B10 cells regulate macrophage polarization to alleviate inflammation and bone loss in periodontitis.

BACKGROUND: The polarization of macrophages into an anti-inflammatory phenotype is crucial for resolving periodontal inflammation. It has been reported that B10 cells can regulate the immune response of macrophages during inflammation and are also able to regulate inflammation in periodontitis. However, whether B10 cells' regulation function in periodontitis is related to macrophage polarization remains unclear. This study aims to investigate whether B10 cells can regulate macrophage polarization in periodontitis. METHODS: Macrophages were cocultured with B10 cells in vitro for 5 days. After coculture, macrophages were obtained for analysis directly or followed by stimulation with Pg-LPS/IFN-γ or IL-4/IL-13. Flow cytometry and/or reverse transcriptase-polymerase chain reaction (RT-PCR) were employed to detect the expression of IL-1ß, iNOS, TNF-α, CD206, and ARG-1 in macrophages. B10 cells were transferred on the 5th day after ligation in wild or macrophage-depletion mice. Toluidine blue and TRAP staining were used to evaluate alveolar bone resorption and osteoclast activation. Immunohistochemistry was employed to detect the expression of CD68, IL-1ß, TNF-α, iNOS, ARG-1, and IL-10. Immunofluorescence was used to detect the expression of CD68+CD86+M1 macrophages and CD68+CD206+M2 macrophages. RESULTS: In vitro, B10 cells inhibit the expression of IL-1ß, iNOS, and TNF-α in macrophages while increasing the expression of CD206 and ARG-1. In experimental periodontitis, B10 cells inhibit the polarization of CD68+CD86+M1 macrophages and iNOS expression but enhance the polarization of CD68+CD206+M2 macrophages and ARG-1 expression. Importantly, the depletion of macrophages partially weakened the regulation function of B10 cells in periodontitis. CONCLUSIONS: B10 cells promote M2 macrophage polarization, inhibit M1 macrophage polarization in periodontitis, and alleviate periodontitis partially by regulating macrophage polarization.

B10 cells: Development, phenotype, and function in cancer.

B10 cells, a specialized subset of regulatory B cells, have been identified in both mice and humans. These cells are characterized by their regulatory impact on immune dynamics, principally through their secretion of interleukin-10 (IL-10), a cytokine known for its anti-inflammatory properties. The pivotal role of immune mediators such as B10 cells is to maintain a delicate equilibrium between antitumor immunity and tumor-promoting responses. Emerging studies have cast B10 cells as key suppressors in the antitumor immune arsenal. They operate in synergy with a spectrum of immune cells within the innate and adaptive spectrums, contributing to a milieu that favors tumor progression and metastatic spread. In this comprehensive review, we will discuss the ontogeny, phenotype and effector functions of B10 cells in murine systems. We will also review the role of B10 cells in oncological models in animal studies and extend these findings to the human clinical context, elucidating their role in facilitating tumor immune evasion. A thorough understanding of these processes is imperative for the strategic targeting and attenuation of B10 cell activity, which is anticipated to be a cornerstone in the advancement of effective cancer immunotherapy strategies.

Effect of IL-10-producing B cells in peripheral blood and tumor tissue on gastric cancer.

BACKGROUND: Interleukin (IL)-10-producing B (B10) cells are generated in response to signals from the tumor microenvironment and promote tumor growth by interacting with B10 cells. We investigated the distributions of immune cells in peripheral blood and tumor tissue samples from patients with gastric cancer (GC). METHODS: Patients with GC who underwent radical gastrectomy in Seoul St. Mary's Hospital between August 2020 and May 2021 were enrolled in this study. Forty-two samples of peripheral blood were collected, and a pair of gastric mucosal samples (normal and cancerous mucosa; did not influence tumor diagnosis or staging) was collected from each patient after surgery. B10 cells in peripheral blood and cancer mucosa samples were investigated by flow cytometry and immunofluorescence. AGS cells, gastric cancer cell line, were cultured with IL-10 and measured cell death and cytokine secretion. Also, AGS cells were co-cultured with CD19 + B cells and measured cytokine secretion. RESULTS: The population of B10 cells was significantly larger in the blood of patients with GC compared with controls. In confocal images of gastric mucosal tissues, cancerous mucosa contained more B10 cells than normal mucosa. The population of B10 cells in cancerous mucosa increased with cancer stage. When AGS cells were cultured under cell-death conditions, cellular necrosis was significantly decreased, and proliferation was increased, for 1 day after IL-10 stimulation. Tumor necrosis factor (TNF)-α, IL-8, IL-1ß, and vascular endothelial growth factor secretion by cancer cells was significantly increased by coculture of AGS cells with GC-derived CD19+ B cells. CONCLUSIONS: B cells may be one of the populations that promote carcinogenesis by inducing the production of inflammatory mediators, such as IL-10, in GC. Targeting B10 cells activity could improve the outcomes of antitumor immunotherapy. Video Abstract.

