Browsing by Author "Wang, Zhuang"

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    Deletion of microRNA-183-96-182 Cluster in Lymphocytes Suppresses Anti-DsDNA Autoantibody Production and IgG Deposition in the Kidneys in C57BL/6-Fas(lpr/lpr) Mice
    Wang, Zhuang; Heid, Bettina; Lu, Ran; Sachdeva, Mohit; Edwards, Michael R.; Ren, JingJing; Cecere, Thomas E.; Khan, Deena; Jeboda, Taschua; Kirsch, David G.; Reilly, Christopher M.; Dai, Rujuan; Ahmed, S. Ansar (Frontiers, 2022-07-07)
    Dysregulated miRNAs have been implicated in the pathogenesis of systemic lupus erythematosus (SLE). Our previous study reported a substantial increase in three miRNAs located at the miR-183-96-182 cluster (miR-183C) in several autoimmune lupus-prone mice, including MRL/lpr and C57BL/6-lpr (B6/lpr). This study reports that in vitro inhibition of miR-182 alone or miR-183C by specific antagomirs in activated splenocytes from autoimmune-prone MRL/lpr and control MRL mice significantly reduced lupus-related inflammatory cytokines, interferon-gamma (IFN gamma), and IL-6 production. To further characterize the role of miR-182 and miR-183C cluster in vivo in lupus-like disease and lymphocyte phenotypes, we used hCD2-iCre to generate B6/lpr mice with conditional deletion of miR-182 or miR-183C in CD2(+) lymphocytes (miR-182(-/-)B6/lpr and miR-183C(-/-)B6/lpr). The miR-182(-/-)B6/lpr and miR-183C(-/-)B6/lpr mice had significantly reduced deposition of IgG immunocomplexes in the kidney when compared to their respective littermate controls, although there appeared to be no remarkable changes in renal pathology. Importantly, we observed a significant reduction of serum anti-dsDNA autoantibodies in miR-183C(-/-)B6/lpr mice after reaching 24 weeks-of age compared to age-matched miR-183C(fl/fl)B6/lpr controls. In vitro activated splenocytes from miR-182(-/-)B6/lpr mice and miR-183C(-/-)B6/lpr mice showed reduced ability to produce lupus-associated IFN gamma. Forkhead box O1(Foxo1), a previously validated miR-183C miRNAs target, was increased in the splenic CD4(+) cells of miR-182(-/-)B6/lpr and miR-183C(-/-)B6/lpr mice. Furthermore, in vitro inhibition of Foxo1 with siRNA in splenocytes from miR-182(-/-)B6/lpr and miR-183C(-/-)B6/lpr mice significantly increased IFN gamma expression following anti-CD3/CD28 stimulation, suggesting that miR-182 and miR-183C miRNAs regulate the inflammatory IFN gamma in splenocytes via targeting Foxo1. The deletion of either miR-182 alone or the whole miR-183C cluster, however, had no marked effect on the composition of T and B cell subsets in the spleens of B6/lpr mice. There were similar percentages of CD4(+), CD8(+), CD19(+), as well as Tregs, follicular helper T (T-FH), germinal center B (GCB), and plasma cells in the miR-183C(-/-)B6/lpr and miR-182(-/-)B6/lpr mice and their respective littermate controls, miR-183C(fl/fl)B6/lpr and miR-182(fl/fl)B6/lpr mice. Together, our data demonstrate a role of miR-183C in the regulation of anti-dsDNA autoantibody production in vivo in B6/lpr mice and the induction of IFN gamma in in vitro activated splenocytes from B6/lpr mice.
