The Apollo service is subject to high levels of traffic from bots which is resulting in periodic and unplanned loss of access to content. We are working to resolve performance issues caused by excessive crawling of the content of the repository by bots, and restore access as soon as possible. We apologise for any interruptions in access you may be experiencing.
Repository logo
 

African ancestry neurodegeneration risk variant disrupts an intronic branchpoint in GBA1.

Published version
Peer-reviewed

Repository DOI


Change log

Authors

Álvarez Jerez, Pilar  ORCID logo  https://orcid.org/0000-0002-5812-1898
Radefeldt, Mandy 

Abstract

Recently, an African ancestry-specific Parkinson disease (PD) risk signal was identified at the gene encoding glucocerebrosidase (GBA1). This variant ( rs3115534 -G) is carried by ~50% of West African PD cases and imparts a dose-dependent increase in risk for disease. The risk variant has varied frequencies across African ancestry groups but is almost absent in European and Asian ancestry populations. GBA1 is a gene of high clinical and therapeutic interest. Damaging biallelic protein-coding variants cause Gaucher disease and monoallelic variants confer risk for PD and dementia with Lewy bodies, likely by reducing the function of glucocerebrosidase. Interestingly, the African ancestry-specific GBA1 risk variant is a noncoding variant, suggesting a different mechanism of action. Using full-length RNA transcript sequencing, we identified partial intron 8 expression in risk variant carriers (G) but not in nonvariant carriers (T). Antibodies targeting the N terminus of glucocerebrosidase showed that this intron-retained isoform is likely not protein coding and subsequent proteomics did not identify a shorter protein isoform, suggesting that the disease mechanism is RNA based. Clustered regularly interspaced short palindromic repeats editing of the reported index variant ( rs3115534 ) revealed that this is the sequence alteration responsible for driving the production of these transcripts containing intron 8. Follow-up analysis of this variant showed that it is in a key intronic branchpoint sequence and, therefore, has important implications in splicing and disease. In addition, when measuring glucocerebrosidase activity, we identified a dose-dependent reduction in risk variant carriers. Overall, we report the functional effect of a GBA1 noncoding risk variant, which acts by interfering with the splicing of functional GBA1 transcripts, resulting in reduced protein levels and reduced glucocerebrosidase activity. This understanding reveals a potential therapeutic target in an underserved and underrepresented population.

Description

Keywords

Glucosylceramidase, Humans, Introns, Parkinson Disease, Genetic Predisposition to Disease, Black People, Polymorphism, Single Nucleotide, RNA Splicing

Is Part Of

Publisher

Springer Science and Business Media LLC