Dual Inhibition of PI3K-Delta and Gamma By Duvelisib (IPI-145) Impairs CLL B- and T-Cell Migration, Survival and Proliferation in a Murine Xenograft Model Using Primary Chronic Lymphocytic Leukemia Cells

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 1753-1753 ◽  
Author(s):  
Shih-Shih Chen ◽  
Steven Ham ◽  
Kanti R. Rai ◽  
Karen McGovern ◽  
Jeffery L. Kutok ◽  
...  
Keyword(s):  
Cell Proliferation ◽  
T Cells ◽  
Cell Migration ◽  
T Cell ◽  
B Cells ◽  
Cell Growth ◽  
B Cell ◽  
Cell Survival ◽  
T Cell Migration

Abstract Duvelisib (IPI-145), a dual inhibitor of phosphoinositide 3-kinase (PI3K)-δ and -γ, has shown clinical activity in treatment-naïve and relapsed/refractory chronic lymphocytic leukemia (CLL) patients. Clinically, duvelisib results in a redistribution of malignant B cells and concomitant reduction in nodal enlargement. These effects are believed to be due to important roles of PI3K- δ and -γ in CXCL12-mediated CLL cell migration (Peluso 2014), cytokine-induced CLL B-cell proliferation, and BCR-stimulated B-cell survival (Balakrishnan 2015). Additional data suggest an effect of duvelisib on the tumor supporting cells of the CLL microenvironment. This includes preclinical studies demonstrating that PI3K-γ inhibition blocks normal T cell migration toward tumor chemokines and prevents murine bone marrow-derived M2 macrophage polarization (Peluso 2014), as well as clinical data in CLL patients receiving duvelisib showing reduced serum levels of myeloid and T cell-secreted cytokines and chemokines (Douglas 2015). To further characterize duvelisib's effect on CLL cells and the tumor microenvironment (TME), a murine xenograft model using primary human CLL cells was employed. We first studied duvelisib's effect on CLL B- and T-cell migration in vivo. CLL PBMCs (n=2; 1 IGHV unmutated (U)-CLL, 1 IGHV mutated (M)-CLL) pre-treated with duvelisib for 48 hours were injected retro-orbitally into NOD-scid IL2Rgammanull (NSG) mice. B- and T-cell localization in tissues and circulation was studied 1 and 24 hours post-injection. Duvelisib treatment (1000 nM) prevented the egress of CLL B and T cells from the circulation into the spleen, indicating impaired homing of CLL B and T cells. To better define the effect of duvelisib on T-cell migration, T cells from CLL patients (n=3; 2 U-CLL, 1 M-CLL) treated ex vivo with duvelisib at 1, 10, 100 and 1000 nM were injected into mice and analyzed for their trafficking 24 hours later. Inhibition of T-cell homing to spleen was dose dependent, with only 100 and 1000 nM having significant effects. Given duvelisib's cellular IC50s for PI3K isoforms, these results suggest that impaired T-cell migration is due to PI3K-γ inhibition, and studies with isoform-selective PI3K-δ and PI3K-γ inhibitors are currently underway to examine this possibility. The effect of duvelisib on CLL T-cell proliferation was evaluated after in vitro activation with anti-CD3/28 Dynabeads plus IL2 (n=6; 3 U-CLL, 3M-CLL). In duvelisib treated cells, CD4+, but not CD8+, T-cell proliferation was inhibited at doses of 100 and 1000 nM, suggesting a role for PI3K-γ. The effects of duvelisib on CLL B- and T-cell growth in vivo (n=4; 2 U-CLL, 2 M-CLL) were then studied. Autologous CLL T cells were stimulated as above and injected with CLL PBMCs into NSG mice. Animals treated orally with duvelisib for 3 weeks at 100 mg/kg/day had preferentially reduced CD4+ T-cell recovery from spleens, thereby decreasing the CD4 to CD8 ratio. In each case, duvelisib treatment reduced the number of splenic CLL B cells. This reduction reflected inhibition of both CLL cell proliferation and survival, since duvelisib treatment decreased the percentage of cycling CLL cells and increased the percentage of apoptotic B cells. Thus, duvelisib may target CLL B-cell growth directly, or indirectly by inhibiting the support of CD4+ T cells in the TME. The potential effect of duvelisib on the tumor-supporting myeloid compartment was also tested. Because of limited human myeloid-cell engraftment in our NSG model, we studied the effect of duvelisib on murine macrophages. Mice receiving duvelisib had reduced numbers of splenic CD11b+ GR-1low LY-6Clow LY-6Gneg macrophages compared to controls, suggesting duvelisib altered macrophage development. Prior in vitro studies demonstrated inhibition of CLL B-cell survival and proliferation by duvelisib, as well as blockade of T-cell migration and M2 macrophage polarization (Balakrishnan 2015; Peluso 2014). Our current in vivo studies further support duvelisib's effect on CLL B-cell growth and survival through inhibition of cellular homing to supportive tissue niches and alterations in the TME. The latter, in part, is through suppression of T-cell support and alterations in the macrophage compartment. Overall, these preclinical results suggest that inhibition of PI3K-δ and PI3K-γ by duvelisib affects CLL cell survival through direct and indirect mechanisms. Disclosures McGovern: Infinity Pharmaceuticals, Inc.: Employment. Kutok:Infinity Pharmaceuticals, Inc.: Employment.

