Immunologic perturbations in severe COVID-19/SARS-CoV-2 infection

AbstractAlthough critical illness has been associated with SARS-CoV-2-induced hyperinflammation, the immune correlates of severe COVID-19 remain unclear. Here, we comprehensively analyzed peripheral blood immune perturbations in 42 SARS-CoV-2 infected and recovered individuals. We identified broad changes in neutrophils, NK cells, and monocytes during severe COVID-19, suggesting excessive mobilization of innate lineages. We found marked activation within T and B cells, highly oligoclonal B cell populations, profound plasmablast expansion, and SARS-CoV-2-specific antibodies in many, but not all, severe COVID-19 cases. Despite this heterogeneity, we found selective clustering of severe COVID-19 cases through unbiased analysis of the aggregated immunological phenotypes. Our findings demonstrate broad immune perturbations spanning both innate and adaptive leukocytes that distinguish dysregulated host responses in severe SARS-CoV-2 infection and warrant therapeutic investigation.One Sentence SummaryBroad immune perturbations in severe COVID-19

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Changes of Regulatory T and B Cells in Patients with Papillary Thyroid Carcinoma after131I Radioablation: A Preliminary Study

BioMed Research International ◽

10.1155/2013/683768 ◽

2013 ◽

Vol 2013 ◽

pp. 1-8

Author(s):

Lei Jiang ◽

Yanxia Zhan ◽

Yusen Gu ◽

Yi Ye ◽

Yunfeng Cheng ◽

...

Keyword(s):

B Cells ◽

Papillary Thyroid Carcinoma ◽

Thyroid Carcinoma ◽

B Cell ◽

Peripheral Blood ◽

Mononuclear Cells ◽

Papillary Thyroid ◽

T And B Cells ◽

Significant Difference ◽

And Control

Introduction. Lymphocytic infiltration and specific lymphocytes subsets may play important roles in papillary thyroid carcinoma (PTC) progression and prognosis. In this study, we try to understand the influence of131I radioablation on the important lymphocytes subtypes of regulatory T and B cells (Tregs and Bregs).Methods. Peripheral blood mononuclear cells from 30 PTC patients before and after131I therapy, and 20 healthy donors were collected. The expression of Tregs (CD4+CD25+CD127-/low) and B cell (CD5+CD19+) and production and secretion of interleukin 10 (IL-10) were analyzed by FACS and ELISA assay, respectively.Results. For Tregs percentage in peripheral blood lymphocytes, there was no difference between pretreatment and control and between posttreatment and control. Compared with pretherapy, increased Tregs infiltration was noted in posttherapy (P<0.05). Although no difference was between pretreatment and control, compared with these two groups, decreased CD19+and CD5+CD19+B cell percentage in posttreatment was observed (P<0.05). Among these groups, no significant difference was displayed in intracellular IL-10 production and extracellular IL-10 secretion.Conclusions.131I Radioablation increased Tregs and decreased CD19+and CD5+CD19+B cells percentage after treatment. However, it has no effect on IL-10 and lymphocytes in peripheral blood. Therefore, longer follow-up of Tregs and Bregs should be further investigated.

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In VitroMeasles Virus Infection of Human Lymphocyte Subsets Demonstrates High Susceptibility and Permissiveness of both Naive and Memory B Cells

Journal of Virology ◽

10.1128/jvi.00131-18 ◽

2018 ◽

Vol 92 (8) ◽

pp. e00131-18 ◽

Cited By ~ 19

Author(s):

Brigitta M. Laksono ◽

Christina Grosserichter-Wagener ◽

Rory D. de Vries ◽

Simone A. G. Langeveld ◽

Maarten D. Brem ◽

...

Keyword(s):