Insights into the roles of IL-10-producing regulatory B cells in cardiovascular disorders: recent advances and future perspectives.

Interleukin-10-producing regulatory B (B10) cells mediate the immunomodulatory functions of biosystems by secreting anti-inflammatory factors, thus playing vital roles in cardiovascular diseases such as viral myocarditis, myocardial infarction, and ischemia-reperfusion injury. However, several challenges hinder B10 cells from regulating the immunoreactivity of organisms in specific cardiovascular diseases, such as atherosclerotic disease. Regarding the regulatory mechanisms of B10 cells, the interplay between B10 cells and the cardiovascular and immune systems is complex and requires clarification. In this study, we summarize the roles of B10 cells in bacterial and aseptic heart injuries, address their regulatory functions in different stages of cardiovascular disorders, and discuss their challenges and opportunities in addressing cardiovascular diseases from bench to bedside.

TLR9 Signaling Is Required for the Porphyromonas gingivalis-Induced Activation of IL-10-Expressing B Cells.

Immune cell pattern-recognition receptors such as Toll-like receptors (TLRs) play important roles in the regulation of host responses to periodontal pathogens. Our previous studies have demonstrated that immune regulatory B cells were activated by TLRs and alleviated periodontitis inflammation and bone loss. The purpose of this study is to determine the role of TLR9 signaling in the activation and IL-10 production of the primed-immune B cells in vitro. Wild-type (WT) and TLR9 knockout (TLR9KO) mice (C57BL/6 background, n = 5) were pre-immunized intraperitoneally with 1 × 108 formalin-fixed P. gingivalis and boosted once with 1 × 107 formalin-fixed P. gingivalis. Isolated splenocytes and purified B cells from each mouse were cultured with 1 × 108 formalin-fixed P. gingivalis for 48 h. Immunocytochemistry was performed to detect CD45+ IL-10+ cells. Levels of IL-10 expression and secretion in splenocytes and B cells were detected using qRT-PCR and ELISA, respectively. After stimulation with fixed P. gingivalis, the percentage of CD45+ IL-10+ B cells and the level of IL-10 expression were significantly increased (p < 0.01) in splenocytes and purified B cells isolated from WT mice. However, these changes were not observed in splenocytes and purified B cells from TLR9KO mice when the cells were treated with fixed P. gingivalis. The percentage of CD45+ IL-10+ B cells was significantly reduced in splenocytes and purified B cells from TLR9KO mice compared to those from WT mice when challenged with P. gingivalis. IL-10 expression in B cells from TLR9KO mice was significantly decreased compared to those from WT mice at both the mRNA and protein levels. Additionally, P. gingivalis-induced up-regulation of TNF-α mRNA expressions were consistently observed in B cells from both WT and TLR9KO mice. P. gingivalis-induced B10 activation and IL-10 production during adaptive responses by primed B cells requires TLR9 signaling and can be achieved independent of T-cell help.

Peripheral blood subpopulations of Bregs producing IL-35 in women with endometriosis.

