Project description:Sjogren’s Disease (SjD) is an autoimmune disorder characterized by progressive salivary and lacrimal gland dysfunction, inflammation, and destruction, and extra glandular manifestations. The etiology and pathophysiology of SjD are incompletely understood. Regulatory T (Treg) cells are critical for immunological tolerance and although Treg abnormalities have been implicated in the pathogenesis of several autoimmune diseases, their role in SjD remains ambiguous. We here show that Stim1fl/flStim2fl/flFoxp3-Cre (Stim1/Stim2 Foxp3cre) mice develop a SjD-like phenotype, including severe sialadenitis with hyposalivation, lacrimal gland (LG) inflammation with dry eye and corneal damage, increased anti-Ro and anti-La autoantibody levels and interstitial lung disease. At the cellular level, salivary gland inflammation in Stim1/2Foxp3 mice is characterized by infiltration with CD4+ and CD8+ T cells, which is dominated by a T helper (Th) 1 and Th2 immune response. The changes in gene expression in SGs of mice correlate strongly with transcriptional and epigenetic dysregulation found in SjD patients. Our findings in Stim1/Stim2 Foxp3cre mice provide new evidence for a critical role of Treg cells and IFNγ producing Th1 cells in mediating SjD progression.

Project description:Sjögren’s disease (SjD) is a systemic autoimmune disorder primarily affecting the exocrine glands and characterized by dry mouth and dry eye, the presence of anti-SSA and/or anti-SSB autoantibodies in blood serum, and chronic lymphocytic infiltration of salivary and lacrimal glands (i.e., sialadenitis and dacryoadenitis, respectively). The interleukin-14α transgenic (IL-14αTG) mouse model of SjD recapitulates many aspects of human SjD, including progressive sialadenitis, loss of salivary gland function, and development of B cell lymphoma. We performed Visium V1 3' spatial transcriptomic analysis of fresh frozen submandibular and sublingual glands from a 12-month-old IL-14αTG Sjögren’s-like mouse and age-matched C57BL/6 control mouse.

Project description:Stress granules (SGs) are stress induced RNA-protein assemblies formed from untranslating mRNPs. Mammalian SGs are non-uniform and contain “cores”, which are stable in lysates and heterogenous in protein composition. The interactions defining RNA recruitment into SGs, and whether the RNA composition varies between different cores remains unclear. Herein, we determine the SG transcriptome through purification of both PABPC1 and G3BP SG cores during both arsenite and sorbitol stress. We observe that similar RNAs are recruited to SGs independent of the protein used for core purification, suggesting individual RNA-binding proteins (RBPs) may play a limited role in defining the SG transcriptome. Analysis of the sorbitol-induced SG transcriptome reveals G3BP1/2 has little effect on RNAs recruited to SGs suggesting RNAs localize to SGs independent of individual RBPs. Taken together, we suggest that partitioning of RNAs to SGs is independent of at least some proteins, consistent with SGs forming through intermolecular RNA-RNA interactions.

Project description:Sjögren's disease (SjD) is an autoimmune disease marked by lymphocytic infiltration of salivary and lacrimal glands, leading to glandular dysfunction, where CD4-positive helper T (Th) cells and their cytokines are crucial in the pathogenesis. Recent studies have demonstrated that Toll-like receptors (TLRs), particularly those recognizing immune complexes containing DNA and RNA, contribute to Th cell activation in various autoimmune diseases. This study explores the expression and function of these TLRs in SjD. In scRNA-seq analysis, the TLR8-expressing cluster comprised macrophages and monocytes, which also produced T cell activation genes like CD86, suggesting that infiltrating monocytes and macrophages may produce cytokines and chemokines through TLR8 stimulation, potentially enhancing B7 molecule expression, promoting the adaptive immune response, and contributing to SjD pathogenesis.