T Cells ◽

B Cells ◽

B Cell ◽

Immune Suppression ◽

Peripheral Blood ◽

Measles Virus ◽

Memory B Cells ◽

T And B Cells ◽

B Cell Subsets

ABSTRACTMeasles is characterized by a transient immune suppression, leading to an increased risk of opportunistic infections. Measles virus (MV) infection of immune cells is mediated by the cellular receptor CD150, expressed by subsets of lymphocytes, dendritic cells, macrophages, and thymocytes. Previous studies showed that human and nonhuman primate memory T cells express higher levels of CD150 than naive cells and are more susceptible to MV infection. However, limited information is available about the CD150 expression and relative susceptibility to MV infection of B-cell subsets. In this study, we assessed the susceptibility and permissiveness of naive and memory T- and B-cell subsets from human peripheral blood or tonsils toin vitroMV infection. Our study demonstrates that naive and memory B cells express CD150, but at lower frequencies than memory T cells. Nevertheless, both naive and memory B cells proved to be highly permissive to MV infection. Furthermore, we assessed the susceptibility and permissiveness of various functionally distinct T and B cells, such as helper T (TH) cell subsets and IgG- and IgA-positive memory B cells, in peripheral blood and tonsils. We demonstrated that TH1TH17 cells and plasma and germinal center B cells were the subsets most susceptible and permissive to MV infection. Our study suggests that both naive and memory B cells, along with several other antigen-experienced lymphocytes, are important target cells of MV infection. Depletion of these cells potentially contributes to the pathogenesis of measles immune suppression.IMPORTANCEMeasles is associated with immune suppression and is often complicated by bacterial pneumonia, otitis media, or gastroenteritis. Measles virus infects antigen-presenting cells and T and B cells, and depletion of these cells may contribute to lymphopenia and immune suppression. Measles has been associated with follicular exhaustion in lymphoid tissues in humans and nonhuman primates, emphasizing the importance of MV infection of B cellsin vivo. However, information on the relative susceptibility of B-cell subsets is scarce. Here, we compared the susceptibility and permissiveness toin vitroMV infection of human naive and memory T- and B-cell subsets isolated from peripheral blood or tonsils. Our results demonstrate that both naive and memory B cells are more permissive to MV infection than T cells. The highest infection levels were detected in plasma cells and germinal center B cells, suggesting that infection and depletion of these populations contribute to reduced host resistance.

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Mezagitamab Induces Immunomodulatory Effect in Patients with Relapsed/Refractory Multiple Myeloma (RRMM)

Blood ◽

10.1182/blood-2020-140527 ◽

2020 ◽

Vol 136 (Supplement 1) ◽

pp. 9-9

Author(s):

Michael Abadier ◽

Jose Estevam ◽

Deborah Berg ◽

Eric Robert Fedyk

Keyword(s):

Bone Marrow ◽

T Cells ◽

B Cells ◽

Nk Cells ◽

Peripheral Blood ◽

Immune Cell ◽

Cell Populations ◽

Landscape Changes ◽

Ki 67 ◽

Immune Cell Subsets

Background Mezagitamab is a fully human immunoglobulin (Ig) G1 monoclonal antibody with high affinity to CD38 that depletes tumor cells expressing CD38 by antibody- and complement-dependent cytotoxicity. CD38 is a cell surface molecule that is highly expressed on myeloma cells, plasma cells, plasmablasts, and natural killer (NK) cells, and is induced on activated T cells and other suppressor cells including regulatory T (Tregs) and B (Bregs) cells. Data suggest that immune landscape changes in cancer patients and this may correlate with disease stage and clinical outcome. Monitoring specific immune cell subsets could predict