PROBLEM: Interleukin 35 (IL-35) is involved in the pathogenesis of endometriosis by suppressing immunoreaction and promoting endometrial cell proliferation. It may also be an essential cytokine in forming the immunosuppressive functions of regulatory B lymphocytes (Bregs). The involvement of Bregs in the pathogenesis of endometriosis has not been previously investigated. In this study, we determined the frequencies of different Breg subpopulations, namely, B10, immature B-cells, and plasmablasts, and their abilities to produce IL-35 in women with endometriosis compared to healthy women. METHODS: The frequencies of different subpopulations of Bregs producing IL-35 were measured in the peripheral blood of women with endometriosis (total pool), women with deep infiltration endometriosis (DIE), women with ovarian endometriosis, and healthy women as a control by flow cytometry. RESULTS: We observed a decrease in the percentage of B10 cells and plasmablasts in women with endometriosis and an increase in the percentage of these Breg populations producing IL-35 in the same experimental group. Interestingly, we also revealed that women with DIE had increased percentages of B10 cells and plasmablasts producing IL-35. CONCLUSION: Taken together, our findings are the first to reveal the frequencies of different subpopulations of Bregs producing IL-35 in women with endometriosis. The results suggest that IL-35 expression in B lymphocytes could be used as a peripheral marker of endometriosis; however, further studies are needed.

Role of DCs,B10 cells and Th17/Treg imbalance in pathogenesis of chronic obstructive pulmonary disease and their correlation with lung function / 中国免疫学杂志

Objective:To explore the mechanism of dendritic cells(DCs),novel regulatory B cells(B10 cells)and Th17/Treg imbalance in the pathogenesis of patients with chronic obstructive pulmonary disease(COPD)and their correlation with lung function.Methods:According to the"Guidelines for the Diagnosis and Treatment of Chronic Obstructive Pulmonary Disease"a total of 93 COPD patients were prospectively selected from the Ninth People's Hospital of Suzhou from May 2019 to December 2021,and 50 healthy subjects were selected as the control group.The patients were followed up for 1 year to observe the occurrence of acute exacer-bation COPD(AECOPD),and divided them into stable COPD group and AECOPD group.The course of disease,modified British Medical Research Society dyspnea index(mMRC)classification,COPD assessment test(CAT)score,BODE index score,6 min walking distance(6MWD),arterial partial pressure of oxygen(PaO2),arterial carbon dioxide Partial pressure(PaCO2)were com-pared between the two groups;compared the levels of FEV1,FVC,FEV1/FVC,and the percentage of FEV1 to predicted value(FEV1/Pred)in the three groups with peripheral blood DCs,B10 cells,Th17 cells,Treg cells and Th17/Treg,IL-12,IL-10,IL-17A and TGF-β1 levels.To analyze the correlation between peripheral blood DCs cells,B10 cells and Th17/Treg imbalance and pulmonary function indexes in AECOPD group.Logistic regression analysis of independent risk factors for AECOPD.Results:A total of COPD pa-tients had AECOPD events(40.86%).The course of disease,mMRC grade,CAT score,BODE index score,and PaCO2 in AECOPD group were significantly higher than those in COPD stable group(P<0.05),6MWD and PaO2 were significantly lower than those in COPD group.The levels of FEV1,FVC,FEV1/FVC and FEV1/Pred in the AECOPD group were significantly lower than those in the stable COPD group and control group(P<0.05);the levels of FEV1,FVC,FEV1/FVC and FEV1/Pred in the stable COPD group were significantly lower than those in control group(P<0.05).DCs,B10 cells and Treg cells in AECOPD group were significantly lower than those in stable COPD group and control group,while Th17 expression level and Th17/Treg were significantly higher than that in stable COPD group and control group(P<0.05).DCs,B10 cells and Treg cells in stable COPD phase were significantly lower than those in control group,while Th17 expression level and Th17/Treg were significantly higher than control group(P<0.05).The ex-pression levels of IL-12,IL-10 and TGF-β1 in the AECOPD group were significantly lower than those in the stable COPD group and control group(P<0.05),while IL-17A was significantly higher than that in the stable COPD group and control group.The expression levels of IL-12,IL-10 and TGF-β1 in patients with stable COPD were significantly lower than control group,while IL-17A was signifi-cantly higher than control group(P<0.05).Pearson analysis showed that peripheral blood DCs,B10 cells were positively correlated with FEV1,FVC,FEV1/FVC and FEV1/Pred levels(P<0.05),while Th17/Treg was positively correlated with FEV1,FVC,FEV1/FVC and FEV1/Pred levels all were negatively correlated(P<0.05).Logistic regression analysis found that mMRC grade and Th17/Treg were independent risk factors of AECOPD(P<0.05).Conclusion:With the progression of COPD,DCs,B10 cells,Th17 cells,Treg cells and Th17/Treg gradually become unbalanced,resulting in disordered expression levels of pro-inflammatory and anti-inflamma-tory factors.Peripheral blood DCs and B10 cells were positively correlated with lung function levels,while Th17/Treg were negatively correlated with lung function levels.mMRC grade and Th17/Treg are independent risk factors of AECOPD.Therefore,actively inter-vening in the imbalanced state of immune function in patients has specific and important clinical significance in reducing the immune damage of lung tissue and promoting the improvement of lung function.

