Browsing by Author "Yuan, Xue"
Now showing 1 - 10 of 10
Results Per Page
Sort Options
Item A TLR7-nanoparticle adjuvant promotes a broad immune response against heterologous strains of influenza and SARS-CoV-2(Springer Nature, 2023) Yin, Qian; Luo, Wei; Mallajosyula, Vamsee; Bo, Yang; Guo, Jing; Xie, Jinghang; Sun, Meng; Verma, Rohit; Li, Chunfeng; Constantz, Christian M.; Wagar, Lisa E.; Li, Jing; Sola, Elsa; Gupta, Neha; Wang, Chunlin; Kask, Oliver; Chen, Xin; Yuan, Xue; Wu, Nicholas C.; Rao, Jianghong; Chien, Yueh-hsiu; Cheng, Jianjun; Pulendran, Bali; Davis, Mark M.; Microbiology and Immunology, School of MedicineThe ideal vaccine against viruses such as influenza and SARS-CoV-2 must provide a robust, durable and broad immune protection against multiple viral variants. However, antibody responses to current vaccines often lack robust cross-reactivity. Here we describe a polymeric Toll-like receptor 7 agonist nanoparticle (TLR7-NP) adjuvant, which enhances lymph node targeting, and leads to persistent activation of immune cells and broad immune responses. When mixed with alum-adsorbed antigens, this TLR7-NP adjuvant elicits cross-reactive antibodies for both dominant and subdominant epitopes and antigen-specific CD8+ T-cell responses in mice. This TLR7-NP-adjuvanted influenza subunit vaccine successfully protects mice against viral challenge of a different strain. This strategy also enhances the antibody response to a SARS-CoV-2 subunit vaccine against multiple viral variants that have emerged. Moreover, this TLR7-NP augments antigen-specific responses in human tonsil organoids. Overall, we describe a nanoparticle adjuvant to improve immune responses to viral antigens, with promising implications for developing broadly protective vaccines.Item Aberrantly elevated Wnt signaling is responsible for cementum overgrowth and dental ankylosis(Elsevier, 2018) Wu, Yan; Yuan, Xue; Perez, Kristy C.; Hyman, Sydnee; Wang, Liao; Pellegrini, Gretel; Salmon, Benjamin; Bellido, Teresita; Helms, Jill A.; Anatomy and Cell Biology, School of MedicineVertebrate teeth are attached to the jawbones using a variety of methods but in mammals, a fibrous connection is the norm. This fibrous periodontal ligament (PDL) allows teeth to move in the jawbones in response to natural eruptive forces, mastication, and orthodontic tooth movement. In some disease states the PDL either calcifies or is replaced by a mineralized tissue and the result is ankylosis, where the tooth is fused to the alveolar bone. To understand how the PDL maintains this fibrous state we examined a strain of mice in which tooth movement is arrested. DaβcatOt mice express a stabilized form of β-catenin in DMP1-positive alveolar bone osteocytes and cementocytes, which results in elevated Wnt signaling throughout the periodontium. As a consequence, there is an accrual of massive amounts of cellular cementum and alveolar bone, the PDL itself calcifies and teeth become ankylosed. These data suggest that to maintain its fibrous nature, Wnt signaling must normally be repressed in the PDL space.Item Combined Inhibition of SREBP and m-TORC1 Signaling Synergistically Inhibits the Proliferation of B Cell Lymphoma(2024-06) Zhu, Zhenhan; Luo, Wei; Capitano, Meagan L; Yuan, XueSterol regulatory element-binding protein (SREBP) signaling plays a crucial role in maintaining sterol homeostasis during B cell activation and the proliferation of germinal center B cells. It is unclear whether this pathway can be targeted to effectively treat B cell lymphoma. We discovered that inhibiting SREBP signaling or its downstream target HMG-CoA reductase (HMGCR) using Fatostatin or Simvastatin effectively restrains the proliferation of B cell lymphoma cells. However, B cell lymphoma cells activate the mTORC1-pS6 pathway in response to statin treatment, suggesting a possible mechanism to counteract statin-induced cell cycle arrest. Combining low dose statin treatment with the mTORC1 inhibitor rapamycin demonstrates a synergistic effect in inhibiting B cell lymphoma proliferation, cell cycle progression and lipid raft generation. These