Low frequency of IL-10+ B cells in patients with atherosclerosis is related with inflammatory condition.

BACKGROUND AND AIMS: B cells involvement in animal models of atherosclerosis has been unequivocally established. However, the role of these cells in patients with atherosclerosis is almost unknown. Besides the production of antibodies, B cells can also exhibit regulatory functions mainly through IL-10. Here, we characterized human B cell subsets, their production of IL-10 in patients with atherosclerosis and their potential association with inflammation. METHODS: Patients with confirmed atherosclerotic events and controls with low cardiovascular risk were included. B cells subsets were determined in mononuclear cells (PBMC) using flow cytometry. PBMC were cultured ex vivo (5 h) and in vitro (48 h) to determine IL-10+ B cells and in some cases TNF-α+ and IFN-γ+ CD4+ T cells. The inflammatory state of the participants was determined through high sensitivity C reactive protein levels. RESULTS: Increase in percentage and number of plasmablasts was observed in patients with atherosclerosis compared with controls. A decreased frequency of IL-10+ B cells was observed in patients, both in ex vivo and in vitro cultures. This decrease was detected in transitional, memory, and plasmablast subsets. Interestingly, the reduction of IL-10+ B cells negatively and significantly correlated with the inflammatory condition of the studied subjects and associated with an increased frequency of TNF-α+ and IFN-γ+ CD4+ T cells. The blockade of IL-10R did not show further effect in T cells activation. CONCLUSIONS: There is an association between the inflammatory state and a reduction of IL-10+ B cells that could contribute to the development of atherosclerosis.

PARP-1 Is Critical for Recruitment of Dendritic Cells to the Lung in a Mouse Model of Asthma but Dispensable for Their Differentiation and Function.

Dendritic cells (DCs) are critical in asthma and many other immune diseases. We previously demonstrated a role for PARP-1 in asthma. Evidence on PARP-1 playing a role in Th2-associated DC function is not clear. In this study, we examined whether PARP-1 is critical for DC differentiation and function using bone marrow progenitors and their migration to the lung in an ovalbumin-based mouse model of asthma. Results show that changes in PARP-1 levels during GM-CSF-induced DC differentiation from bone marrow progenitors were cyclic and appear to be part of an array of changes that included STAT3/STAT5/STAT6/GRAIL/RAD51. Interestingly, PARP-1 gene deletion affected primarily STAT6 and γH2AX. PARP-1 inhibition significantly reduced the migration of DCs to the lungs of ovalbumin-challenged mice, which was associated with a concomitant reduction in lung levels of the adhesion molecule VCAM-1. The requirement of PARP-1 for VCAM-1 expression was confirmed using endothelial and lung smooth muscle cells. PARP-1 expression and activity were also required for VCAM-1 in differentiated DCs. An assessment of CD11b+/CD11c+/MHCIIhigh DCs in spleens and lymph nodes of OVA-sensitized mice revealed that PARP-1 inhibition genetically or by olaparib exerted little to no effect on DC differentiation, percentage of CD80+/CD86+/CD40+-expressing cells, or their capacity to promote proliferation of ovalbumin-primed (OTII) CD4+ T cells. These findings were corroborated using GM-CSF-induced differentiation of DCs from the bone marrow. Surprisingly, the PARP-1-/- DCs exhibited a higher intrinsic capacity to induce OTII CD4+ T cell proliferation in the absence of ovalbumin. Overall, our results show that PARP-1 plays little to no role in DC differentiation and function and that the protective effect of PARP-1 inhibition against asthma is associated with a prevention of DC migration to the lung through a reduction in VCAM-1 expression. Given the current use of PARP inhibitors (e.g., olaparib) in the clinic, the present results may be of interest for the relevant therapies.

Interleukin-10 production and T cell-suppressive capacity in B cell subsets from atherosclerotic apoE -/- mice.

The evidence regarding the role of regulatory B cells (Breg) in atherosclerosis are scarce, and there are contradictory data about their atheroprotective properties. Due to the demonstrated protective function of Breg in different inflammatory diseases mainly through interleukin-10 (IL-10) production, the knowledge of their participation in atherosclerosis immunopathology would be very valuable. To further study which B cell subsets participate in IL-10 production and their regulatory role, splenocytes from apolipoprotein-E-deficient mice were evaluated by ex vivo and in vitro cultures. Atherosclerotic mice had increased frequency of IL-10+ B cells, which presented high CD1d, CD19, and IgM, but variable CD5, CD21, and CD23 expression. IL-10+ B cells were not enriched in B cell subsets previously reported as Breg. Increased frequency of IL-10+ B cells with transitional 1-like (T1-like) and follicular (FO) and reduced CD5+ and marginal zone (MZ) phenotypes were observed ex vivo. Increased frequency of IL-10+ B cells with T1-like and MZ, and decreased IL-10+ FO and T2 phenotypes were also observed in vitro. To determine regulatory capacity of B cells in the atherosclerotic model, each subset were co-cultured with CD4+CD25- T cells. CD5+, FO, MZ, and T1-like cells from atherosclerotic mice exhibited regulation in an IL-10-dependent manner. However, only FO cells decreased both frequency of interferon gamma (IFN-γ)+ and tumor necrosis factor alpha (TNF-α)+ and proliferation of T cells. Finally, splenocytes showed increased frequency of IFN-γ+ and TNF-α+ cells only when FO-depleted B cells were evaluated. These results suggest that mainly FO B cells can modulate in some level the inflammatory responses observed in atherosclerosis.