IL-10 Producing B Cells Protect against LPS-Induced Murine Preterm Birth by Promoting PD1- and ICOS-Expressing T Cells.

B cells and in particular IL-10-secreting B cells emerge as important players in immune balance during pregnancy. We have recently revealed that CD19-deficient (CD19-/-), B cell-specific IL-10-deficient (BIL-10-/-) and B cell-deficient µMT pregnant mice are highly susceptible to LPS-induced preterm birth (PTB). We aimed to analyze the ability of IL-10-secreting cells to protect from PTB and the underlying mechanisms. Wild type (WT), CD19-/-, BIL-10-/- and µMT mice were treated with LPS at gd16 and the cellular immune response was investigated 24 h later. LPS-treated BIL-10-/- dams showed a more pronounced PTB phenotype compared to WT, CD19-/- and µMT females, and increased inflammatory and reduced anti-inflammatory mediator concentrations in the peritoneal cavity and serum. CD19-/-, BIL-10-/- and µMT mice displayed altered immune cell population frequencies in the blood and uterus with lower numbers of IL-10-secreting B cells and T cells. BIL-10-/- mothers presented decreased frequencies of uterine CD4+CD25+Foxp3+ Treg cells. Co-stimulatory molecules are critical for feto-maternal tolerance and IL-10 secretion. We found dysregulated PD-1 expression in peripheral blood and ICOS expression in the uterus of CD19-/-, BIL-10-/- and µMT dams. Our data show that B cell-specific IL-10-signaling is essential for a balanced maternal immune response to an inflammatory stimulant that cannot be hampered without IL-10-secreting B cells.

Regulatory B cells in patients suffering from inborn errors of immunity with severe immune dysregulation.

BACKGROUND: Immune dysregulation as a result of an inborn error of immunity (IEI) leads to the complicated symptoms of refractory multi-organ immune dysregulation. B lymphocytes with immune regulatory capacity (Breg) are activated by environmental triggers and act as regulators of the immune response as observed in several autoimmune diseases. OBJECTIVE: We sought to investigate the Breg profile and the CD21low expressing B cells of patients with LRBA deficiency (N = 6) and non-LRBA deficiency IEI (N = 13) with overlapping clinical symptoms of immune dysregulation. Normal values for Breg subpopulations were obtained from patients age-matched healthy cohorts (N = 48). Furthermore, we investigated the impact of abatacept treatment in LRBA deficient patients receiving biweekly abatacept (N = 5). METHODS: Using a flow cytometric approach with a pre-formulated antibody panel in peripheral blood samples, Breg subsets including plasmablasts (CD27+CD38hi), transitional B cells (CD24hiCD38hi), and B10 cells (CD24hiCD27+), and additionally the CD21low B cells (CD21lowCD38low) were analyzed. Breg function was assessed by the interleukin-10 expression within the CD19+ population. Additionally, B cell cytokines were measured in cell culture supernatants. RESULTS: We observe significant alterations of B cell/Breg subpopulations in the LRBA deficient cohort including a severe lack of memory B cells (P = 0.031) and B10 cells (P = 0.031) as well as a tendency towards higher CD21low B cells (P = 0.063). Within the non-LRBA deficient cohort, we observe a significant expansion of the plasmablasts (P = 0.012), and a tendency towards elevated levels of CD21low expressing B cells (P = 0.063). The treatment with abatacept ameliorated disease symptoms in the LRBA deficient cohort and led to an effective decrease in CD21low B cells over time (P = 0.021). Furthermore, there was a significantly increased level of B cell-activating factor (BAFF; P = 0.02) and lower IL-12p70 secretion upon stimulation (P = 0.020) in the LRBA cohort. CONCLUSION: Aberrant maturation of Breg subsets and the pathological expansion of CD21low B cells in patients with IEI may have therapeutic implications. Patients suffering from LRBA deficiency show a lack of memory B cells, insufficient expansion of B10 cells, increased BAFF levels as well as an increase in circulating CD21low B cells. Abatacept treatment results in a steady decrease in CD21low B cells.