treatment responses since certain cell populations either enhance or attenuate the anti-tumor immune response. Method To monitor the immune landscape changes in RRMM patients we developed a mass cytometry panel that measures 39-biomarkers to identify multiple immune cell subsets, including T cells (naïve, memory, effector, regulatory), B cells (naïve, memory, precursors, plasmablasts, regulatory), NK cells, NKT cells, gamma delta T cells, monocytes (classical, non-classical and intermediate), dendritic cells (mDC; myeloid and pDC; plasmacytoid) and basophils. After a robust analytical method validation, we tested cryopreserved peripheral blood and bone marrow mononuclear cells from 19 RRMM patients who received ≥ 3 prior lines of therapy. Patients were administered 300 or 600 mg SC mezagitamab on a QWx8, Q2Wx8 and then Q4Wx until disease progression schedule (NCT03439280). We compared the percent change in immune cell subsets at baseline versus week 4 and week 16. Results CD38 is expressed at different levels on immune cells and sensitivity to depletion by mezagitamab generally correlates positively with the density of expression. CD38 is expressed at high densities on plasmablasts, Bregs, NK-cells, pDC and basophils at baseline and this was associated with reductions in peripheral blood and bone marrow (plasmablasts, 95%, Bregs, 90%, NK-cells, 50%, pDC, 55% and basophils, 40%) at week 4 post treatment. In contrast, no changes occurred in the level of total T-cells and B-cells, which is consistent with low expression of CD38 on most cells of these large populations. Among the insensitive cell types, remaining NK-cells acquired an activated, proliferative and effector phenotype. We observed 60-150% increase in activation (CD69, HLA-DR), 110-200% increase in proliferation (Ki-67), and 40-375% increase in effector (IFN-γ) markers in peripheral blood and bone marrow. Importantly, NK-cells which did not express detectable CD38, also exhibited a similar phenotype possibly by a mechanism independent of CD38. Consistent with these data, the remaining CD4 and CD8 T-cell populations exhibited an activated effector phenotype as observed by 40-200% increase in activation, 60-200% increase in proliferation and 40-90% increase in effector markers in peripheral blood. A potential explanation for this acquisition of activated effector phenotypes could be a reduction in suppressive regulatory lymphocytes. Next, we measured levels of Tregs and Bregs, and observed that Bregs which are CD24hiCD38hi were reduced to 60-90% in peripheral blood and bone marrow. In contrast, total Tregs were reduced by only 5-25% because CD38 expression in Tregs appears as a spectrum where only ~10-20% are CD38+, and thus CD38+ Tregs were reduced more significantly (45-75%), reflecting the selectively of mezagitamab to cells expressing high levels of CD38. CD38+ Tregs are induced in RRMM patients, thus we looked at the phenotype of CD38-, CD38mid, and CD38high -expressing Tregs. We observed higher level of markers that correlate with highly suppressive Tregs such as Granzyme B, Ki-67, CTLA-4 and PD-1 in CD38high Tregs. Accordingly, the total Treg population exhibited a less active phenotype after exposure to mezagitamab, which selectively depleted the highly suppressive CD38+ Tregs. Conclusions Chronic treatment with mezagitamab is immunomodulatory in patients with RRMM, which is associated with reductions in tumor burden, subpopulations of B and T regulatory cells, and characterized by conventional NK and T cells exhibiting an activated, proliferative and effector phenotype. The immune landscape changes observed is consistent with the immunologic concept of converting the tumor microenvironment from cold-to-hot and highlights a key mechanistic effect of mezagitamab. Disclosures Berg: Takeda Pharmaceuticals Inc: Current Employment.