Project description:Human salispheres, a culture of stem/progenitor cells, represent a potential therapy for radiation induced hyposalivation. Radiation-induced hyposalivation dramatically reduces quality of life of patients. We have demonstrated the potential of human salispheres to engraft and differentiate when transplanted into a mouse model of hyposalivation, in the manuscript associated with these data. We also demonstrate the functional recovery of irradiated salivary glands (SGs) following human salisphere transplantation, by the measurement of saliva production. When analyzing human salisphere- transplanted SGs for the presence of human cells, we noted that the highest proportion of human cells were present 1 week after transplantation. This microarray study was designed to determine if paracrine signaling from transplanted human salisphere cells to recipient mouse SGs accounts for a part of the functional recovery of the recipient SG we observe. We compare the transcriptome from irradiated control SG of immunecompromised NOD.Cg-Prkdcscid Il2rgtm1Wjl/SzJ (NSG) mice with that of NSG SGs transplanted with 100,000 human salisphere cells. All mice were sacrificed 1 week following transplantation (or non-transplantation in case of controls) and Illumina array chips used to detect differences in gene expression. 6 samples were analysed in total. Total RNA from 3 irradiated control SGs (5Gy irradiation) and 3 salivary glands transplanted with 100,000 human salispheres.

Project description:Sjögren’s disease (SjD) is a chronic autoimmune disorder predominantly affecting females, characterized by exocrine gland dysfunction. This study investigates the therapeutic potential of 2-chloro-1-(4-hydroxy-phenyl)-ethanone (CHPE) and metformin in the C57BL/6.NOD-Aec1Aec2 mouse model, which closely mirrors human SjD. Molecular docking identified CHPE and metformin as high-affinity binders to the MHC class II I-Ab antigen-binding groove, suggesting their ability to inhibit antigen presentation and modulate immune responses. In-vitro assays confirmed their effectiveness in reducing T cell activation. In-vivo studies demonstrated that both preventative and therapeutic regimens of CHPE and metformin significantly reduced lymphocytic infiltration in the lacrimal glands, with metformin showing a more pronounced effect in females. Salivary gland infiltration was less responsive, though some reduction in focal scores was observed in male mice treated preventatively with CHPE. Both drugs altered the composition of lymphocytic infiltrates, particularly by reducing B cell populations, with notable sex-specific differences in response to treatment. CHPE and metformin also reduced anti-nuclear antibody levels, with CHPE showing stronger effects in females. Additionally, both drugs improved saliva and tear secretion, with metformin being more effective in the preventative regimen, especially in females. T cell receptor transductant assays revealed that CHPE and metformin exert their therapeutic effects through antigen-specific pathways, inhibiting T cell responses to SjD-associated autoantigens. Overall, this study provides compelling evidence that CHPE and metformin can modulate immune responses and improve gland function, with effectiveness varying by sex and age. These findings support the potential of these compounds as personalized treatments for SjD tailored to individual patient characteristics.

Project description:Sjögren's Disease (SjD) is an autoimmune disease characterized by lymphocytic infiltration of salivary and lacrimal glands (LG). The LG produces the protein-rich aqueous component of tears, and SjD-associated autoimmune dacryoadenitis (AD) may thus alter tear autoantibody composition. The presence of tertiary lymphoid structures (TLS) in LG from two murine models of SjD-associated AD, male non-obese diabetic (NOD) and male non-obese insulitis resistant (NOR) mice, were evaluated using immunofluorescence. IgG and IgA reactivity in serum and tears from these models were probed in three studies against a panel of 80-120 autoantigens using autoantibody microarrays relative to serum and tears from healthy male BALB/c mice. Sources of Ig in tears were investigated using scRNA-Seq of the LG (GSE132420). Data were analyzed by R package Limma and Seurat. Analysis of immunofluorescence in LG sections from both SjD models showed TLS. Only one autoantibody was significantly elevated in tears and serum in both SjD models across all studies. Three autoantibodies were significantly elevated in serum but not in tears in both SjD models across all studies. Conversely, six IgG and thirteen IgA autoantibodies (6 sharing the same autoantigen) were significantly elevated in tears but not serum in both SjD models. Igha and Ighg2b expressing cells were identified in the plasma cell cluster of NOD.H2b LG. NOD and NOR mice with SjD-associated AD have distinct autoantibody profiles in tears and serum. Tear IgA isotype autoantibodies showed a greater diversity than tear IgG autoantibodies. TLS observed in LG are a likely source of the tear autoantibodies.

