Molecular consequences of PQBP1 deficiency, involved in the X-linked Renpenning syndrome

Mutations in the PQBP1 gene (polyglutamine-binding protein 1) are responsible for a syndromic X-linked form of intellectual disability (XLID), the Renpenning syndrome. PQBP1 encodes a protein that plays a role in the regulation of gene expression, splicing and mRNA translation. To investigate the consequences of variants in PQBP1, we performed transcriptomic studies in 1) patient lymphoblastoid cell lines (LCL) carrying pathogenic variants in PQBP1 and 2) in human neural stem cells (hNSC) knocked-down (KD) for PQBP1. This led to the identification of a hundred dysregulated genes. In particular, we identified an increase in the expression of a non-canonical isoform of another XLID gene, UPF3B. UPF3B plays a crucial role during neurodevelopment by coding for an important actor of the nonsense mRNA mediated decay (NMD) system involved in regulation of protein translation, however, the exact function of the non-canonical isoform, UPF3B\_S, is currently unknown. In order to investigate the role of UPF3B\_S isoform, we compared the protein interactome of UPF3B\_S to the canonical isoform (UPF3B\_L). We confirmed that, on the contrary to UPF3B\_L, UPF3B\_S does not interact with the UPF2/UPF1 complex while it still interacts with exon junction complexes (EJC). However, no notable decrease of NMD pathways was observed in patient LCL or in hNSC KD for PQBP1. We identified several additional protein interactors specific to UPF3B\_S. Moreover, we used the increase of UPF3B\_S mRNA as a molecular marker to test the pathogenicity of variants of unknown clinical significance identified in individuals with ID in PQPB1. We analyzed patients LCL mRNA as well as blood mRNA samples and performed complementation studies in HeLa cells by overexpressing Wild-type and mutant PQBP1 cDNA. We showed that all these three approaches were efficient to test the effect of variants, at least for variants affecting the CTD domain of the protein. In conclusion, our study provides information on how PQBP1 deficiency may affect the expression of genes and isoforms, such as UPF3B. This informs about the pathological mechanisms involved in Renpenning syndrome but also allows to propose a functional test for variants of unknown significance identified in PQBP1. ### Competing Interest Statement The authors have declared no competing interest.