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    EGR2 Deletion Suppresses Anti-DsDNA Autoantibody and IL-17 Production in Autoimmune-Prone B6/lpr Mice: A Differential Immune Regulatory Role of EGR2 in B6/lpr Versus Normal B6 Mice
    Dai, Rujuan; Wang, Zhuang; Heid, Bettina; Eden, Kristin; Reilly, Christopher M.; Ahmed, S. Ansar (Frontiers, 2022-06-15)
    Previous studies have reported that deletion of the transcription factor, early growth response protein 2 (EGR2), in normal C57BL/6 (B6) resulted in the development of lupus-like autoimmune disease. However, increased EGR2 expression has been noted in human and murine lupus, which challenges the notion of the autoimmune suppressive role of EGR2 in B6 mice. In this study, we derived both conditional EGR2-/-B6/lpr and EGR2-/-B6 mice to elucidate the immune and autoimmune regulatory roles of EGR2 in autoinflammation (B6/lpr) versus physiologically normal (B6) conditions. We found that conditional EGR2 deletion increased spleen weight, enhanced T cell activation and IFNγ production, and promoted germinal center B cells and LAG3+ regulatory T cells development in both B6/lpr and B6 mice. Nevertheless, EGR2 deletion also showed strikingly differential effects in these two strains on T lymphocyte subsets profile, Foxp3+ Tregs and plasma cell differentiation, anti-dsDNA autoantibodies and immunoglobulins production, and on the induction of IL-17 in in vitro activated splenocytes. Specifically, EGR2 deletion in B6/lpr mice significantly decreased serum levels of anti-dsDNA autoantibodies, total IgG, IgM, IgG1, and IgG2a with reduced plasma cells differentiation. Furthermore, EGR2 deletion in B6/lpr mice had no obvious effect on IgG immunocomplex deposition, medium caliber vessel, and glomeruli inflammation but increased complement C3 immunocomplex deposition and large caliber vessel inflammation in the kidneys. Importantly, we demonstrated that EGR2 deletion in B6/lpr mice significantly reduced pathogenic CD4-CD8-CD3+B220+ double negative T cells, which correlated with the reduced anti-dsDNA autoantibodies in serum and decreased IL-17 production in splenocytes of EGR2-/-B6/lpr mice. Together, our data strongly suggest that the role of EGR2 is complex. The immunoregulatory role of EGR2 varies at normal or autoinflammation conditions and should not be generalized in differential experimental settings.
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    Epigenetic Contribution and Genomic Imprinting Dlk1-Dio3 miRNAs in Systemic Lupus Erythematosus
    Dai, Rujuan; Wang, Zhuang; Ahmed, Sattar Ansar (MDPI, 2021-05-01)
    Systemic lupus erythematosus (SLE) is a multifactorial autoimmune disease that afflicts multiple organs, especially kidneys and joints. In addition to genetic predisposition, it is now evident that DNA methylation and microRNAs (miRNAs), the two major epigenetic modifications, are critically involved in the pathogenesis of SLE. DNA methylation regulates promoter accessibility and gene expression at the transcriptional level by adding a methyl group to 5′ cytosine within a CpG dinucleotide. Extensive evidence now supports the importance of DNA hypomethylation in SLE etiology. miRNAs are small, non-protein coding RNAs that play a critical role in the regulation of genome expression. Various studies have identified the signature lupus-related miRNAs and their functional contribution to lupus incidence and progression. In this review, the mutual interaction between DNA methylation and miRNAs regulation in SLE is discussed. Some lupus-associated miRNAs regulate DNA methylation status by targeting the DNA methylation enzymes or methylation pathway-related proteins. On the other hand, DNA hyper- and hypo-methylation are linked with dysregulated miRNAs expression in lupus. Further, we specifically discuss the genetic imprinting Dlk1-Dio3 miRNAs that are subjected to DNA methylation regulation and are dysregulated in several autoimmune diseases, including SLE.