scholarly journals B cell-intrinsic requirement for WNK1 kinase in T cell-dependent antibody responses

2021 ◽  
Author(s):  
Darryl Hayward ◽  
Lesley Vanes ◽  
Stefanie Wissmann ◽  
Sujana Sivapatham ◽  
Harald Hartweger ◽  
...  
Keyword(s):  
T Cells ◽  
Cell Migration ◽  
T Cell ◽  
B Cells ◽  
B Cell ◽  
Cell Activation ◽  
Plasma Cells ◽  
Antibody Responses ◽  
B Cell Activation

AbstractMigration and adhesion play critical roles in B cells, regulating recirculation between lymphoid organs, migration within lymphoid tissue and interaction with CD4+ T cells. However, there is limited knowledge of how B cells integrate chemokine receptor and integrin signaling with B cell activation to generate efficient humoral responses. Here we show that the WNK1 kinase, a regulator of migration and adhesion, is essential in B cells for T-dependent antibody responses. We demonstrate that WNK1 transduces signals from the BCR, CXCR5 and CD40, and using intravital imaging we show that WNK1 regulates migration of naive and activated B cells, and their interactions with T cells. Unexpectedly, we show that WNK1 is required for BCR- and CD40-induced proliferation, acting through the OXSR1 and STK39 kinases, and for efficient B cell-T cell collaboration in vivo. Thus, WNK1 is critical for humoral immune responses, by regulating B cell migration, adhesion and T cell-dependent activation.SummaryThe WNK1 kinase is essential in B cells for T-dependent antibody responses because it is activated by signaling from BCR, CXCR5 and CD40 and regulates B cell migration, adhesion, T-dependent activation, and differentiation into germinal center B cells and plasma cells.

scholarly journals Early Reconstitution of Antibody Secreting Cells after Allogeneic Stem Cell Transplantation

2022 ◽  
Vol 11 (1) ◽  
pp. 270
Author(s):  
Martina Hinterleitner ◽  
Clemens Hinterleitner ◽  
Elke Malenke ◽  
Birgit Federmann ◽  
Ursula Holzer ◽  
...  
Keyword(s):  
Innate Immunity ◽  
T Cells ◽  
Stem Cell ◽  
T Cell ◽  
B Cells ◽  
Stem Cell Transplantation ◽  
B Cell ◽  
Cell Transplantation ◽  
Antibody Secreting Cells