Project description:<p>The role of sebaceous glands (SGs) in the early pathogenesis of hidradenitis suppurativa (HS) is undefined, with unclear causal relationship to inflammatory sequelae. The aim of this study was to determine whether SG aberrations constitute a primary pathogenic driver in early HS and elucidate the underlying mechanism. Histological study, single-cell RNA sequencing (scRNA-seq), and in vitro functional assays were employed. Clinical specimens included non-lesional skin, early lesional skin from patients diagnosed with Hurley I HS, and healthy controls. Human SZ95 sebocytes were used for mechanistic studies, including gene knockdown with lentivirus, bulk RNA sequencing, and liquid chromatography-tandem mass spectrometry based lipidomic analysis.&nbsp;</p><p>The size of SG was significantly reduced in HS patients. Development aberration and significant downregulation of tight junction signaling (e.g., TJP1, OCLN, CLDN1) in HS SGs were revealed by scRNA-seq, associated with compromised barrier integrity and early CD45+ immune cell infiltration. Knockdown of CLDN1 in human SZ95 sebocytes recapitulated these findings, inducing a robust pro-inflammatory response and a shift toward keratinocyte-like lineage accompanied by metabolic reprogramming, specifically overproduction of lysophosphatidylcholine (LPC). Exogenous LPC directly promoted proliferation and inflammatory cytokine secretion in HaCaT keratinocytes. Collectively, these findings reposition SGs as instigators in the early pathogenesis of HS.</p>

Project description:Stress granules (SGs) are dynamic, membrane-less organelles containing complex RNA-protein networks. The RNA components of SGs have been profiled through various approaches, characterized as long, translation-repressed, and highly epigenetically modified. However, it remains unclear whether these RNAs are uniformly distributed within SGs. In this study, we used multiple SG core proteins to genetically target the photocatalyst protein miniSOG, which allows for comprehensive CAP-seq profiling of RNA components within SGs. We discovered that RNAs associated with different SG core proteins exhibit heterogeneous distribution and distinct intrinsic features. Furthermore, we applied CAP-seq to map the RNA components in processing bodies (PBs) under both unstressed conditions and arsenite stimulation. By comparing the SG and PB transcriptomes, our data revealed that m6A modification may promote the localization of RNAs to SGs, while higher AU content may facilitate the targeting of mRNAs to PBs. This suggests potential regulatory roles in determining the subcellular localization of mRNAs within membrane-less organelles.

Project description:Stress granules (SGs) are stress-induced membraneless organelles whose dynamics are tightly regulated by protein interactions and modifications. However, whether SUMOylation directly targets SG core proteins G3BP1/2 and which ligase is involved remains unclear. Capturing these key events while preserving SG integrity is challenging due to their transient and membraneless nature. To address this, we introduce a low-concentration formaldehyde crosslinking (lcFAX) method that stabilizes membraneless organelles, including G3BP1 SGs and TDP-43 nuclear bodies, enabling enhanced proteome identification. Importantly, we identify TRIM28 as a previously undefined SG-associated protein and reveal that TRIM28 SUMOylates G3BP1 at K287 and G3BP2 at K281, establishing a critical mechanism regulating SG dynamics that ultimately impacts cellular ROS and apoptosis. lcFAX-Seq also provides insights into the RNA composition of SGs. Altogether, lcFAX-MS uncovers the critical role of TRIM28-mediated SUMOylation in modulating SG dynamics, establishing lcFAX as a powerful tool for analyzing membraneless organelles and the underlying regulatory mechanisms.