B10 cells decrease fibrosis progression following cardiac injury partially by IL-10 production and regulating hyaluronan secretion.

B10 cells play negative roles in inflammatory disorders by producing IL-10. However, their effects on fibrosis have not been elucidated. Therefore, this study was conducted to examine the dynamic changes of B10 cell frequency and their potential role in cardiac fibrosis. We found that the frequency of B10 cells was significantly increased, and they participated in the regression of fibrosis via IL-10, particularly by accelerating hyaluronan secretion and inhibiting collagen deposition. In vivo, hyaluronan ablation or treatment significantly restricted cardiac fibrosis development. hyaluronan-induced conversion of M1/M2 Mc was dependent on the size of hyaluronan. Low molecular weight hyaluronan promoted the conversion to M1 Mϕ, whereas medium and high molecular weight hyaluronan accelerated Mϕ transdifferentiation into the M2 phenotype. Adoptive transfer of B10 cells significantly attenuated collagen deposition whereas CD19-/- mice with reduced B10 cells exacerbated fibrosis following cardiac injury. Our results provide new evidence suggesting that B10 cells exert antifibrotic effects by regulating the extracellular matrix composition during cardiac injury, and also highlight that B10 cells may serve as a promising therapeutic candidate for managing cardiac fibrosis-associated disorders.

Clinical significance and prognostic value of circulating B10 cells in colorectal cancer.

BACKGROUND: B10 cells, a subset of regulatory B cells, can inhibit antitumor response and thus promote tumor development. This study explored the clinical meaning and prognostic value of circulating B10 cells in colorectal cancer (CRC). MATERIALS AND METHODS: The proportion of B10 cells in peripheral blood in CRC patients and healthy controls was detected by multicolor flow cytometry. RESULTS: The proportion of circulating B10 cells was remarkably elevated in CRC patients compared to normal controls (% of CD19+ B cells; 16.6% (IQR 6.0%) versus 9.0% (IQR 5.7%), p < 0.001). B10 cells proportion was associated with tumor size, depth of invasion, lymph node metastasis, and TNM stage in CRC. Kaplan-Meier analysis indicated that CRC patients with high B10 cells proportion suffered worse overall survival than those with low B10 cells proportion. Multivariate analysis revealed that the proportion of B10 cells was an independent prognostic indicator for CRC patients. CONCLUSION: Our results indicate that the proportion of circulating B10 cells is an independent prognostic factor for patients with CRC and thus may help guide the clinical decision in CRC.

Maternal B cell signaling orchestrates fetal development in mice.

B cell participation in early embryo/fetal development and the underlying molecular pathways have not been explored. To understand whether maternal B cell absence or impaired signaling interferes with placental and fetal growth, we paired CD19-deficient (CD19-/-) mice, females with B cell-specific MyD88 (BMyD88-/-) or IL10 (BIL10-/-) deficiency as well as wild-type and MyD88-/- controls on C57Bl/6 background with BALB/c males. Pregnancies were followed by ultrasound and Doppler measurements. Implantation number was reduced in BMyD88-/- and MyD88-/- mice. Loss of MyD88 or B cell-specific deletion of MyD88 or IL10 resulted in decreased implantation areas at gestational day (gd) 5, gd8 and gd10, accompanied by reduced placental thickness, diameter and areas at gd10. Uterine artery resistance was enhanced in BIL10-/- dams at gd10. Challenge with 0.4 mg lipopolysaccharide/kg bodyweight at gd16 revealed that BMyD88-/-, BIL10-/- and CD19-/- mothers delivered preterm, whereas controls maintained their pregnancy. B cell-specific MyD88 and IL10 expression is essential for appropriate in utero development. IL10+B cells are involved in uterine blood flow regulation during pregnancy. Finally, B cell-specific CD19, MyD88 and IL10 expression influences susceptibility towards preterm birth.