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    Intrinsic Fabry-Perot Interferometric Fiber Sensor Based on Ultra-Short Bragg Gratings for Quasi-Distributed Strain and Temperature Measurements
    Wang, Zhuang (Virginia Tech, 2006-12-14)
    The health monitoring of smart structures in civil engineering is becoming more and more important as in-situ structural monitoring would greatly reduce structure life-cycle costs and improve reliability. The distributed strain and temperature sensing is highly desired in large structures where strain and temperature at over thousand points need to be measured simultaneously. It is difficult to carry out this task using conventional electrical strain sensors. Fiber optic sensors provide an excellent opportunity to fulfill this need due to their capability to multiplex many sensors along a single fiber cable. Numerous research studies have been conducted in past decades to increase the number of sensors to be multiplexed in a distributed sensor network. This dissertation presents detailed research work on the analysis, design, fabrication, testing, and evaluation of an intrinsic Fabry-Perot fiber optic sensor for quasi-distributed strain and temperature measurements. The sensor is based on two ultra-short and broadband reflection fiber Bragg gratings. One distinct feature of this sensor is its ultra low optical insertion loss, which allows a significant increase in the sensor multiplexing capability. Using a simple integrated sensor interrogation unit and an optical spectrum based signal processing algorithm, many sensors can be interrogated along a single optical fiber with high accuracy, high resolution and large dynamic range. Based on the experimental results and theoretical analysis, it is expected that more than 500 sensors can be multiplexed with little crosstalk using a frequency-division multiplexing technology. With this research, it is possible to build an easy fabrication, robust, high sensitivity and quasi-distributed fiber optic sensor network that can be operated reliably even in harsh environments or extended structures. This research was supported in part by U.S. National Science Foundation under grant CMS-0427951.
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    Investigation of MicroRNAs in Lupus-Prone Mice
    Wang, Zhuang (Virginia Tech, 2023-06-14)
    MicroRNAs (miRNAs) are small non-coding RNAs that post-transcriptionally regulate gene expression via inhibiting mRNA translation or degrading mRNA. Since the discovery of miRNAs, dysregulated miRNAs have been identified in human patients with various diseases. Moreover, the role of miRNAs in biological processes, including immune homeostasis and autoimmunity pathogenesis, has been widely investigated. Systemic lupus erythematosus (SLE) is a chronic inflammatory autoimmune disease that causes systemic damage to multiple organs and is characterized by the production of pathogenic autoimmune antibodies. In previous work in my lab, a set of commonly upregulated miRNAs in splenic lymphocytes of three lupus-prone mouse models was identified, including the miR-183-96-182 cluster (miR-183C) and miRNAs located at DLK1-DIO3 region. The work presented in this dissertation focuses on comparing the dysregulation pattern of miRNAs from different cell sources of lupus-prone mice and investigating the potential role of miR-183C in the pathogenesis of SLE and inflammation. The first goal was to test whether dysregulated miRNAs initially identified in the spleen of MRL/lpr mice, a standard model for SLE, is also reflected in the peripheral blood mononuclear cells (PBMCs) as PBMC is the primary source of lymphocytes in human patients. In MRL/lpr mice, we found that dysregulated miRNAs in PBMCs were overall comparable to those identified in the splenic lymphocytes. Further, comparing dysregulated miRNAs between mice and humans showed a similarity in the dysregulation of miRNAs in PBMCs of murine and human lupus. Among the upregulated miRNAs, the expression of three miRNAs of miR-183C was found to be commonly upregulated. To investigate the role of miR-183C, we developed miR-183C in CD2+ cells of C57BL/6 Faslpr/lpr (miR-183C-/-B6/lpr) mice. In miR-183C-/-B6/lpr mice, we observed a significantly reduced level of anti-dsDNA in the serum and IgG immunocomplex deposition in the kidney. Importantly, in vitro inhibition of miR-183C in activated splenic lymphocytes led to reduced production of the proinflammatory cytokine, IFN, and Foxo1, a transcription factor that is a target of miR-183C miRNAs. I also tested for miRNA changes in C57BL/6 Faslpr/lpr mice with conditional deletion of Early Growth Response-2 (EGR2) (Egr2-/- B6/lpr), another knockout mouse developed in our laboratory. Egr2 has recently been shown to regulate immunity and autoimmunity and play a role in lupus. An unexpected observation is that Egr2-/-B6/lpr mice had significantly reduced expression of a group of lupus-related miRNAs that are located at the genomic imprinted DLK1-DIO3 locus. Given that the upregulation of DLK1-DIO3 miRNAs in lupus is subjected to DNA methylation regulation and that the epigenetic regulatory role of EGR2 is emerging in recent studies, reduced representative bisulfite sequencing (RRBS) was performed to evaluate the methylation changes induced by Egr2 deletion. Global DNA hypomethylation and methylation changes at specific sites at DLK1-DIO3 region were noticed in CD4+ T cells of Egr2-/-B6/lpr mice. Overall, our research suggested a therapeutic effect of inhibiting the miR-183C expression on SLE. The interplay between epigenetic factors could help expand the possibility of controlling epigenetic regulators in autoimmune disease treatment.