findings emphasize the potential of a combined therapy approach targeting both SREBP and mTORC1 as a novel treatment strategy for B cell lymphoma.Item Comparative analyses of the soft tissue interfaces around teeth and implants: insights from a preclinical implant model(Wiley, 2021) Yuan, Xue; Pei, Xibo; Chen, Jinlong; Zhao, Yuan; Brunski, John B.; Helms, Jill A.; Otolaryngology -- Head and Neck Surgery, School of MedicineAim: To evaluate the similarities and differences in barrier function of a peri-implant epithelium (PIE) versus a native junctional epithelium (JE). Materials and methods: A mouse model was used wherein titanium implants were placed sub-occlusally in healed extraction sites. The PIE was examined at multiple timepoints after implant placement, to capture and understand the temporal nature of its assembly and homeostatic status. Mitotic activity, hemidesmosomal attachment apparatus, and inflammatory responses in the PIE were compared against a JE. Additionally, we evaluated whether the PIE developed a Wnt-responsive stem cell niche like a JE. Results: The PIE developed from oral epithelium (OE) that had, by the time of implant placement, lost all characteristics of a JE. Compared with a JE, an established PIE had more proliferating cells, exhibited lower expression of attachment proteins, and had significantly more inflammatory cells in the underlying connective tissue. Wnt-responsive cells in the OE contributed to an initial PIE, but Wnt-responsive cells and their descendants were lost as the PIE matured. Conclusions: Although histologically similar, the PIE lacked a Wnt-responsive stem cell niche and exhibited characteristics of a chronically inflamed tissue. Both features contributed to suboptimal barrier functions of the PIE compared with a native JE.Item A Correlation between Wnt/Beta-catenin Signaling and the Rate of Dentin Secretion(Elsevier, 2019-11) Zhao, Yuan; Yuan, Xue; Bellido, Teresita; Helms, Jill A.; Anatomy and Cell Biology, School of MedicineIntroduction Odontoblasts produce dentin throughout life and in response to trauma. The purpose of this study was to identify the roles of endogenous Wnt signaling in regulating the rate of dentin accumulation. Methods Histology, immunohistochemistry, vital dye labeling, and histomorphometric assays were used to quantify the rate of dentin accumulation as a function of age. Two strains of Wnt reporter mice were used to identify and follow the distribution and number of Wnt-responsive odontoblasts as a function of age. To show a causal relationship between dentin secretion and Wnt signaling, dentin accumulation was monitored in a strain of mice in which Wnt signaling was aberrantly elevated. Results Dentin deposition occurs throughout life, but the rate of accumulation slows with age. This decline in dentin secretion correlates with a decrease in endogenous Wnt signaling. In a genetically modified strain of mice, instead of tubular dentin, aberrantly elevated Wnt signaling resulted in accumulation of reparative dentin or osteodentin secreted from predontoblasts. Conclusions Wnt signaling regulates dentin secretion by odontoblasts, and the formation of reparative or osteodentin is the direct consequence of elevated Wnt signaling. These preclinical data have therapeutic implications for the development of a biologically based pulp capping medicant.Item Ipsilateral immunization after a prior SARS-CoV-2 mRNA vaccination elicits superior B cell responses compared to contralateral immunization(Elsevier, 2024) Jiang, Wenxia; Maldeney, Alexander R.; Yuan, Xue; Richer, Martin J.; Renshaw, Scott E.; Luo, Wei; Microbiology and Immunology, School of MedicinemRNA vaccines have proven to be pivotal in the fight against COVID-19. A recommended booster, given 3 to 4 weeks post the initial vaccination, can substantially amplify protective antibody levels. Here, we show that, compared to contralateral boost, ipsilateral boost of the SARS-CoV-2 mRNA vaccine induces more germinal center B cells (GCBCs) specific to the receptor binding domain (RBD) and generates more bone marrow