocopied caz mutant phenotypes. The caz/Xrp1 genetic interaction depended on the functionality of the AT-hook DNA-binding domain in Xrp1, and the majority of Xrp1-interacting proteins are involved in gene expression regulation. Consistently, caz mutants displayed gene expression dysregulation, which was mitigated by Xrp1 heterozygosity. Finally, Xrp1 knockdown substantially rescued the motor deficits and life span of flies expressing ALS mutant FUS in motor neurons, implicating gene expression dysregulation in ALS-FUS pathogenesis.

SUBMITTER: Mallik M 

PROVIDER: S-EPMC6219715 | biostudies-literature | 2018 Nov

REPOSITORIES: biostudies-literature

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<i>Xrp1</i> genetically interacts with the ALS-associated <i>FUS</i> orthologue <i>caz</i> and mediates its toxicity.

Mallik Moushami M   Catinozzi Marica M   Hug Clemens B CB   Zhang Li L   Wagner Marina M   Bussmann Julia J   Bittern Jonas J   Mersmann Sina S   Klämbt Christian C   Drexler Hannes C A HCA   Huynen Martijn A MA   Vaquerizas Juan M JM   Storkebaum Erik E  

The Journal of cell biology 20180912 11


<i>Cabeza</i> (<i>caz</i>) is the single <i>Drosophila melanogaster</i> orthologue of the human FET proteins FUS, TAF15, and EWSR1, which have been implicated in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia. In this study, we identified <i>Xrp1</i>, a nuclear chromatin-binding protein, as a key modifier of <i>caz</i> mutant phenotypes. Xrp1 expression was strongly up-regulated in <i>caz</i> mutants, and <i>Xrp1</i> heterozygosity rescued their motor defects and life span. Inte  ...[more]

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