Characterization of Organ-Specific Regulatory B Cells Using Single-Cell RNA Sequencing.

Regulatory B cells (Breg) are considered as immunosuppressive cells. Different subsets of Breg cells have been identified both in human beings and in mice. However, there is a lack of unique markers to identify Breg cells, and the heterogeneity of Breg cells in different organs needs to be further illuminated. In this study, we performed high-throughput single-cell RNA sequencing (scRNA-seq) and single-cell B-cell receptor sequencing (scBCR-seq) of B cells from the murine spleen, liver, mesenteric lymph nodes, bone marrow, and peritoneal cavity to better define the phenotype of these cells. Breg cells were identified based on the expression of immunosuppressive genes and IL-10-producing B (B10) cell-related genes, to define B10 and non-B10 subsets in Breg cells based on the score of the B10 gene signatures. Moreover, we characterized 19 common genes significantly expressed in Breg cells, including Fcrl5, Zbtb20, Ccdc28b, Cd9, and Ptpn22, and further analyzed the transcription factor activity in defined Breg cells. Last, a BCR analysis was used to determine the clonally expanded clusters and the relationship of Breg cells across different organs. We demonstrated that Atf3 may potentially modulate the function of Breg cells as a transcription factor and that seven organ-specific subsets of Breg cells are found. Depending on gene expression and functional modules, non-B10 Breg cells exhibited activated the TGF-ß pathway, thus suggesting that non-B10 Breg cells have specific immunosuppressive properties different from conventional B10 cells. In conclusion, our work provides new insights into Breg cells and illustrates their transcriptional profiles and BCR repertoire in different organs under physiological conditions.

Hepatitis B Vaccine Non-Responders Show Higher Frequencies of CD24highCD38high Regulatory B Cells and Lower Levels of IL-10 Expression Compared to Responders.

Background: The cellular mechanisms involved in the lack of protective antibody response after hepatitis B vaccination are still rather unclear. Regulatory B cells (Breg) known as modulators of B-and T-cell responses may contribute to poor vaccine responsiveness. The current study aimed to investigate the role of regulatory B cells (Breg) in hepatitis B vaccine non-responsiveness after immunization with second- or third-generation hepatitis B vaccines. Method: We performed comparative phenotypic and frequency analysis of Breg subsets (CD24+CD27+ and CD24highCD38high Breg) in second-generation hepatitis B vaccine non-responders (2nd HBvac NR, n = 11) and responders (2nd HBvac R, n = 8) before (d0), on day 7 (d7), and 28 (d28) after booster vaccination. Cryopreserved peripheral blood mononuclear cells were stimulated ex vivo with a combination of CpG, PMA, and Ionomycin (CpG+P/I) and analyzed for numbers and IL-10 expression levels of Breg by flow cytometry-based analyses. Results: Flow cytometry-based analyses revealed elevated frequencies of CD24+CD27+ Breg at all time points and significantly higher frequencies of CD24highCD38high Breg on d0 (p = 0.004) and 28 (p = 0.012) in 2nd HBvac NR compared to 2nd HBvac R. In parallel, we observed significantly lower levels of CpG+P/I-induced IL-10 expression levels of CD24+CD27+ and CD24highCD38high Breg (d0: p < 0.0001; d7: p = 0.0004; d28: p = 0.0003 and d0: p = 0.016; d7: p = 0.016, respectively) in 2nd HBvac NR compared to 2nd HBvac R before and after booster immunization. Frequencies of CD24+CD27+ and CD24highCD38high Breg significantly decreased after third-generation hepatitis B booster vaccination (d7: p = 0.014; d28: p = 0.032 and d7: p = 0.045, respectively), whereas IL-10 expression levels of both Breg subsets remained stable. Conclusion: Here we report significantly higher frequencies of CD24highCD38high Breg in parallel with significantly lower IL-10 expression levels of CD24+CD27+ and CD24highCD38high Breg in 2nd HBvac NR compared to 2nd HBvac R. Anti-HBs seroconversion accompanied by a decrease of Breg numbers after booster immunization with a third-generation hepatitis B vaccine could indicate a positive effect of third-generation hepatitis B vaccines on Breg-mediated immunomodulation in hepatitis B vaccine non-responders.