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Multidimensional Flow Cytometric (MFC) Analysis of the Immune System of Multiple Myeloma (MM) Patients Achieving Long Term Disease Control

Blood ◽

10.1182/blood.v118.21.810.810 ◽

2011 ◽

Vol 118 (21) ◽

pp. 810-810

Author(s):

Roberto J. Pessoa Magalhaes ◽

María-Belén Vidriales ◽

Bruno Paiva ◽

Maria-Victoria Mateos ◽

Norma C. Gutierrez ◽

...

Keyword(s):

T Cells ◽

Immune System ◽

B Cells ◽

Disease Control ◽

B Cell ◽

Nk Cells ◽

Cell Populations ◽

High Dose ◽

Newly Diagnosed

Abstract Abstract 810FN2 Increasing evidence shows that a small fraction of MM patients (pts) treated with high-dose therapy followed by autologous stem cell transplantation achieve long-term remission. Interestingly, this is not restricted to pts in complete response (CR), since those that revert to a monoclonal gammopathy of undetermined significance (MGUS) profile may also achieve long-term remission, despite the persistence of residual myeloma plasma cells (PCs). These results suggest that in addition to the anti-myeloma therapy, other factors may play a role in the control of the disease. Herein, we used 8-color MFC for detailed characterization of the structural components of the immune system and hematopoietic precursor cells (HPC) in paired bone marrow (BM) and peripheral blood (PB) samples from 26 MM patients in long-term disease control (LTDC): 9 in continuous CR and 17 who reverted to an MGUS profile and that subsequently showed stable disease without treatment for ≥5 years (median of 9 years; range, 5–19). As controls, paired BM and PB samples from 23 newly-diagnosed MGUS and 16 MM pts, together with 10 healthy adults (HA), were studied in parallel. In all BM and PB samples the distribution of the major T- (CD4, CD8, Tregs and γδ), NK- (CD56dim and CD56bright) and B-cell subsets (Pro-B, Pre-B, naïve and memory), in addition to normal PCs, dendritic cell (DC) subsets (plasmacytoid, myeloid and monocytic), monocytes, and CD34+ HPC (myeloid and lymphoid), were studied. The percentage and absolute count of each cell population was analysed in the BM and PB, respectively. Comparison of the two groups of MM pts with LTDC (9 CR vs. 17 MGUS-like) showed similar (p>.05) cellular profiles in PB and BM, except for an increased number of BM and PB normal PCs in CR patients (P≤.04). Consequently, for all subsequent analyses, LTDC myeloma pts were pooled together. When compared to HA, patients with LTDC had increased numbers of CD8 T-cells and CD56dim NK-cells in both the BM and PB (p≤.03 and p≤.01, respectively). Despite this, the distribution of BM and PB CD4, CD8 and γδ T-cells among LTDC patients was similar (p>.05) to that of both newly-diagnosed MM and MGUS cases; in contrast, BM and PB Tregs were significantly decreased vs newly-diagnosed MM (P=.03) and MGUS (P=.04). Regarding B-cells and normal PCs, LTDC patients showed increased numbers of BM B-cell precursors (both Pro-B and Pre-B cells) and normal PCs vs. newly diagnosed MM (P≤.05), but not MGUS, together with increased numbers of naïve B-cells vs. both MM and MGUS pts (P≤.01); all such cell populations returned to levels similar (p>.05) to those of HA. As expected, this also included the number of CD34+ B-cell HPC which was increased among patients who achieved LTDC vs MM (p=.02), at levels similar (p>.05) to those of MGUS and HA. Regarding DC, LTDC patients showed normal DC numbers in PB (but with higher PB myeloid-DC numbers vs. MM; p=.02), in association with decreased numbers of plasmacytoid DC and increased monocytic-DC in the BM vs. HA (p≤.04). No differences were found for the numbers of BM and PB monocytes. In summary, here we investigated for the first time the immune cell profile of MM patients who achieve long-term disease control. Our results show that, as newly-diagnosed MM, patients that achieve long-term disease control also show increased numbers of cytotoxic T-cells and CD56dim NK-cells; however, in contrast to newly-diagnosed MM, among LTDC patients such increase is associated with lower numbers of T-regs and an almost complete recovery of the normal PC, B-cell precursor and naïve B-cell compartments both in BM and PB. Further investigations on the activation and functional status of these cell populations are warranted.MO (%)/SP (cels./μl)HA N= 10MGUS N= 23MM N= 16LTDC-MM N= 26T cells9.588110.6117313113711926 CD4+4.85004.6624^6*5085463 CD8+3.7∼216∼4.63865.32645.3431 TCR γδ.2426.3230.2428.3421 Treg.4137.4141^.54*38.3432NK cells.7∼87∼1.51982.11721.6212 CD56 dim.65∼79∼1.41922.21681.6202B cells2.81471.8104.97*68*1.9160 Pro B.11—.06—.02*—.07— Pre B.6—.4—.08—.23— Naive SP—80—57^—36*—118 Normal-PCS.18.9.11.7.008.72*.11.84DCs.3449.3653.6848.558 Monocytes2.22472.42853.43023.1315 m-DC SP—11—14—8*—12 MO-DC.11∼29.2036.434.2837 p-DC.2∼4.1.145.112.8.123.8CD34+.9∼1.46.61.1.261.4.431.4 Mie-HPC.8∼—.53—.26—.36— Linfo-HPC.1—.07—.03*—.05—*p≤.05 LTDC vs MM: ^ p≤.05 LTDC vs MGUS; ∼ p≤.05 LTDC vs HA Disclosures: Paiva: Jansen-Cillag: Honoraria; Celgene: Honoraria. Martinez:Janssen: Honoraria; Celgene: Honoraria. Maiolino:Centocor Ortho Biotech Research & Development: Research Funding.

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CD154 Blockade Prevents Allosensitization through Inhibiting Both T- and B-Cell Activation and Decreasing Expression of IFN-γ and IL-10 in T-Cells.

Blood ◽

10.1182/blood.v110.11.1346.1346 ◽

2007 ◽

Vol 110 (11) ◽

pp. 1346-1346

Author(s):

Hong Xu ◽

Jun Yan ◽

Yiming Huang ◽

Paula M. Chilton ◽

Michael K. Tanner ◽

...

Keyword(s):