B cells interactions in lipid immune responses: implications in atherosclerotic disease.

Atherosclerosis is considered as an inflammatory and chronic disorder with an important immunologic component, which underlies the majority of cardiovascular diseases; condition that belongs to a group of noncommunicable diseases that to date and despite of prevention and treatment approaches, they remain as the main cause of death worldwide, with 17.5 million of deaths every year. The impact of lipids in human health and disease is taking center stage in research, due to lipotoxicity explained by elevated concentration of circulating lipids, in addition to altered adipose tissue metabolism, and aberrant intracellular signaling. Immune response and metabolic regulation are highly integrated systems and the proper function of each one is dependent on the other. B lymphocytes express a variety of receptors that can recognize foreign, endogenous or modified self-antigens, among them oxidized low density lipoproteins, which are the main antigens in atherosclerosis. Mechanisms of B cells to recognize, remove and present lipids are not completely clear. However, it has been reported that B cell can recognize/remove lipids through a range of receptors, such as LDLR, CD1d, FcR and SR, which might have an atheroprotector or proatherogenic role during the course of atherosclerotic disease. Pertinent literature related to these receptors was examined to inform the present conclusions.

Data in support of dyslipidemia-associated alterations in B cell subpopulations frequency and phenotype during experimental atherosclerosis.

Cardiovascular diseases are the most common cause of death in the world, atherosclerosis being its main underlying disease. Information about the role of B cells during atherosclerotic process is scarce, but both proatherogenic and atheroprotective properties have been described in the immunopathology of this disease. Frequency and phenotype of B cell subpopulations were studied in wild type and apolipoprotein-E-deficient (apoE (-/-) ) mice fed or not with high-fat diet (HFD), by flow cytometry. Here, we provide the information about the materials, methods, analysis and additional information related to our study published in Atherosclerosis (DOI: 10.1016/j.atherosclerosis.2015.12.022, article reference: ATH14410) [1]. The data contained in this article shows and supports that mice with advanced atherosclerosis have a variety of alterations in frequency and phenotype of B cell subsets, most of which associated with dyslipidemia.

Dyslipidemia-associated alterations in B cell subpopulation frequency and phenotype during experimental atherosclerosis.

Lymphocytes, the cellular effectors of adaptive immunity, are involved in the chronic inflammatory process known as atherosclerosis. Proatherogenic and atheroprotective properties have been ascribed to B cells. However, information regarding the role of B cells during atherosclerosis is scarce. Both the frequency and the phenotype of B cell subpopulations were studied by flow cytometry in wild type and apolipoprotein-E-deficient (apoE(-/-)) mice fed a high-fat (HFD) or control diet. Whereas the proportion of follicular cells was decreased, transitional 1-like cells were increased in mice with advanced atherosclerotic lesions (apoE(-/-) HFD). B cells in atherosclerotic mice were more activated, indicated by their higher surface expression of CD80, CD86, CD40 and CD95 and increased serum IgG1 levels. In the aorta, a decreased frequency of B cells was observed in mice with advanced atherosclerosis. Low expression of CD19 was observed on B cells from the spleen, aorta and lymph nodes of apoE(-/-) HFD mice. This alteration correlated with serum levels of IgG1 and cholesterol. A reduction in CD19 expression was induced in splenic cells from young apoE(-/-) mice cultured with lipemic serum. These results show that mice with advanced atherosclerosis display a variety of alterations in the frequency and phenotype of B lymphocytes, most of which are associated with dyslipidemia.

Subpoblaciones de linfocitos B y su expresión de CD1d en pacientes con lupus eritematoso sistémico / B cell subsets and their expression of CD1d in patients with systemic lupus erythematosus

Resumen Introducción: Los linfocitos B (LB) se consideran el centro de la desregulación inmune en pacientes con lupus eritematoso sistémico (LES), principalmente, por su producción de autoanticuerpos. Recientemente, se demostró la existencia de LB, incluidos en los B transicionales, con capacidad reguladora (Breg) y fenotipo CD19+CD24hiCD38hi. En humanos se demostró la importancia de CD80 y CD86 en su función reguladora. El papel de CD1d aún no ha sido evaluado. Objetivo: Evaluar la frecuencia de LB maduros, memoria y transicionales, en controles y pacientes con LES, además de la expresión de CD1d y correlacionarla con la actividad de la enfermedad medida por SLEDAI (Systemic Lupus Erythematosus Disease Activity Index). Materiales y métodos: Se evaluó por citometría de flujo la frecuencia de subpoblaciones de LB basados en la expresión de CD19, CD24 y CD38, además de CD1d, en controles con otras enfermedades autoinmunes (OEA), individuos sanos y pacientes con LES, y se correlacionó con SLEDAI. Resultados: Se evidenció una disminución significativa en el porcentaje de LB de memoria en pacientes LES y OEA, sin alteraciones en las subpoblaciones de LB maduros y transicionales. La expresión de CD1d no evidenció diferencias significativas en ninguna de las subpoblaciones ni se correlacionó con SLEDAI. Conclusión: La disminución de la subpoblación de memoria fue previamente descrita en LES y se ha asociado a algunos tipos de tratamiento. Aunque CD1d se ha asociado a la función de Breg en murinos, no hubo diferencias significativas en su expresión en las subpoblaciones y queda por clarificar su papel en la función de las Breg humanas.