Immune cell reconstitution after stem cell transplantation is allocated over several stages. Whereas cells mediating innate immunity recover rapidly, adaptive immune cells, including T and B cells, recover slowly over several months. In this study we investigated kinetics and reconstitution of de novo B cell formation in patients receiving CD3 and CD19 depleted haploidentical stem cell transplantation with additional in vivo T cell depletion with monoclonal anti-CD3 antibody. This model enables a detailed in vivo evaluation of hierarchy and attribution of defined lymphocyte populations without skewing by mTOR- or NFAT-inhibitors. As expected CD3+ T cells and their subsets had delayed reconstitution (<100 cells/μL at day +90). Well defined CD19+ B lymphocytes of naïve and memory phenotype were detected at day +60. Remarkably, we observed a very early reconstitution of antibody-secreting cells (ASC) at day +14. These ASC carried the HLA-haplotype of the donor and secreted the isotypes IgM and IgA more prevalent than IgG. They correlated with a population of CD19− CD27− CD38low/+ CD138− cells. Of note, reconstitution of this ASC occurred without detectable circulating T cells and before increase of BAFF or other B cell stimulating factors. In summary, we describe a rapid reconstitution of peripheral blood ASC after CD3 and CD19 depleted haploidentical stem cell transplantation, far preceding detection of naïve and memory type B cells. Incidence before T cell reconstitution and spontaneous secretion of immunoglobulins allocate these early ASC to innate immunity, eventually maintaining natural antibody levels.

scholarly journals Inhibition of normal B-cell function by human immunodeficiency virus envelope glycoprotein, gp120

Blood ◽  
1992 ◽  
Vol 79 (5) ◽  
pp. 1245-1254 ◽  
Author(s):  
N Chirmule ◽  
N Oyaizu ◽  
VS Kalyanaraman ◽  
S Pahwa
Keyword(s):  
Cell Proliferation ◽  
T Cells ◽  
T Cell ◽  
B Cells ◽  
B Cell ◽  
Cell Function ◽  
Cell Contact ◽  
Cell Proliferation And Differentiation ◽  
Cell Clones ◽  
Glycoprotein Gp120

Abstract Despite the occurrence of hypergammaglobulinemia in human immunodeficiency virus (HIV) infection, specific antibody production and in vitro B-cell differentiation responses are frequently impaired. In this study, we have examined the effects of HIV envelope glycoprotein gp120 on T-helper cell function for B cells. In the culture system used, B-cell functional responses were dependent on T-B- cell contact, since separation of T and B cells in double chambers by Transwell membranes rendered the B cells unresponsive in assays of antigen-induced B-cell proliferation and differentiation. Cytokines secreted by T cells were also essential, since anti-CD3 monoclonal antibody (mAb)-activated, paraformaldehyde-fixed T-cell clones failed to induce B-cell proliferation and differentiation. Pretreatment of the CD4+ antigen-specific T cells with gp120 was found to impair their ability to help autologous B cells, as determined by B-cell proliferation, polyclonal IgG secretion, and antigen-specific IgG secretion. The gp120-induced inhibition was specific in that it was blocked by soluble CD4. Furthermore, only fractionated small B cells (which are T-cell-dependent in their function) manifested impaired responses when cultured with gp120-treated T cells. Antigen-induced interleukin (IL)-2 and IL-4, but not IL-6, secretion were markedly reduced in gp120-treated T-cell clones. Addition of exogenous cytokines failed to compensate for defective helper function of gp120-treated T cells. The findings in this study indicate that gp120 impairs helper functions of CD4+ T cells by interfering with T-B-cell contact- dependent interaction; the inhibitory effects of soluble envelope proteins of HIV may contribute to the immunopathogenesis of the HIV- associated disease manifestations.

scholarly journals Form and pattern of MUC1 expression on T cells activated in vivo or in vitro suggests a function in T-cell migration

Immunology ◽  
2003 ◽  
Vol 108 (1) ◽  
pp. 32-41 ◽  
Author(s):  
Isabel Correa ◽  
Tim Plunkett ◽  
Anda Vlad ◽  
Arron Mungul ◽  
Jessica Candelora-Kettel ◽  
...  
Keyword(s):  
T Cells ◽  
Cell Migration ◽  
T Cell ◽  
Muc1 Expression ◽  
T Cell Migration

scholarly journals Human Germinal Center CD4+CD57+T Cells Act Differently On B Cells Than Do Classical T-Helper Cells

1995 ◽  
Vol 4 (3) ◽  
pp. 189-197 ◽  
Author(s):  
Farida Bouzahzah ◽  
Alain Bosseloir ◽  
Ernst Heinen ◽  
Léon J. Simar
Keyword(s):  
Cell Proliferation ◽  
T Cells ◽  
T Cell ◽  
B Cells ◽  
B Cell ◽  
Germinal Center ◽  
Functional Study ◽  
Target Cells ◽  
Helper Cells ◽  
Ig Synthesis