T Cells ◽

B Cells ◽

B Cell ◽

Cell Activation ◽

Skin Grafting ◽

Cell Populations ◽

B Cell Activation ◽

T And B Cells ◽

Time Points ◽

Ifn Γ

Abstract Recipient sensitization to MHC antigens from transfusion therapy and prior graft rejection is among the most critical of problems in clinical transplantation. Sensitized patients reject vascularized organ or bone marrow transplants within minutes to hours as a result of preformed anti-donor Abs. Preventing allosensitization at the time recipients are exposed to donor alloantigens would be of obvious clinical benefit. B cell activation and the generation of memory B cells depends upon T cell responses via signaling from the co-stimulatory molecule CD154 (on activated T cells) to CD40 (on B cells). We have demonstrated in an allogeneic mouse model [BALB/c (H2Kd) to B6 (H2Kb)] that blockade of T and B cell interactions with anti-CD154 induces B cell tolerance, as defined by complete abrogation of the generation of donor-specific Ab after skin grafting. Furthermore, anti-CD154 treatment promotes successful subsequent bone marrow transplantation in these recipients, confirming that sensitization was prevented. In this study, we evaluated the effect of anti-CD154 mAb on T- and B-cell populations, activation state, and cytokine expression by T cells. B6 recipients were treated with anti-CD154 (day 0 and +3) or isotype hamster IgG control around the time receiving BALB/c skin grafts (day 0), and the number of T-cells (CD4+ and CD8+), total B-cells (CD19+), immature B-cells (CD19+CD24highCD23low), and follicular B-cells (CD19+CD24lowCD23high) in the spleen was enumerated by 4 color flow cytometry at day 7, 15 and 25 after skin grafting. No significant difference in absolute number of T- and B-cell subpopulations was seen between anti-CD154 and control IgG treated groups at the time points tested. By measuring the percentage CD71+ cells in the CD8+ or CD4+ gate or CD69+ in the CD19+ gate, activated T and B cell populations were evaluated. In vivo blockade of CD154 resulted in a significantly reduced activation of alloreactive T- and B-cells: the percentage of CD8+/CD71+ T cells was significantly lower at day 7 and the percentage of CD4+/CD71+ T cells was significantly lower at all time points compared with control mice (P < 0.05). The percentage of CD19+/CD69+ B cells at day 7 and 25 was significantly lower compared with control IgG treated mice (P < 0.05). To determine the effect of anti-CD154 treatment on Th1 and Th2 cytokine production, intracellular IFN-γ and IL-10 expression was analyzed. The IFN-γ expression in both CD8 and CD4 T-cells was inhibited at day 7 and reached significance (P < 0.01) by day 15 compared with control IgG treated group. IL-10, a cytokine which promotes B-cell activation and differentiation expression, was similar at day 7 between the two groups, but significantly decreased in both CD8 and CD4 T-cells at day 15 in mice treated with anti-CD154. Therefore, these data suggest that blockade of CD154 during initial antigen exposure mechanistically interferes with activation of both allo antigen-specific T and B-cells and inhibits the generation of allogeneic Ab (allosensitization). These effects are associated with suppression of IFN-γ and IL-10 cytokine secretion. Figure Figure

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Comparison of DNA repair and radiosensitivity of different blood cell populations

Scientific Reports ◽

10.1038/s41598-021-81058-1 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Daniel Heylmann ◽

Viviane Ponath ◽

Thomas Kindler ◽

Bernd Kaina

Keyword(s):

T Cells ◽

T Cell ◽

B Cells ◽

Blood Cell ◽

Peripheral Blood ◽

Cell Populations ◽

T And B Cells ◽

Myeloid Lineage ◽

Γh2ax Foci

AbstractDespite the frequent use of ionising radiation (IR) in therapy and diagnostics and the unavoidable exposure to external radiation sources, our knowledge regarding the radiosensitivity of human blood cell populations is limited and published data, obtained under different experimental conditions, are heterogeneous. To compare the radiosensitivity of different hematopoietic cell populations, we set out to determine the responses of cells obtained from peripheral blood of healthy volunteers under identical conditions (resting, non-stimulated cells). First, we measured the radiation response of T cells (Treg, Th, CTL), B cells, NK cells, CD34+ progenitor cells and monocytes obtained from peripheral blood and monocyte-derived macrophages (Mph) and immature dendritic cells (iDC) ex vivo and show that T and B cells are highly sensitive, starting to undergo apoptosis following IR with a dose as low as 0.125 Gy. Importantly, there was no clear threshold dose and cell death/apoptosis increased up to a saturation level with a dose of 2 Gy. The sensitivity decreased in the order of T cells > NK and B cells > monocytes > macrophages and iDC. The data confirm a previous report that Mph and iDC are radiation-resistant compared to their progenitor monocytes. Although non-stimulated T and B cells were highly radiation-sensitive compared to monocytes and macrophages, they were competent in the repair of DNA double-strand breaks, as shown by a decline in γH2AX foci in the post-exposure period. CD34+ cells obtained from peripheral blood also showed γH2AX decline post-exposure, indicating they are repair competent. Granulocytes (CD15+) did not display any γH2AX staining following IR. Although peripheral blood lymphocytes, the main fraction are T cells, were significantly more radiation-sensitive than monocytes, they displayed the expression of the repair proteins XRCC1, ligase III and PARP-1, which were nearly non-expressed in monocytes. To assess whether monocytes are depleted in vivo following IR, we measured the amount of T cells and monocytes in cancer patients who received total-body radiation (TBR, 6 × 2 Gy). We observed that the number of T cells in the peripheral blood significantly declined already after the first day of TBR and remained at a low level, which was accompanied by an increase in the number of γH2AX foci in the surviving CD3+ T cell fraction. In contrast, the number of monocytes did not decline extensively, reflecting their radiation resistance compared to T cells. Monocytes also showed an accumulation of γH2AX foci in vivo, but the levels were significantly lower than in T cells. CD56+ NK cells displayed a response similar to T cells. The data support the notion that unstimulated T cell subfractions are nearly equally radiation sensitive. There are, however, remarkable differences in the radiation sensitivity between the lymphoid and the myeloid lineage, with lymphoid cells being significantly more sensitive than cells of the myeloid lineage. In the myeloid lineage, macrophages and iDCs were the most radio-resistant cell types.