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    Lactobacillus spp. act in synergy to attenuate splenomegaly and lymphadenopathy in lupus-prone MRL/lpr mice
    Cabana-Puig, Xavier; Mu, Qinghui; Lu, Ran; Swartwout, Brianna; Abdelhamid, Leila; Zhu, Jing; Prakash, Meeta; Cecere, Thomas E.; Wang, Zhuang; Callaway, Sabrina; Sun, Sha; Reilly, Christopher M.; Ahmed, S. Ansar; Luo, Xin M. (Frontiers, 2022-07-28)
    Commensal bacteria and the immune system have a close and strong relationship that maintains a balance to control inflammation. Alterations of the microbiota, known as dysbiosis, can direct reactivity to self-antigens not only in the intestinal mucosa but also at the systemic level. Our laboratory previously reported gut dysbiosis, particularly lower abundance of bacteria in the family Lactobacillaceae, in lupus-prone MRL/lpr mice, a model of systemic autoimmunity. Restoring the microbiota with a mix of 5 different Lactobacillus species (spp.), L. reuteri, L. oris, L. johnsonii, L. gasseri and L. rhamnosus, attenuated lupus-liked clinical signs, including splenomegaly and lymphadenopathy. However, our understanding of the mechanism was limited. In this study, we first investigated the effects of individual species. Surprisingly, none of the species individually recapitulated the benefits of the mix. Instead, Lactobacillus spp. acted synergistically to attenuate splenomegaly and renal lymphadenopathy through secreted factors and a CX3CR1-dependent mechanism. Interestingly, oral administration of MRS broth exerted the same benefits likely through increasing the relative abundance of endogenous Lactobacillus spp. Mechanistically, we found increased percentages of FOXP3-negative type 1 regulatory T cells with administration of the mix in both spleen and mesenteric lymph nodes. In addition, oral gavage of Lactobacillus spp. decreased the percentage of central memory T cells while increasing that of effector memory T cells in the lymphoid organs. Furthermore, a decreased percentage of double negative T cells was observed in the spleen with the mix. These results suggest that Lactobacillus spp. might act on T cells to attenuate splenomegaly and lymphadenopathy. Together, this study advances our understanding of how Lactobacillus spp. attenuate lupus in MRL/lpr mice. The synergistic action of these bacteria suggests that multiple probiotic bacteria in combination may dampen systemic autoimmunity and benefit lupus patients.