We have isolated two subtypes of helper T cells from human tonsils: CD4+CD57+cells, mostly located in the germinal center (GC), and CD4+CD57-cells, distributed through the interfollicular areas but also present in the GC. In a functional study, we have compared the capacities of these T-cell subtypes to stimulate B cells in cocultures. In order to block T-cell proliferation while maintaining their activation level, we pretreated isolated T cells with mitomycin C prior to culture in the presence of B cells and added polyclonal activators such as PHA and Con A, combined or not with IL-2. Contrary to CD4+CD57-cells, CD4+CD57+cells did not markedly enhance B-cell proliferation. Even when sIgD-B cells typical of germinal center cells were tested, the CD4 CD57 cells had no significant effect. This is in accordance with the location of these cells: They mainly occupy the light zones of the GC where few B cells divide. Even when added to preactivated, actively proliferating cells, CD4+CD57+cells failed to modulate B-cell multiplication. On the supernatants of B-cell-T-cell cocultures, we examined by the ELISA technique the effect of T cells on Ig synthesis. Contrary to CD57-T cells, whose effect was strong, CD57+T cells weakly stimulated Ig synthesis. More IgM than IgG was generally found. Because CD57 antigen is a typical marker of natural killer cells, we tested the cytolytic activity of tonsillar CD4+CD57+cells on K562 target cells. Unlike NK cells, neither CD4+CD57+nor CD4+CD57-cells exhibit any cytotoxicity. Thus, germinal center CD4+CD57+cells are not cytolytic and do not strongly stimulate either B-cell proliferation or Ig secretion. CD4+CD57-cells, however, enhance B-cell proliferation and differentiation, thus acting like the classical helper cells of the T-dependent areas.

Defective T Cell Migration in Chronic Lymphocytic Leukemia Is Repaired by Lenalidomide

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 3117-3117
Author(s):  
Alan G. Ramsay ◽  
Lena Svensson ◽  
Nancy Hogg ◽  
John G. Gribben
Keyword(s):  
T Cells ◽  
Cell Migration ◽  
T Cell ◽  
B Cells ◽  
Chronic Lymphocytic Leukemia ◽  
Cd8 T Cells ◽  
Direct Contact ◽  
Immune Surveillance ◽  
Lymphocytic Leukemia ◽  
T Cell Migration

Abstract We have previously demonstrated that multiple gene expression abnormalities are induced in T cells from chronic lymphocytic leukemia (CLL) patients including defects within the actin cytoskeleton signaling pathways that control immune recognition and motility (Gullu et al. JCI, 2005). T cell immune surveillance requires rapid migratory responses and LFA-1 (CD11a/CD18; αLβ2) is a promigratory receptor that engages the cytoskeleton to control migration. We hypothesized that CLL T cells may exhibit dysfunctional migration in response to ICAM-1, the principal ligand for LFA-1. Using time lapse microscopy, we observed significantly reduced chemokine SDF-1 (CXCL12) induced migration on ICAM-1 of CLL CD4 and CD8 T cells compared to age-matched healthy donor T cells. Healthy T cells tracked for 45 min displayed a random course of migration with an average speed of ~ 8 μm/min, whereas CLL T cells were slower ~ 5 μm/min (n=14, ~ 30% reduction, p&lt;0.01). We further postulated that direct contact of CLL tumor cells with healthy T cells would induce this migratory defect. Healthy CD4 or CD8 T cells were cocultured with either allogeneic CLL B cells or allogeneic healthy B cells and subsequently used in migration assays. Co-culture with CLL cells resulted in significantly reduced T cell migration compared with co-culture with healthy B cells (~ 44% reduction in migration, n=6, p&lt;0.01). Evidence that direct contact was required to induce this migratory defect was shown when no effect was observed when cell-cell adhesion was prevented by pretreatment of CLL cells with anti-ICAM-1 blocking antibody prior to primary co-culture with healthy T cells. This cancer-induced migratory defect was repaired when CLL T cells were pretreated with the immunomodulatory drug Lenalidomide (1μM for 1hr). Treatment with this agent enhanced the migratory potential of CLL T cells to a speed comparable to untreated and treated healthy T cells. The finding that lenalidomide can restore rapid migration in patient T cells provides evidence that this agent may increase immune surveillance in CLL patients.

