Structural modelling of the equine protein disulphide isomerase A1 and its quantification in the epididymis and seminal plasma

Linden, Liana de Salles van der; Bustamante‐Filho, Ivan Cunha; Souza, Ana Paula Binato de; Lopes, Tayná N.; Silva, Anna Flávia Tischer da; Tomé, Luise Marcon; Timmers, Luis Fernando Macedo Saraiva; Santos, Saray Giovana dos; Neves, Adriana Pires

doi:10.1111/and.13530

Cited by 2 publications

(1 citation statement)

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“…Right-Detailed view of the OPN (cyan) interaction with CD44 (green); and the alpha (green) and beta (yellow) subunits of α5β1 and αVβ3 Current in silico approaches for the study of protein-protein interaction were used to improve our understanding on how OPN interacts with membrane proteins. Together with structural modelling, these tools have been successfully used to better understand the function seminal plasma proteins such β-defensins (Weber et al, 2018), protein disulphide isomerase (van der Linden et al, 2020) and cathepsin B (Menezes et al, 2020). The first step was to generate a reliable tertiary structure for OPN using different protein modelling servers.…”

Section: F I G U R Ementioning

confidence: 99%

Bovine seminal plasma osteopontin: Structural modelling, recombinant expression and its relationship with semen quality

et al. 2020

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Section: F I G U R Ementioning

confidence: 99%

Bovine seminal plasma osteopontin: Structural modelling, recombinant expression and its relationship with semen quality

et al. 2020

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Epididymal mRNA expression profiles for the protein disulfide isomerase gene family: Modulation by development and androgens

Fernandes,

Ferreira,

Benham

et al. 2024

Andrology

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BackgroundThe endoplasmic reticulum (ER) is the central hub for protein quality control, where the protein disulfide isomerases (PDIs), encoded by at least 21 genes, play a pivotal role. These multifunctional proteins contribute to disulfide bond formation, proper folding, and protein modifications, and may act as hormone‐binding proteins (e.g., steroids), influencing hormone biology. The interplay between ER proteostasis, PDIs, and epididymis—a crucial site for sperm maturation—remains largely understudied.ObjectivesThis study characterizes transcriptional signatures of Pdi genes in the epididymis.Material and methodsTranscriptional profiles of selected Pdi genes were assessed in adult Wistar rat tissues, and epididymis under different experimental conditions (developmental stages, surgical castration, and efferent ductules ligation [EDL]). In silico bioinformatic analyses identified expression trends of this gene family in human epididymal segments.ResultsP4hb, Pdia3, Pdia5, Pdia6, Erp44, Erp29, and Casq1 transcripts were detected in both reproductive and non‐reproductive tissues, while Casq2 exhibited higher abundance in vas deferens, prostate, and heart. Pdilt, highly expressed in testis, and Pdia2, highly expressed in heart, showed minimal mRNA levels in the epididymis. In the mesonephric duct, epididymal embryonic precursor, P4hb, Pdia3, Pdia5, Pdia6, and Erp29 mRNAs were found at gestational day (GD) 17.5. Except for Erp29, which remained stable, these Pdi transcript levels increased from GD17.5 to GD20.5, when epididymal morphogenesis occurs, and were maintained to varying degrees in the epididymis during postnatal development. Surgical castration downregulated P4hb, Pdia3, Pdia5, Pdia6, Pdilt and Erp29 transcripts, an effect reversed by testosterone replacement. Conversely, transcript levels remained unaffected by EDL, except P4hb, which was reduced in caput epididymis. All 21 PDI genes exhibited diverse transcriptional profiles across the human epididymis.Discussion and conclusionThe findings lay the foundations to explore Pdi genes in epididymal biology. As a considerable proportion of male infertility cases are idiopathic, targeting hormonal regulation of protein quality control in epididymis represents a route to address male infertility and advance therapeutic interventions in this domain.

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Structural modelling of the equine protein disulphide isomerase A1 and its quantification in the epididymis and seminal plasma

Cited by 2 publications

References 50 publications

Bovine seminal plasma osteopontin: Structural modelling, recombinant expression and its relationship with semen quality

Bovine seminal plasma osteopontin: Structural modelling, recombinant expression and its relationship with semen quality

Epididymal mRNA expression profiles for the protein disulfide isomerase gene family: Modulation by development and androgens

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