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Patients With DLBCL Commonly Have B-Cell Lymphopenia and Circulating Clonal B-Cell Populations With a Phenotype Concordant With The Underlying Tumour

Blood ◽

10.1182/blood.v122.21.3013.3013 ◽

2013 ◽

Vol 122 (21) ◽

pp. 3013-3013

Author(s):

Ruth M de Tute ◽

Sharon Barrans ◽

Andy C. Rawstron ◽

Peter W.M. Johnson ◽

Andrew J Davies ◽

...

Keyword(s):

Gene Expression ◽

Flow Cytometry ◽

B Cells ◽

B Cell ◽

Gene Expression Profiling ◽

Peripheral Blood ◽

Expression Profiling ◽

Common Finding ◽

Cell Populations ◽

The Impact

Abstract Clonal B-cell populations with either a CLL or a non-CLL phenotype are a common finding in normal individuals but uncertainty remains about how this relates to the development of clinically significant disease. The aim of this study was to investigate the frequency of peripheral blood clonal B-cell populations and B-cell subset abnormalities in newly presenting DLBCL patients and to determine whether the incidence of these abnormalities differed between the GCB and ABC subtypes, which are regarded as having distinct pathogenesis. The study was carried out using peripheral blood samples collected from patients entered in the UK-REMoDL-B trial. This trial is testing the hypothesis that the ABC subtype of DLBCL responds preferentially to R-CHOP- Bortezomib. Gene expression profiling is performed on the diagnostic tissue biopsy (FFPE) using the Illumina WG-DASL assay prior to randomisation classified as GCB, ABC or unclassified (UN). The availability of GEP data allows meaningful comparison with the phenotype of clonal populations detected by flow cytometry. Peripheral blood taken prior to first treatment was analysed using multi-colour flow cytometry. Following red cell lysis with ammonium chloride, samples were incubated with a panel of antibodies comprising of a CD19 and CD20 backbone, with Kappa, Lambda, CD5, CD45, CD49d, LAIR-1, CXCR5, CD31, CD95, CD38 and CD10, supplemented in some cases by CD81, CD79b, and CD43. A minimum of 500,000 events were acquired on a FacsCanto II flow cytometer (Becton Dickinson). B-cells were enumerated and any monoclonal populations identified were classified as CLL, germinal centre (GC), non-GC or not otherwise specified (NOS) where the phenotype was indeterminate. 358 samples were eligible for inclusion from patients with an average age of 62.2years (range 22.9-86.1). Abnormalities were detected in 52% of cases (B-lymphopenia ((<0.06 x 109/l) 33%, B-lymphocytosis (>1 x 109/l) 2.8%, CLL clone 3.6%, GC clone 9.8%, non-GC clone 9.8%, clonal population NOS 2.2%). Gene expression profiling results were available for 278 individuals; 51% GCB, 32% ABC and 17% unclassified. The relationship between peripheral blood B-cell findings and the GEP determined phenotype of the tumour is shown in the table:TableB-lymphopeniaCLL CloneMonoclonal GC typeMonoclonalNon-GC typeMonoclonal NOSNormalB-cellGCB n=14241/142 (29%)5/142 (3.5%)21/142 (15%)8/142 (5.6%)2/142 (1%)72/142 (51%)ABC n=8927/89 (30%)2/89 (2%)2/89 (2%)12/89 (13.5%)2/89 (2%)49/89 (55%)Unclassified n=4726/47 (55%)0/50 (0%)2/47 (4%)6/47 (12%)6/47 (5%)14/47 (30%) In patients where clonal populations were detected in the peripheral blood there was striking concordance between the phenotype of the clone and the GEP of the underlying tumour. Presence of a GC-population by flow was highly predictive of GCB GEP (84% GC–type populations detected were in GCB cases). The number of discordant cases and the number of CLL clones detected approximate to the numbers that would be expected in a normal population of a similar age. It is, therefore, likely that in most cases circulating tumour cells or a closely related precursor clone are being detected. The similarity between the results of the ABC and unclassified GEP groups suggest that these are biologically related. An unexpected finding in this study was the high incidence of B-lymphopenia at a level that might be expected to be associated with increased risk of infection. This may reflect suppression of normal B-cells by the neoplastic clone or be a marker of underlying immune dysfunction that may predispose to the development of the tumour. Immuosuppression has a role in the pathogenesis of DLBCL in the elderly and this study suggests that this may also be a factor in the wider patient population. These results may have implications for prognostic assessment and may offer opportunities for early diagnosis and possibly response assessment in some patients. The impact on outcome will be assessed in the course of the trial. Disclosures: Jack: Roche /Genentech: Research Funding.