Lenalidomide Promotes The Expansion Of CD8 T Cells With An Effector Memory Phenotype In a Murine Xenograft Model Of Chronic Lymphocytic Leukemia

Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 119-119
Author(s):  
Rita Simone ◽  
Sonia Marsilio ◽  
Piers E.M. Patten ◽  
Gerardo Ferrer ◽  
Shih-Shih Chen ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
B Cells ◽  
T Lymphocytes ◽  
B Cell ◽  
Xenograft Model ◽  
Lymphocytic Leukemia ◽  
Effector Memory ◽  
Cell Engraftment

Abstract Lenalidomide (Revlimid®), a thalidomide analogue, is an orally administered second generation immunomodulator with anti-angiogenic and anti-neoplastic properties. Initial studies treating patients with chronic lymphocytic leukemia (CLL) suggest that lenalidomide can have considerable efficacy and that its mode of action is mainly indirect, affecting non-malignant cells in the microenvironment, in particular T lymphocytes. Because a recently described xenograft model for CLL has highlighted the importance of CLL-derived, autologous T cells in promoting leukemic B-cell engraftment and growth in vivo, we have studied the influence of lenalidomide on the expansion of CLL B- and T-lymphocytes in this model. After an initial 12 day culture of FACS-isolated CLL-derived T cells with or without anti-CD3/CD28 beads plus IL-2 (30 IU/ml), T lymphocytes were transferred into alymphoid NSG mice via the retro-orbital plexus (day 0). On day 7, CLL cells were delivered retro-orbitally. These recipient animals are referred to as “T + PBMC mice”. Mice that did not receive T cells on day 0 but were given CLL PBMCs at day 7, with or without lenalidomide, served as controls (“PBMC only mice”). Recipient mice received lenalidomide (10mg/kg/day) or vehicle control daily by gavage starting at day 0. All mice were sacrificed at day 28 (28 days after T-cell and 21 days after B-cell transfer), and blood, spleen, and bone marrow were collected. On this material, four analyses were performed: [1] level of human CD45+ cell engraftment; [2] numbers and types of CLL-derived T cells; [3] numbers of CLL B cells; and [4] levels of cytokines reflective of Th1 and Th2 immune responses. There was a clear enhancement in human hematopoietic (CD45+) cell engraftment in those mice exposed to lenalidomide. This was most marked for the PBMC only mice (vehicle: 10.64%; lenalidomide: 38.53%), although it was also evident for T + PBMC mice (vehicle: 55.96%; lenalidomide: 69.65%). T-cell phenotyping was carried out, before and after cell culture and also at sacrifice. Prior to culture, CLL samples contained on average ∼96% CD5+CD19+ cells and ∼3% CD5+CD19- cells; for the latter, ∼67% were CD4+ and ∼33% CD8+. After 12-day culture, these percentages remained largely unchanged. However, the numbers and types of T cells recovered from the spleens at sacrifice were quite different after in vivo exposure to lenalidomide. For the PBMC only, the percentages of CD4+ and CD8+ cells in the spleens differed somewhat based on lenalidomide exposure (CD4: Vehicle 86% vs. Lenalidomide 61%; CD8: Vehicle 10% vs. Lenalidomide 28%). However, this change was dramatic for the T + PBMC mice (CD4: Vehicle 64.1% vs. Lenalidomide 28.9%; CD8: Vehicle 34% vs. Lenalidomide 62%). Furthermore, when the CD8+ cells from these animals were subsetted based on antigen-experience and function, it appeared that lenalidomide exposure had led to the outgrowth of a greater number of effector memory (CD45RO+ CD62L-) than central memory (CD45RO+ CD62L+) T-cells. For CLL-derived B cells, the numbers differed, based not only on lenalidomide exposure but also on prior in vitro activation. Specifically, in PBMC only mice, the addition of lenalidomide led to increased numbers of CLL B cells in the spleen (Vehicle: 7.81% vs. Lenalidomide: 14%). Conversely, in the T + PBMC mice, the numbers of B cells decreased (Vehicle: 2.36% vs. Lenalidomide: 0.34%). An analysis of Th1 and Th2-related cytokines in the plasmas of the mice at sacrifice revealed a fall in IL-4, IL-5, and IL-10 and a marked increase in IFNg, consistent with a Th2 to Th1 transition. The above data suggest that administration of lenalidomide permits greater engraftment of human hematopoietic cells in alymphoid mice. Although this enhancement involves all members of the hematopoietic lineage, T cells, in particular CD8+ effector memory T cells, emerge in excess over time. This CD8 expansion is associated with diminished levels of CLL B cells suggesting that the decrease is due to T-cell mediated cytolysis. In contrast, in the absence of prior T-cell activation, CLL T cells appear to support better CLL B-cell growth. These findings suggest that lenalidomide alters B-cell expansion in vivo depending on the activation and differentiation state of the autologous T-cell compartment. They also implicate the generation of cytolytic T cells as one mechanism whereby lenalidomide leads to clinical improvement in CLL. Disclosures: Allen: Celgene Corporation: Honoraria.