The identification, development and therapeutic potential of IL-10-producing regulatory B cells in multiple sclerosis.

Regulatory B cells are a rare B-cell subset widely known to exert their immunosuppressive function via the production of interleukin-10 (IL-10) and other mechanisms. B10 cells are a special subset of regulatory B cells with immunoregulatory function that is fully attributed to IL-10. Their unique roles in the animal model of multiple sclerosis (MS) have been described, as well as their relevance in MS patients. This review specifically focuses on the identification and development of B10 cells, the signals that promote IL-10 production in B cells, the roles of B10 cells in MS, and the potential and major challenges of the application of B10-based therapies for MS.

In-vivo imaging revealed antigen-directed gingival B10 infiltration in experimental periodontitis.

Our previous study demonstrated that IL-10 secreting B (B10) cells alleviate inflammation and bone loss in experimental periodontitis. The purpose of this study is to determine whether antigen-specificity is required for the local infiltration of B10 cells. Experimental periodontitis was induced in the recipient mice by placement of silk ligature with or without the presence of live Porphyromonas gingivalis (P. gingivalis). Donor mice were pre-immunized by intraperitoneal (IP) injection of formalin-fixed P. gingivalis, or PBS as non-immunized control. Spleen B cells were purified and treated with LPS and CpG for 48 h to expand the B10 population in vitro. Fluorescence-labelled B10 cells were transferred into the recipient mice by tail vein injection and were tracked on day 0, 3, 5 and 10 using IVIS Spectrum in vivo imaging system. The number of B10 cells and P. gingivalis-binding B cells were significantly increased after in vitro treatment of LPS and CpG. On day 5, the fluorescence intensity in gingival tissues was the highest in mice transferred with B10 cells from pre-immunized donor mice. Gingival expression of IL-6, TNF-α, RANKL/OPG ratio and periodontal bone loss in recipient mice were significantly reduced, and the expression of IL-10 and the number of CD19+ B cells were significantly increased after pre-immunized B10 cell transfer in the presence of antigen, compared to those with non-immunized B10 cell transfer or no antigen presence. This study suggests that antigen specificity dictate the local infiltration of B10 cells into periodontal tissue and these antigen-specific B10 cells promote anti-inflammatory responses.

The Potential of IgG to Induce Murine and Human Thymic Maturation of IL-10+ B Cells (B10) Revealed in a Pilot Study.

Regulatory B (B10) cells can control several inflammatory diseases, including allergies; however, the origin of peripheral B10 cells is not fully understood, and the involvement of primary lymphoid organs (PLOs) as a primary site of maturation is not known. Here, using a murine model of allergy inhibition mediated by maternal immunization with ovalbumin (OVA), we aimed to evaluate whether B10 cells can mature in the thymus and whether IgG can mediate this process. Female mice were immunized with OVA, and offspring thymus, bone marrow, spleen, lung, and serum samples were evaluated at different times and after passive transfer of purified IgG or thymocytes. A translational approach was implemented using human nonatopic thymus samples, nonatopic peripheral blood mononuclear cells (PBMCs), and IgG from atopic or nonatopic individuals. Based on the expression of CD1d on B cells during maturation stages, we suggest that B10 cells can also mature in the murine thymus. Murine thymic B10 cells can be induced in vitro and in vivo by IgG and be detected in the spleen and lungs in response to an allergen challenge. Like IgG from atopic individuals, human IgG from nonatopic individuals can induce B10 cells in the infant thymus and adult PBMCs. Our observations suggest that B10 cells may mature in the thymus and that this mechanism may be mediated by IgG in both humans and mice. These observations may support the future development of IgG-based immunoregulatory therapeutic strategies.

TLR7 Negatively Regulates B10 Cells Predominantly in an IFNγ Signaling Dependent Manner.