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Human immune response to group A streptococcal carbohydrate (A-CHO). I. Quantitative and qualitative analysis of the A-CHO-specific B cell population responding in vitro to polyclonal and specific activation.

Journal of Experimental Medicine ◽

10.1084/jem.161.3.547 ◽

1985 ◽

Vol 161 (3) ◽

pp. 547-562 ◽

Cited By ~ 20

Author(s):

F Emmrich ◽

B Schilling ◽

K Eichmann

Keyword(s):

Immune Response ◽

B Cells ◽

B Cell ◽

Peripheral Blood ◽

Pokeweed Mitogen ◽

Specific Antibodies ◽

Group A ◽

Precursor B Cells

The immune response to the group-specific carbohydrate of group A streptococci (A-CHO) provides an informative in vitro model for the investigation of several aspects of human anticarbohydrate immune responses. A-CHO-specific B cells can be polyclonally activated by pokeweed mitogen (PWM), and, specifically, by in vitro immunization with streptococcal vaccine. High levels of A-CHO-specific antibodies, mainly directed to the immunodominant side chain N-acetyl-D-glucosamine (GlcNAc), occur in healthy adult individuals. Serum antibody levels are reflected in high frequencies of precursor B cells among peripheral blood lymphocytes. In one particular case, greater than 15% of all B cells activated by PWM for IgM production were found to produce IgM anti-A-CHO antibodies, as determined in limiting dilution experiments, as well as by analyzing Ig concentrations in bulk culture experiments. The case with the lowest proportion observed had 0.3% A-CHO-specific B cells among IgM-producing B cells. Preferential PWM activation of anti-A-CHO-producing B cells could be excluded. The comparison of the proportions of anti-A-CHO IgM produced in vivo, and of B cells producing antibodies of this specificity in peripheral blood, suggests a similar distribution of specific precursor B cells in the antibody-producing lymphoid tissue compartments and in peripheral blood. However, nearly all specific antibodies produced in vitro belong to the IgM isotype, whereas IgG anti-A-CHO in high amounts, mostly exceeding the specific IgM, was found only among anti-A-CHO antibodies produced in vivo. Low anti-A-CHO IgG production was seen in polyclonally activated as well as in antigen-activated cultures, whereas, in contrast, total IgG was produced in considerable amounts after polyclonal activation. This suggests a different distribution pattern, and/or diverse differentiation requirements for anti-A-CHO-producing B cells, compared with other B cell species.

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Influence of immunomodulators of viral or bacterial origin and vaccine against Aujeszky’s disease on the proportion of peripheral blood B cells in growing pigs

Veterinarska stanica ◽

10.46419/vs.53.3.9 ◽

2021 ◽

Vol 53 (3) ◽

Author(s):

Irena Žarković ◽

Svjetlana Terzić ◽

Luka Cvetnić ◽

Miroslav Benić ◽

Andreja Jungić ◽

...

Keyword(s):

B Cells ◽

B Cell ◽

Peripheral Blood ◽

Growing Pigs ◽

Control Group ◽

Simultaneous Administration ◽

Specific Antibodies ◽

Bacterial Origin ◽

Aujeszky's Disease ◽

Aujeszky’S Disease

The consequences of infection by Suid herpesvirus type 1 (SuHV-1) that causes Aujeszky’s disease (AD) are well studied, however, the effects of immunomodulators (IMs) of microbial origin (viral and bacterial) when administered solely or in combination with the attenuated SuHV-1 vaccine are less known. The effects of parenteral administration of IMs, inactivated Parapoxvirus ovis (P. ovis) or a combination of inactivated Propionibacterium granulosum (P. granulosum) and detoxified Escherichia coli lipopolysaccharide (LPS) and attenuated SuHV-1, strain Bartha, on the proportion of peripheral blood CD3- CD21+ B cells were analysed in 30 crossbred, 3-month old pigs using flow cytometry (FCM). Specific antibodies for gE and gB of SuHV- 1 were detected using the enzyme-linked immunosorbent assay (ELISA). Data were compared among six experimental groups: (1) pigs that separately received the vaccine, (2) IM of bacterial origin, (3) IM of viral origin, (4) simultaneous administration of the vaccine and bacterial IM, (5) simultaneous administration of the vaccine and viral IM, and (6) the control group of untreated pigs. Comparison of B cell proportions and the detection of specific antibodies in blood samples of vaccinated pigs on Day 11 of the experiment showed a transient decrease in B cell contents, though this could not be assumed to be related since the control group showed a decrease in B cell proportion on the same day. The results showed that the use of IMs alone or in combination with the attenuated SuHV-1 vaccine did not have a significant impact on the proportion of peripheral blood B cells in growing pigs.