scholarly journals Antigen presentation by resting B cells. Radiosensitivity of the antigen-presentation function and two distinct pathways of T cell activation.

1984 ◽  
Vol 159 (3) ◽  
pp. 881-905 ◽  
Author(s):  
J D Ashwell ◽  
A L DeFranco ◽  
W E Paul ◽  
R H Schwartz
Keyword(s):  
Cell Proliferation ◽  
T Cells ◽  
T Cell ◽  
B Cells ◽  
B Cell ◽  
Antigen Presentation ◽  
Cell Activation ◽  
T Cell Proliferation ◽  
B Cell Activation ◽  
Antigen Presenting

In this report we have examined the ability of small resting B cells to act as antigen-presenting cells (APC) to antigen-specific MHC-restricted T cells as assessed by either T cell proliferation or T cell-dependent B cell stimulation. We found that 10 of 14 in vitro antigen-specific MHC-restricted T cell clones and lines and three of four T cell hybridomas could be induced to either proliferate or secrete IL-2 in the presence of lightly irradiated (1,000 rads) purified B cells and the appropriate foreign antigen. All T cell lines and hybridomas were stimulated to proliferate or make IL-2 by macrophage- and dendritic cell-enriched populations and all T cells tested except one hybridoma caused B cell activation when stimulated with B cells as APC. Furthermore, lightly irradiated, highly purified syngeneic B cells were as potent a source of APC for inducing B cell activation as were low density dendritic and macrophage-enriched cells. Lymph node T cells freshly taken from antigen-primed animals were also found to proliferate when cultured with purified B cells and the appropriate antigen. Thus, small resting B cells can function as APC to a variety of T cells. This APC function was easily measured when the cells were irradiated with 1,000 rads, but was greatly diminished or absent when they were irradiated with 3,300 rads. Thus, the failure of some other laboratories to observe this phenomenon may be the result of the relative radiosensitivity of the antigen-presenting function of the B cells. In addition, this radiosensitivity allowed us to easily distinguish B cell antigen presentation from presentation by the dendritic cell and macrophage, as the latter was resistant to 3,300 rads. Finally, one T cell clone that failed to proliferate when B cells were used as APC was able to recruit allogeneic B cells to proliferate in the presence of syngeneic B cells and the appropriate antigen. This result suggests that there are at least two distinct pathways of activation in T cells, one that leads to T cell proliferation and one that leads to the secretion of B cell recruitment factor(s).

Gene Targeting of RhoA Reveals Its Essential Role In Lymphopoiesis

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 282-282
Author(s):  
Shuangmin Zhang ◽  
Yi Zheng ◽  
Richard Lang ◽  
Fukun Guo
Keyword(s):  
T Cells ◽  
T Cell ◽  
B Cells ◽  
B Cell ◽  
Cell Development ◽  
B Cell Development ◽  
Brdu Incorporation ◽  
Hematopoietic Stem ◽  
Cell Functions