plasma cells. Ipsilateral boost can more rapidly generate high-affinity RBD-specific antibodies with improved cross-reactivity to the Omicron variant. Mechanistically, the ipsilateral boost promotes the positive selection and plasma cell differentiation of pre-existing GCBCs from the prior vaccination, associated with the expansion of T follicular helper cells. Furthermore, we show that ipsilateral immunization with an unrelated antigen after a prior mRNA vaccination enhances the germinal center and antibody responses to the new antigen compared to contralateral immunization. These findings propose feasible approaches to optimize vaccine effectiveness.Item Sclerostin antibody corrects periodontal disease in type 2 diabetic mice(American Society for Clinical Investigation, 2024-07-18) Turkkahraman, Hakan; Flanagan, Shannan; Zhu, Tianli; Akel, Nisreen; Marino, Silvia; Ortega-Gonzalez, Dayane; Yuan, Xue; Bellido, Teresita; Orthodontics and Oral Facial Genetics, School of DentistryType 2 diabetes (T2D) is on the rise worldwide and is associated with various complications in the oral cavity. Using an adult-onset diabetes preclinical model, we demonstrated profound periodontal alterations in T2D mice, including inflamed gingiva, disintegrated periodontal ligaments (PDLs), marked alveolar bone loss, and unbalanced bone remodeling due to decreased formation and increased resorption. Notably, we observed elevated levels of the Wnt signaling inhibitor sclerostin in the alveolar bone of T2D mice. Motivated by these findings, we investigated whether a sclerostin-neutralizing antibody (Scl-Ab) could rescue the compromised periodontium in T2D mice. Administering Scl-Ab subcutaneously once a week for 4 weeks, starting 4 weeks after T2D induction, led to substantial increases in bone mass. This effect was attributed to the inhibition of osteoclasts and promotion of osteoblasts in both control and T2D mice, effectively reversing the bone loss caused by T2D. Furthermore, Scl-Ab stimulated PDL cell proliferation, partially restored the PDL fibers, and mitigated inflammation in the periodontium. Our study thus established a T2D-induced periodontitis mouse model characterized by inflammation and tissue degeneration. Scl-Ab emerged as a promising intervention to counteract the detrimental effects of T2D on the periodontium, exhibiting limited side effects on other craniofacial hard tissues.Item T follicular regulatory cells in food allergy promote IgE via IL-4(American Society for Clinical Investigation, 2024-10-08) Chen, Qiang; Abdi, Abdullahi M.; Luo, Wei; Yuan, Xue; Dent, Alexander L.; Microbiology and Immunology, School of MedicineT follicular regulatory (TFR) cells are found in the germinal center (GC) response and, along with T follicular helper (TFH) cells, help to control the development of high-affinity antibodies (Ab). Although TFR cells are generally thought to repress GC B cells and the Ab response, we have previously shown that in a mouse food allergy model, TFR cells produce IL-10 and play an essential helper role such that in the absence of TFR cells, IgE responses are diminished. Here we show that in this food allergy response, TFR cells produced IL-4 that promotes the generation of antigen-specific IgE. We show that food allergy-primed TFR cells specifically upregulate IL-4 gene transcription and produce functional IL-4 that promoted IgE responses both in vitro and in vivo. We determined that IgE responses are dependent on a high level of IL-4 produced by follicular T cells in the GC, explaining the need for IL-4 produced by TFR cells in the food allergy response. Overall, our findings have demonstrated that in food allergy, TFR cells can produce IL-4 and regulate IgE in a manner that augments the role of TFH cells in IgE responses.Item The LRP5 high-bone-mass mutation causes alveolar bone accrual with minor craniofacial alteration(Wiley, 2023) Turkkahrama, Hakan; Flanagan, Shannan; Zhu, Tianli; Bellido, Teresita M.; Yuan, Xue; Orthodontics and Oral Facial Genetics, School of DentistryBackground and Objective Mutations in low-density lipoprotein