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    Phenotypic Drift in Lupus-Prone MRL/lpr Mice: Potential Roles of MicroRNAs and Gut Microbiota
    Cabana-Puig, Xavier; Bond, Jacob M.; Wang, Zhuang; Dai, Rujuan; Lu, Ran; Lin, Amy; Oakes, Vanessa; Rizzo, Amy; Swartout, Brianna; Abdelhamid, Leila; Mao, Jiangdi; Prakash, Meeta; Sangmeister, Constanza; Cheung, Nathaniel; Cowan, Catharine; Reilly, Christopher M.; Sun, Sha; Ahmed, S. Ansar; Luo, Xin M. (American Association of Immunologists, 2022)
    MRL/lpr mice have been extensively used as a murine model of lupus. Disease progression in MRL/lpr mice can differ among animal facilities, suggesting a role for environmental factors.We noted a phenotypic drift of our in-house colony, which was the progeny of mice obtained from The Jackson Laboratory (JAX; stocking number 000485), that involved attenuated glomerulonephritis, increased splenomegaly, and reduced lymphadenopathy. To validate our in-house mice as a model of lupus, we compared these mice with those newly obtained from JAX, which were confirmed to be genetically identical to our in-house mice. Surprisingly, the new JAX mice exhibited a similar phenotypic drift, most notably the attenuation of glomerulonephritis. Interestingly, our in-house colony differed from JAX mice in body weight and kidney size (both sexes), as well as in splenic size, germinal center formation, and level of anti-dsDNA auto-IgG in the circulation (male only). In addition, we noted differential expression of microRNA (miR)-21 and miR-183 that might explain the splenic differences in males. Furthermore, the composition of gut microbiota was different between in-house and new JAX mice at early time points, which might explain some of the renal differences (e.g., kidney size). However, we could not identify the reason for attenuated glomerulonephritis, a shared phenotypic drift between the two colonies. It is likely that this was due to certain changes of environmental factors present in both JAX and our facilities. Taken together, these results suggest a significant phenotypic drift in MRL/lpr mice in both colonies that may require strain recovery from cryopreservation.
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    Similar dysregulation of lupus-associated miRNAs in peripheral blood mononuclear cells and splenic lymphocytes in MRL/lpr mice
    Wang, Zhuang; Heid, Bettina; Dai, Rujuan; Ahmed, Sattar Ansar (BMJ, 2018)
    Objective MicroRNAs (miRNAs) play an important role in the pathogenesis of various autoimmune diseases including systemic lupus erythematosus (SLE; lupus). We have previously reported a common pattern of miRNA dysregulation in splenic lymphocytes from several mouse models of lupus. In this study, we investigated whether there is a similar miRNAs expression dysregulation in peripheral blood mononuclear cells (PBMCs) and splenocytes in a classical murine lupus model, MRL/lpr. Method PBMCs were isolated from blood samples of control MRL and lupus MRL/lpr mice aged 14—15 weeks by gradient centrifugation with Histopaque 1083 density media. miRNA TaqMan assays were performed to analyse the expression of 10 lupus-associated miRNAs including miR-182-96-183 cluster, miR-146a, miR-148a, miR-21, miR-31, miR-127, miR-155, and miR-411 in MRL and MRL/lpr PBMCs. Result In this study, we found that 8 out of 10 examined miRNAs (miR-21, miR-31, miR-127, miR-155, miR- 96, miR-182, miR-183 and miR-411) were similarly dysregulated in both PBMCs and splenocytes of MRL/ lpr mice when compared with MRL control mice. Only two miRNAs (miR-146a and miR-148a) showed different dysregulation pattern in the PBMCs and splenocytes of MRL/lpr mice. By comparing with the published miRNA data in human lupus, we demonstrated similarity in miRNA dysregulation in murine and human lupus PBMCs. Conclusion The findings in this study suggest that the miRNA changes observed in PBMCs largely reflect the miRNA dysregulation in cells from the lymphoid organ spleen. Analysis of miRNAs in PBMCs has an advantage over the splenocytes since it allows for monitoring the kinetics of lupus-associated miRNAs expression with peripheral blood cell samples during the development of the disease or after instituting treatment. The similar dysregulation of miRNAs in murine and human lupus PBMCs supports the importance and the feasibility of using murine lupus models to study the pathogenic and therapeutic function of miRNAs in human lupus.