Abstract Introduction: B lymphocytes are considered the center of immune dysregulation in Systemic Lupus Erythematosus (SLE). It has recently been demonstrated that there is a B cell with regulatory capacities (Breg) included in transitional B lymphocytes with the phenotype CD19+CD24hiCD38hi. The importance of CD80 and CD86 in the regulatory function of the Bregs has been demonstrated in humans, but the role of CD1d has not been evaluated. Objective: To evaluate the frequency of mature, memory and transitional B cells in SLE patients and controls, the expression of CD1d among these cells, and its correlation with the activity of the disease measured using the Systemic Lupus Erythematosus Disease Activity Index (SLEDAI). Materials and methods: The frequency of the B cell subsets was evaluated by flow cytometry based on the expression of CD19, CD24 and CD38, as well as CD1d in these cells in SLE patients and controls, and were correlated with the activity of the disease measured using the SLEDAI. Results: A significant reduction in the percentage of memory B cells was observed in SLE patients and other autoimmune conditions, with no changes in the mature or transitional B cell subsets. Similarly, no significant differences were observed in the expression of CD1d in any of the subsets, nor was there any correlation with the SLEDAI. Conclusion: The reduction of the memory subset has been previously described in SLE, and has been associated with some types of treatment. The expression of CD1d in all the subsets was observed, but its role in the regulatory function of the CD19+CD24hiCD38hi cells is still not clear.

Atherosclerosis development in SLE patients is not determined by monocytes ability to bind/endocytose Ox-LDL.

Patients with systemic lupus erythematosus (SLE) have a high risk of developing cardiovascular disease; however, the mechanisms involved in the early onset of atherosclerosis in these patients are not clear. Scavenger receptors, CD36 and CD163 are expressed by mononuclear phagocytes and participate in the binding and uptake of oxidized low-density lipoproteins (Ox-LDL), contributing to foam-cells formation and atherosclerosis development. The aim of the present study was to evaluate CD36(+) and CD163(+) expression and Ox-LDL removal by monocytes from SLE and atherosclerotic patients, compared to similar age-range healthy controls. Healthy controls, SLE, and atherosclerotic patients were evaluated for carotid intima media thickness (CIMT), lipid profile, and native LDL (N-LDL) and Ox-LDL binding/endocytosis. SLE patients presented decreased high-density lipoproteins (HDL) and increased Triglyceride levels, and half of the SLE patients had increased CIMT, compared to their healthy controls (HC(SLE)). The number of CD14(+)CD163(+) cells was increased in atherosclerosis healthy controls (HC(Atheros)) compared to HC(SLE), but there were no differences between SLE or atherosclerotic patients and their respective healthy controls. Clearance assays revealed a similar capacity to bind/endocytose Ox-LDL by monocytes from SLE patients and HC(SLE), and an increased binding and endocytosis of Ox-LDL by monocytes from atherosclerotic patients, compared to HC(Atheros). The decreased CD36 and CD163 expression observed in atherosclerotic and SLE patients, respectively, suggest that these inflammatory conditions modulate these receptors differentially. The increased CIMT observed in SLE patients cannot be explained by Ox-LDL binding/endocytosis, which was comparable to their controls.

Monocyte activation by apoptotic cells removal in systemic lupus erythematosus patients.

Decreased apoptotic cells (ACs) removal has been described as relevant in systemic lupus erythematosus (SLE) pathogenesis. Binding/phagocytosis of ACs was decreased in SLE patients. Blocking experiments suggested a role for CD36 in ACs clearance in healthy controls, not observed in SLE patients. Binding/phagocytosis of ACs induced the production of IL-6, CXCL8 and CCL22 in patients and controls and IL-1ß, TNF-α and CCL3 only in healthy controls. ACs clearance induced an increase in CD80 and a decrease in CD86 expression in healthy controls and atherosclerotic patients. However, SLE patients did not up-regulate CD80 expression. The number and expression of CD36 and CD163 in monocytes was not different between the groups. ACs removal induced a down-regulation of CD36 expression in adherent HLA-DR(+) cells in SLE patients but not healthy controls. The decreased binding/phagocytosis of ACs observed in SLE patients, induces a distinct immune response compared with healthy controls.