receptor-related protein 5 (LRP5) cause various bone diseases. Several mouse models were generated to study the role of LRP5 in bone development. But most of the studies were confined to the appendicular skeleton. The role of LRP5 in the axial skeleton, especially in the craniofacial skeleton, is largely unknown. The aim of this study was to investigate the craniofacial phenotype with the LRP5G171V mutation. Methods To understand how LRP5 affects craniofacial bone properties, we analyzed LRP5 high-bone-mass mutant mice carrying the G171V missense mutation (LRP5HBM). Quantitative microcomputed tomographic imaging and histomorphometric analyses were used to study craniofacial phenotypes and bone density. Histology, immunohistochemistry, and in vivo fluorochrome labeling were used to study molecular mechanisms. Results LRP5HBM mice showed overall minor changes in the craniofacial bone development but with increased bone mass in the interradicular alveolar bone, edentulous ridge, palatine bone, and premaxillary suture. Elevated osteocyte density was observed in LRP5HBM mice, along with increased Runx2 expression and unmineralized bone surrounding osteocytes. Meanwhile, LRP5HBM mice exhibited increased osteoprogenitors, but no significant changes were observed in osteoclasts. This led to a high-bone-mass phenotype, and an increased osteocyte density in the alveolar bone and edentulous ridge. Conclusion LRP5HBM mice display increased bone mass in the alveolar bone with minor changes in the craniofacial morphology. Collectively, these data elucidated the important role of LRP5 in axial bone development and homeostasis and provided clues into the therapeutical potential of LRP5 signaling in treating alveolar bone loss.Item Type 1 diabetes mellitus leads to gingivitis and an early compensatory increase in bone remodeling(Wiley, 2023-02) Yuan, Xue; Amin, Vedanshi; Zhu, Tianli; Kittaka, Mizuho; Ueki, Yasuyoshi; Bellido, Teresita M.; Turkkahraman, Hakan; Orthodontics and Oral Facial Genetics, School of DentistryBackground Type 1 diabetes mellitus (T1DM) and periodontitis have long been thought to be biologically connected. Indeed, T1DM is a risk factor for periodontal disease. With the population of diabetic individuals growing, it is more important than ever to understand the negative consequences of diabetes on the periodontium and the mechanisms. The aim of this study was to find out the early effects of T1DM on the periodontium without any experimentally induced periodontitis. Methods We established the streptozotocin (STZ)-induced diabetic mouse model and examined the periodontium 8 weeks later by histology, molecular and cellular assays. Microcomputed tomographic (𝜇CT) imaging and in vivo fluorochrome labeling were also used to quantify bone volume and mineral apposition rates (MAR). Results The histologic appearance of epithelium tissue, connective tissue, and periodontal ligament in the diabetic condition was comparable with that of control mice. However, immune cell infiltration in the gingiva was dramatically elevated in the diabetic mice, which was accompanied by unmineralized connective tissue degeneration. Bone resorption activity was significantly increased in the diabetic mice, and quantitative 𝜇CT demonstrated the bone volume, the ratio of bone volume over tissue volume, and cemento-enamel junction to alveolar bone crest (CEJ-ABC) in the diabetic condition were equivalent to those in the control group. In vivo fluorochrome labeling revealed increased MAR and bone remodeling in the diabetic mice. Further investigation found the diabetic mice had more osteoprogenitors recruited to the periodontium, allowing more bone formation to balance the enhanced bone resorption. Conclusions STZ-induced T1DM mice, at an early stage, have elevated gingival inflammation and soft tissue degeneration and increased bone resorption; but still the alveolar bone was preserved by recruiting more osteoprogenitor cells and increasing the rate of bone formation. We conclude that inflammation and periodontitis precede alveolar bone deterioration in diabetes.