Abstract Abstract 282 RhoA GTPase is an intracellular signal transducer capable of regulating a wide range of cell functions including cytoskeleton dynamics, proliferation, and survival. In lymphocytes, studies by using dominant negative mutant or C3 transferase expressing transgenic mice suggest that RhoA is involved in TCR and BCR signaling and related T cell functions such as polarization, migration, survival, and proliferation. To date, the physiological role of RhoA in lymphocyte development remains unclear. In this study, we have achieved T cell, B cell, and hematopoietic stem cell-specific deletion of RhoA by conditional gene targeting with CD2, CD19 and Mx1 promoter-driven Cre expression, respectively, in the RhoAloxP/loxP mice. First, we found that RhoA gene disruption in early T cells caused a drastic decrease in thymocyte cellularity, with the numbers of CD4−CD8− double negative (DN), CD4+CD8+ double positive (DP), CD4+CD8− single positive (SP), and CD4−CD8+ SP T cells decreased by 88.8% ± 6.0%, 99.4% ± 1.0%, 99.3% ± 1.2%, and 98.6% ± 2.0%, respectively. Among DN subpopulations, CD44+CD25− (DN1), CD44+CD25+ (DN2), CD44−CD25+ (DN3), and CD44−CD25− (DN4) cells were reduced by 91.7% ± 6.0%, 54.9% ± 27.7%, 50.9% ± 33.3%, and 96.7% ± 3.4%, respectively. Further, RhoA knockout led to a significant loss of DP thymocytes at the initial stage (CD69highTCRint) of positive selection, suggesting that RhoA is required for positive selection. The decreased thymocyte cellularity in mutant mice is associated with increased apoptosis of all thymic T lineages. RhoA deficiency also resulted in a perturbation in thymocyte cell cycle progression as manifested by increased BrdU incorporation in DN1 and DN2 cells and decreased BrdU incorporation in DN4 and DP cells. Concomitantly, RhoA-deficient thymocytes showed a 59.8% ± 26.3% reduction in proliferative potential in response to TCR crosslinking. Western blot analysis revealed that the activities of ZAP70, LAT, Akt, Erk, and p38 were impaired in RhoA-/- thymocytes. In periphery, spleens of the RhoA null mice contained 7.4% ± 8.0% of CD4+ T cells and 3.7% ± 2.7% of CD8+ T cells compared with that of wild type (WT) mice. Loss of peripheral mature T cells in mutant mice is reflected by a marked reduction of naive T cells, whereas effector and memory phenotype cells were marginally affected by RhoA deficiency. RhoA-deficient naïve T cells were more susceptible to apoptosis, suggesting that homeostatic defect of naïve T cells in RhoA-/- mice is attributed to impaired cell survival. Abrogation of RhoA caused an increased in vivo BrdU incorporation in naïve T cell compartments. Thus, RhoA deficiency induces naïve T cell homeostatic proliferation, possibly due to a compensatory effect of lymphopenia. In contrast to that in thymocytes, Erk was constitutively activated in RhoA-deficient splenic T cells. These observations implicate RhoA in the multiple stages of T cell development and the proper assembly of early TCR signaling complex. Second, deletion of RhoA in pre-proB cells had no effect on early B cell development in bone marrow but significantly inhibited late B cell development in spleen, resulting in 78.2% ± 13.6%, 78.6% ± 16.9%, and 93.2% ± 3.4% reduction in transitional, follicular, and marginal zone B cells, respectively. Plasma cells in spleen were decreased by 50.9 % ± 25.9% in RhoA null mice. However, we did not detect any changes in survival of in vivo RhoA-/- B cells or RhoA-/- B cells cultured in vitro with survival factor BAFF. Distinct from previously characterized Cdc42 knockout mice, BAFF-R expression was not altered in RhoA-/- B cells. Moreover, RhoA-/- B cells appeared to be normal in proliferation and Akt and Erk activation in response to BCR crosslinking. These data suggest that RhoA is important for late B cell development through regulation of differentiation but not cell survival or proliferation. Finally, deletion of RhoA from hematopoietic stem cells did not affect common lymphoid progenitor production, indicating that RhoA is not required for early lymphoid progenitor commitment. Taken together, these lineage-specific mouse genetic studies demonstrate that RhoA critically regulates T and B cell development by distinct cellular mechanisms at multiple stages of lymphopoiesis. Disclosures: No relevant conflicts of interest to declare.