IL-10 producing B cells (B10 cells) play an important immunoregulatory role in various autoimmune and infection conditions. However, the factors that regulate their development and maintenance are incompletely understood. Recently, we and others have established a requirement for TLR7 in promoting autoimmune antibody forming cell (AFC) and germinal center (GC) responses. Here we report an important additional role of TLR7 in the negative regulation of B10 cell development. TLR7 overexpression or overstimulation promoted the reduction of B10 cells whereas TLR7 deficiency rescued these cells in both non-autoimmune and autoimmune-prone mice. TLR7 expression was further inversely correlated with B cell-dependent IL-10 production and its inhibition of CD4 T cell proliferation and IFNγ production in an in vitro B cell and T cell co-culture system. Further, B10 cells displayed elevated TLR7, IFNγR, and STAT1 expression compared to non-B10 cells. Interestingly, deficiency of IFNγR in TLR7 overexpressing lupus-prone mice rescued B10 cells from TLR7-mediated reduction. Finally, B cell intrinsic deletion of IFNγR was sufficient to restore B10 cells in the spleens of TLR7-promoted autoimmune mouse model. In conclusion, our findings demonstrate a novel role for the IFNγR-STAT1 pathway in TLR7-mediated negative regulation of B10 cell development.

Local reinfusion of B10 cells is effective in the treatment of pustular psoriasis.

Psoriasis is a common chronic skin disease characterized by epidermal proliferation and inflammation. Pustular psoriasis (PP) is one of the most serious and refractory. The number, differentiation, and function of B10 cells in patients with PP were analyzed, and the relationship between B10 cells and PP, an autoimmune disease, was explored. We established an Imiquimod psoriasis mouse model and subcutaneously injected B10 cells as treatment. We found that the proportion of B10 cells in the peripheral blood of patients with PP was lower than that of the normal controls. However, the number of B10 precursor cells increased. B10 cells in the peripheral blood may be mobilized to effector sites, such as the skin. In patients with PP, B10 cells do not display evident developmental disorders under the CD40 and TLR9 pathways. Normal human B10 cells were found to inhibit the secretion of IFN-γ and TNF-α by lymphocytes significantly. Whereas the function of B10 cells in patients with PP is impaired, and the inhibition is not apparent. Treatment with a B10 cells injection displays a certain therapeutic effect on PP. This study enriched the etiology and pathogenesis of PP. It provides a foundation for cell therapy for the treatment of autoimmune diseases.

CD19+CD1dhiCD5hi B Cells Can Downregulate Malaria ITV Protection by IL-10 Secretion.

Infection treatment vaccine (ITV) can lead to sterile protection against malaria infection in mice and humans. However, parasite breakthrough is frequently observed post-challenge. The mechanism of rapid decline in protection after the last immunization is unclear. Herein, C57BL/6 mice were immunized with 103, 105, or 107 ITV thice at 14-day intervals. Mice were challenged with 103 parasites at 1, 3, and 6 months after last immunization and the protection was checked using blood smear. The phenotypes of B cells were analyzed by flow cytometry. The levels of serum cytokines were quantified using cytometric bead array. The 103 ITV vaccination group exhibited 100% protection at 1 month after last immunization, and the 105 group showed sterile protection at 3 months after last immunization. However, the 107 group showed only partial protection. Further, the protection declined to 16.7% at 6 months after last immunization in 105 and 107 groups, whereas it maintained for more than 60% in 103 group. The number of memory B cells (MBC) decreased along with the decline in protection. However, programmed cell death protein 1 (PD-1) expressed on MBCs did not show significant variation among the three groups. Interestingly, CD19+CD1dhiCD5hi B cells, defined as B10 cells, exhibited negative regulation with respect to protection. The numbers of CD19+CD1dhiCD5hi B cells in the 103 group at 1 months and in the 105 group at 3 months post-immunization were the lowest compared to those in the other groups. Moreover, the serum levels of interleukin 10 (IL-10) in these two groups were also significantly lower than those in other groups. We conclude that higher immunization dose may not lead to better protection with the malaria vaccine as CD19+CD1dhiCD5hi B cells can downregulate ITV protection against malaria via IL-10 secretion. These results could facilitate the design of an effective long-lasting malaria vaccine with the aim of maintaining MBC function.