The annotation of GBA1 has been concealed by its protein-coding pseudogene GBAP1

By Emil Gustavsson, PhD, Siddharthan Sethi, Yujing Gao, Jonathan Brenton, PhD, Sonia García-Ruiz, PhD, David Zhang, Raquel Garza, PhD, Regina Reynolds, James Evans, MSc, Zhongbo Chen, Melissa Grant-Peters, Hannah Macpherson, Kylie Montgomery, Rhys Dore, Anna Wernick, BSc, Charles Arber, Selina Wray, Sonia Gandhi, PhD, Julian Esselborn, Cornelis Blauwendraat, PhD, Christopher H Douse, Anita Adami, MSc, Diahann Atacho, PhD, Antonina Kouli, PhD, Annelies Quaegebeur, MD, PhD, Roger Barker, PhD, Elisabet Englund, Frances Platt, PhD, Johan Jakobsson, PhD, Nicholas Wood, PhD, Henry Houlden, Harpreet Saini, Carla F. Bento, John Hardy, PhD and Mina Ryten
Published June 26, 2024
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Output Details

Preprint May 23, 2023

Published June 26, 2024

Description
Mutations in GBA1 cause Gaucher disease and are the most important genetic risk factor for Parkinson’s disease. However, analysis of transcription at this locus is complicated by its highly homologous pseudogene, GBAP1. We show that >50% of short RNA-sequencing reads mapping to GBA1 also map to GBAP1. Thus, we used long-read RNA sequencing in the human brain, which allowed us to accurately quantify expression from both GBA1 and GBAP1. We discovered significant differences in expression compared to short-read data and identify currently unannotated transcripts of both GBA1 and GBAP1. These included protein-coding transcripts from both genes that were translated in human brain, but without the known lysosomal function—yet accounting for almost a third of transcription. Analyzing brain-specific cell types using long-read and single-nucleus RNA sequencing revealed region-specific variations in transcript expression. Overall, these findings suggest nonlysosomal roles for GBA1 and GBAP1 with implications for our understanding of the role of GBA1 in health and disease.
Identifier (DOI)
10.1126/sciadv.adk1296
Tags
  • Disease risks
  • GBA (Glucocerebrosidase)
  • GBA1
  • GBAP1
  • Long-read sequencing
  • Original Research
  • snRNA-seq (Single-nuclear RNA-seq)
Team
Team Hardy, Team Wood and Team Jakobsson
Program
Collaborative Research Network
Theme
Neuro-Immune Interactions PD Functional Genomics

Meet the Authors

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