Your search keyword '"HSP40 Heat-Shock Proteins deficiency"' showing total 2 results

1. Deregulation of the Kallikrein Protease Family in the Salivary Glands of the Sjögren's Syndrome ERdj5 Knockout Mouse Model.

Author

Moustardas P, Yamada-Fowler N, Apostolou E, Tzioufas AG, Turkina MV, and Spyrou G

Subjects

Animals, Disease Models, Animal, Female, Gene Expression Regulation, Enzymologic, Gene Regulatory Networks, HSP40 Heat-Shock Proteins genetics, Kallikreins genetics, Male, Mice, 129 Strain, Mice, Knockout, Molecular Chaperones genetics, Protein Interaction Maps, Proteome, Sex Characteristics, Sex Factors, Signal Transduction, Sjogren's Syndrome genetics, Sjogren's Syndrome pathology, Submandibular Gland pathology, Transcriptome, Mice, HSP40 Heat-Shock Proteins deficiency, Kallikreins metabolism, Sjogren's Syndrome enzymology, Submandibular Gland enzymology

Abstract

Introduction: The purpose of this study was to identify differentially expressed proteins in salivary glands of the ERdj5 knockout mouse model for Sjögren's syndrome and to elucidate possible mechanisms for the morbid phenotype development. At the same time, we describe for the first time the sexual dimorphism of the murine submandibular salivary gland at the proteome level., Methods: We performed Liquid Chromatography/Mass Spectrometry in salivary gland tissues from both sexes of ERdj5 knockout and 129SV wildtype mice. The resulting list of proteins was evaluated with bioinformatic analysis and selected proteins were validated by western blot and immunohistochemistry and further analyzed at the transcription level by qRT-PCR., Results: We identified 88 deregulated proteins in females, and 55 in males in wildtype vs knockout comparisons. In both sexes, Kallikrein 1b22 was highly upregulated (fold change>25, ANOVA p<0.0001), while all other proteases of this family were either downregulated or not significantly affected by the genotype. Bioinformatic analysis revealed a possible connection with the downregulated NGF that was further validated by independent methods. Concurrently, we identified 416 proteins that were significantly different in the salivary gland proteome of wildtype female vs male mice and highlighted pathways that could be driving the strong female bias of the pathology., Conclusion: Our research provides a list of novel targets and supports the involvement of an NGF-mediating proteolytic deregulation pathway as a focus point towards the better understanding of the underlying mechanism of Sjögren's syndrome., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Moustardas, Yamada-Fowler, Apostolou, Tzioufas, Turkina and Spyrou.)

Published

2021

2. Ablation of the Chaperone Protein ERdj5 Results in a Sjögren's Syndrome-Like Phenotype in Mice, Consistent With an Upregulated Unfolded Protein Response in Human Patients.

Author

Apostolou E, Moustardas P, Iwawaki T, Tzioufas AG, and Spyrou G

Subjects

Adolescent, Adult, Aged, Animals, Disease Models, Animal, Female, HSP40 Heat-Shock Proteins deficiency, HSP40 Heat-Shock Proteins genetics, Humans, Mice, Mice, Knockout, Middle Aged, Molecular Chaperones genetics, Sjogren's Syndrome genetics, Sjogren's Syndrome pathology, HSP40 Heat-Shock Proteins biosynthesis, Molecular Chaperones biosynthesis, Sjogren's Syndrome metabolism, Unfolded Protein Response, Up-Regulation

Abstract

Objective: Sjögren's syndrome (SS) is a chronic autoimmune disorder that affects mainly the exocrine glands. Endoplasmic reticulum (ER) stress proteins have been suggested to participate in autoimmune and inflammatory responses, either acting as autoantigens, or by modulating factors of inflammation. The chaperone protein ERdj5 is an ER-resident disulfide reductase, required for the translocation of misfolded proteins during ER-associated protein degradation. In this study we investigated the role of ERdj5 in the salivary glands (SGs), in association with inflammation and autoimmunity. Methods: In situ expression of ERdj5 and XBP1 activation were studied immunohistochemically in minor SG tissues from primary SS patients and non-SS sicca-complaining controls. We used the mouse model of ERdj5 ablation and characterized its features: Histopathological, serological (antinuclear antibodies and cytokine levels), and functional (saliva flow rate). Results: ERdj5 was highly expressed in the minor SGs of SS patients, with stain intensity correlated to inflammatory lesion severity and anti-SSA/Ro positivity. Moreover, SS patients demonstrated higher XBP1 activation within the SGs. Remarkably, ablation of ERdj5 in mice conveyed many of the cardinal features of SS, like spontaneous inflammation in SGs with infiltrating T and B lymphocytes, distinct cytokine signature, excessive cell death, reduced saliva flow, and production of anti-SSA/Ro and anti-SSB/La autoantibodies. Notably, these features were more pronounced in female mice. Conclusions: Our findings suggest a critical connection between the function of the ER chaperone protein ERdj5 and autoimmune inflammatory responses in the SGs and provide evidence for a new, potent animal model of SS.

Published

2019