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Immunological Consequences of Lenalidomide with and without Dexamethasone in Newly Diagnosed Multiple Myeloma

Blood ◽

10.1182/blood-2019-128335 ◽

2019 ◽

Vol 134 (Supplement_1) ◽

pp. 3070-3070

Author(s):

Jake A. Kloeber ◽

Teresa K. Kimlinger ◽

Jessica L. Haug ◽

Kimberly J. Henderson ◽

S.Vincent Rajkumar ◽

...

Keyword(s):

Multiple Myeloma ◽

T Cells ◽

B Cells ◽

B Cell ◽

Peripheral Blood ◽

Research Funding ◽

Nk Cell ◽

Single Agent ◽

Cell Populations ◽

Newly Diagnosed

Introduction: Recent advancements in the treatment of multiple myeloma (MM) have centered on engaging the immune system to target multiple myeloma cells. Although these therapies are being combined with immunomodulatory imide drugs (IMiDs) and corticosteroids, the individual contributions of these drugs on the immune system of MM patients has not been examined in the upfront setting. In this study, we examined the peripheral blood immunophenotypes of newly diagnosed multiple myeloma (NDMM) patients receiving the IMiD lenalidomide with or without the corticosteroid dexamethasone. Methods: To characterize immunophenotypes, we utilized flow cytometry to profile white blood cell populations from 35 patients enrolled in a clinical trial testing the efficacy of lenalidomide with and without dexamethasone in NDMM (NCT00772915). In this trial, all patients were initiated on single-agent lenalidomide. Dexamethasone was initiated in patients that did not meet desirable responses or for disease progression. At each cycle, peripheral blood was stained with a 17-marker antibody panel against several immune lineages and functional surface markers. We grouped patients into two groups: 1) lenalidomide alone or 2) lenalidomide with dexamethasone according to their treatment regimen at each cycle timepoint. Results: First we confirmed anti-myeloma cell activity for both groups by measuring a steady decline in circulating plasma cells in both groups. Examining peripheral blood immunophenotypes showed an expected decrease in T cells and a smaller decrease in B cells in both groups of patients. Closer inspection of B cell populations revealed a switch towards a more immature B cell phenotype in both treatment groups. This was measured as a switch from CD19-CD20+ cells to CD19+CD20- B cells. Inspection of T cell subsets revealed that patients receiving single-agent lenalidomide had a sustained decrease in the levels of CD4+ T cells and increase in the levels of CD8+ T cells. This was seen in both naïve and regulatory T cells evidenced by a decrease in the CD4/CD8 ratio among CD28+ T cells as well as CD25+ T cells. Importantly, this alteration did not lead to sustained alterations in the overall level of CD25+ or CD28+ T cells, and the addition of dexamethasone reverses this trend. In addition to the effects seen on T and B cell numbers, we detected expansions of NK cell populations in patients receiving lenalidomide alone. This expansion is detected as an overall increase in CD56+ mononuclear cells with the majority of cells being CD56+CD3- cells. Conclusions: Our data show that lenalidomide and dexamethasone therapy have shared but distinct effects on peripheral blood immunophenotypes in NDMM. Both drugs alter B cells numbers and populations leading to an expansion of CD19+CD20- B cells. However, lenalidomide alone decreases the CD4/CD8 T cell ratio; and, lenalidomide more strongly expands NK cell populations. The addition of dexamethasone reverses this trend and leads to a restoration of the CD4/CD8 ratio. This suggests that lenalidomide without dexamethasone might be counterproductive in immunotherapies intended to recruit CD4+ T cells. Conversely, lenalidomide alone could increase the efficacy of immunotherapies dependent on NK cell recruitment such as antibody-dependent cellular cytotoxicity (ADCC). This information may benefit future investigations of immune responses in MM patients and improve the adoption of immunotherapies to MM patients. Figure Disclosures Kumar: Celgene: Consultancy, Research Funding; Janssen: Consultancy, Research Funding; Takeda: Research Funding.

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