Chronic Lymphocytic Leukemia Cells Acquire a Regulatory B-Cell Phenotype Modified By PD1 Signaling

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 3319-3319 ◽  
Author(s):  
Shimrit Ringelstein-Harlev ◽  
Irit Avivi ◽  
Shoham Shivtiel-Arad ◽  
Tami Katz
Keyword(s):  
Cell Proliferation ◽  
T Cells ◽  
T Cell ◽  
B Cells ◽  
Immune Responses ◽  
B Cell ◽  
Immune Modulation ◽  
Lymphocytic Leukemia ◽  
T Cell Proliferation ◽  
Cell Contact

Abstract Introduction: Chronic lymphocytic leukemia (CLL) cells utilize several mechanisms of survival, some propagating proliferation and preventing apoptosis through intrinsic cell cycle signals, and others suppressing anti-tumor immune responses. Patients often present with a predominant population of regulatory T-cells (Tregs), and general features of T-cell exhaustion. Given the unique phenotype of CLL cells and the observed T-cell abnormalities we hypothesized that these cells function as regulatory B-cells (Bregs). Bregs, mostly explored in the autoimmune disease setting, produce interleukin-10 (IL10), which mediates attenuation of effector T-cell responses and enhances regulatory activity. These features have also been suggested to be responsible for weakening of anti-tumor immune responses. Breg activation requires stimulation of various combinations of Toll-like receptors (TLRs), the B-cell receptor (BCR) and CD40. Our previous studies have demonstrated that TLR9-stimulated CLL cells "acquire" Breg markers as well as PD1 and PDL1, which, while not being classic Breg discriminators, are established players in immune modulation. Moreover, such stimulation resulted in inhibition of proliferation of autologous T-cells. The current study aimed to further explore the regulatory characteristics of CLL cells focusing on additional suppressive mechanisms that may have a role in CLL immune evasion, particularly, the PD1/PDL1 axis. Methods: B-cells were isolated from peripheral blood mononuclear cells (PBMCs) of untreated CLL patients (Rai stages 0-IV). These B-CLL cells were stimulated with TLR-9 agonist (ODN) or CD40 ligand (CD40L) followed by their co-culture with isolated autologous CD4+ T cells. The regulatory features of B-CLL cells were studied by testing their effect on T cells. Their proliferation was evaluated using the CFSE method following stimulation with anti-CD3/CD28 antibodies and IL2; induction of Tregs (CD4+CD25highFoxp3+ population) was assessed by FACS analysis. The involvement of the PD1/PDL1 axis was examined by incubating B-cells with antiPD1 neutralizing antibodies prior to co-culture. Cell contact dependence was evaluated by plating B-cells in hanging cell culture inserts denying B and T cell contact while allowing flow of small soluble molecules. Results: CLL cells stimulated with ODN or CD40L, induced a significant increase in Tregs: 1.35±0.1-fold (p=0.03, N=12) for ODN and 1.7±0.2-fold (p=0.008, N=14) for CD40L, occurring in 68% and 80% of patients, respectively, while co-culture with unstimulated B-CLL cells did not result in the expansion of the Treg population. Treg induction was observed only under contact conditions (N=5), suggesting that this regulatory function requires cell-to-cell contact and cannot be carried out solely by secreted factors like IL10. Neutralization of PD1 on CLL B-cells affects both Treg induction and T-cell proliferation. Following CD40L stimulation, a 1.3-fold reduction in Treg percentage was observed when PD1 signaling was blunted (N=10). In contrast, PD1 blockage of ODN-stimulated CLL cells did not reduce Treg induction; however, it did adversely affect inhibition of T-cell proliferation (10%-decrease in inhibited T-cells; N=6). Conclusions: CLL cells "acquire" a Breg phenotype and function, inhibiting T-cell proliferation and inducing Tregs. These properties, while working together to promote immune regulation and cancer evasion, are elicited by different ligands in the cell environment and are likely to be mediated via separate pathways. The involvement of B-cell-associated PD1 in the induction of Tregs and inhibition of T-cell proliferation suggests a biologic role of PD1 signaling in CLL cells, strengthening the Breg phenotype. The current study has shown that CLL cells recruit several mechanisms operating cooperatively to support immune modulation and promote their survival. Disclosures No relevant conflicts of interest to declare.

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