Abstract

BackgroundProtein Disulfide Isomerases are thiol oxidoreductase chaperones from thioredoxin superfamily with crucial roles in endoplasmic reticulum proteostasis, implicated in many diseases. The family prototype PDIA1 is also involved in vascular redox cell signaling. PDIA1 is coded by the P4HB gene. While forced changes in P4HB gene expression promote physiological effects, little is known about endogenous P4HB gene regulation and, in particular, gene modulation by alternative splicing. This study addressed the P4HB splice variant landscape.ResultsTen protein coding sequences (Ensembl) of the P4HB gene originating from alternative splicing were characterized. Structural features suggest that except for P4HB-021, other splice variants are unlikely to exert thiol isomerase activity at the endoplasmic reticulum. Extensive analyses using FANTOM5, ENCODE Consortium and GTEx project databases as RNA-seq data sources were performed. These indicated widespread expression but significant variability in the degree of isoform expression among distinct tissues and even among distinct locations of the same cell, e.g., vascular smooth muscle cells from different origins. P4HB-02, P4HB-027 and P4HB-021 were relatively more expressed across each database, the latter particularly in vascular smooth muscle. Expression of such variants was validated by qRT-PCR in some cell types. The most consistently expressed splice variant was P4HB-021 in human mammary artery vascular smooth muscle which, together with canonical P4HB gene, had its expression enhanced by serum starvation.ConclusionsOur study details the splice variant landscape of the P4HB gene, indicating their potential role to diversify the functional reach of this crucial gene. P4HB-021 splice variant deserves further investigation in vascular smooth muscle cells.

Highlights

  • Protein Disulfide Isomerases are thiol oxidoreductase chaperones from thioredoxin superfamily with crucial roles in endoplasmic reticulum proteostasis, implicated in many diseases

  • P4HB02 and P4HB-021 are the only to display the intact Cterminus with the Lys-Asp-Glu-Leu ER retrieval motif (KDEL) motif, indicating that eventual protein products generated from other isoforms may not be retrievable to the endoplasmic reticulum

  • Expression profiling of P4HB splice variants in Functional Annotation of Mammalian Genomes 5 (FANTOM5) database We addressed an overview of P4HB gene and spliced variant expression profiling in different cell lines and tissues, using a number of distinct databases: FANTOM5, Encyclopedia of DNA Elements (ENCODE) and Genotype-Tissue Expression Project (GTEx)

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Summary

Introduction

Protein Disulfide Isomerases are thiol oxidoreductase chaperones from thioredoxin superfamily with crucial roles in endoplasmic reticulum proteostasis, implicated in many diseases. The family prototype PDIA1 is involved in vascular redox cell signaling. Protein disulfide isomerases (PDIs) are a family of thiol oxidoreductase chaperones belonging to the thioredoxin superfamily, which includes thioredoxins isoforms, glutaredoxins and peroxiredoxins [1, 2]. PDIA1 is coded by the P4HB gene, named after the well-known PDI role as the beta subunit heterodimer of prolyl-4-hydroxylase [12]. The human P4HB gene (Ensembl ID: ENSG00000185624) contains 11 exons (Fig. 1A and Table S1) and its genomic location is on chromosome 17 (17q25.3, reference GrCh37.p13 NC_000017.10)

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