scholarly journals WASP confers selective advantage for specific hematopoietic cell populations and serves a unique role in marginal zone B-cell homeostasis and function

Blood ◽  
2008 ◽  
Vol 112 (10) ◽  
pp. 4139-4147 ◽  
Author(s):  
Lisa S. Westerberg ◽  
Miguel A. de la Fuente ◽  
Fredrik Wermeling ◽  
Hans D. Ochs ◽  
Mikael C. I. Karlsson ◽  
...  

Abstract Development of hematopoietic cells depends on a dynamic actin cytoskeleton. Here we demonstrate that expression of the cytoskeletal regulator WASP, mutated in the Wiskott-Aldrich syndrome, provides selective advantage for the development of naturally occurring regulatory T cells, natural killer T cells, CD4+ and CD8+ T lymphocytes, marginal zone (MZ) B cells, MZ macrophages, and platelets. To define the relative contribution of MZ B cells and MZ macrophages for MZ development, we generated wild-type and WASP-deficient bone marrow chimeric mice, with full restoration of the MZ. However, even in the presence of MZ macrophages, only 10% of MZ B cells were of WASP-deficient origin. We show that WASP-deficient MZ B cells hyperproliferate in vivo and fail to respond to sphingosine-1-phosphate, a crucial chemoattractant for MZ B-cell positioning. Abnormalities of the MZ compartment in WASP−/− mice lead to aberrant uptake of Staphylococcus aureus and to a reduced immune response to TNP-Ficoll. Moreover, WASP-deficient mice have increased levels of “natural” IgM antibodies. Our findings reveal that WASP regulates both development and function of hematopoietic cells. We demonstrate that WASP deficiency leads to an aberrant MZ that may affect responses to blood-borne pathogens and peripheral B-cell tolerance.

2010 ◽  
Vol 84 (20) ◽  
pp. 10653-10660 ◽  
Author(s):  
Sang-Hoon Sin ◽  
Farnaz D. Fakhari ◽  
Dirk P. Dittmer

ABSTRACT Gammaherpesviruses, including Kaposi sarcoma-associated herpesvirus (KSHV), establish latency in B cells. We hypothesized that the KSHV latency-associated nuclear antigen (LANA/orf73) provides a selective advantage to infected B cells by driving proliferation in response to antigen. To test this, we used LANA B-cell transgenic mice. Eight days after immunization with antigen without adjuvant, LANA mice had significantly more activated germinal center (GC) B cells (CD19+ PNA+ CD71+) than controls. This was dependent upon B-cell receptor since LANA did not restore the GC defect of CD19 knockout mice. However, LANA was able to restore the marginal zone defect in CD19 knockout mice.


Blood ◽  
2012 ◽  
Vol 119 (17) ◽  
pp. 3966-3974 ◽  
Author(s):  
Lisa S. Westerberg ◽  
Carin Dahlberg ◽  
Marisa Baptista ◽  
Christopher J. Moran ◽  
Cynthia Detre ◽  
...  

Abstract The Wiskott-Aldrich syndrome protein (WASP) is a key cytoskeletal regulator of hematopoietic cells. Although WASP-knockout (WKO) mice have aberrant B-cell cytoskeletal responses, B-cell development is relatively normal. We hypothesized that N-WASP, a ubiquitously expressed homolog of WASP, may serve some redundant functions with WASP in B cells. In the present study, we generated mice lacking WASP and N-WASP in B cells (conditional double knockout [cDKO] B cells) and show that cDKO mice had decreased numbers of follicular and marginal zone B cells in the spleen. Receptor-induced activation of cDKO B cells led to normal proliferation but a marked reduction of spreading compared with wild-type and WKO B cells. Whereas WKO B cells showed decreased migration in vitro and homing in vivo compared with wild-type cells, cDKO B cells showed an even more pronounced decrease in the migratory response in vivo. After injection of 2,4,6-trinitrophenol (TNP)–Ficoll, cDKO B cells had reduced antigen uptake in the splenic marginal zone. Despite high basal serum IgM, cDKO mice mounted a reduced immune response to the T cell–independent antigen TNP-Ficoll and to the T cell–dependent antigen TNP–keyhole limpet hemocyanin. Our results reveal that the combined activity of WASP and N-WASP is required for peripheral B-cell development and function.


Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 366-366 ◽  
Author(s):  
Lili Wang ◽  
Rutendo Gambe ◽  
Jean Fan ◽  
Youzhong Wan ◽  
Angela N Brooks ◽  
...  

Abstract Mutations in the RNA splicing factor SF3B1 have been identified by large-scale sequencing as putative drivers in chronic lymphocytic leukemia (CLL), but their precise roles in the pathogenesis of CLL remains unknown. Although prior transcriptomic studies using primary CLL samples have led to the appreciation of altered RNA splicing in association with these mutations, understanding of their impact on cellular function has been complicated by their variable mutant allele frequency across samples as well as their common co-occurrence with other heterogeneous gene mutations. We therefore generated a mouse line that conditionally expresses the commonly occurring Sf3b1-K700E mutation at its endogenous murine locus. We obtained B-cell lineage specific expression of the mutant allele by crossing heterozygous floxed Sf3b1-K700E mice with homozygous CD19-Cre knockin mice. We confirmed that expression of the mutant allele was uniquely present as a heterozygous mutation in B cells, but not in other cell lineages. We sought to characterize the impact of Sf3b1-K700E on RNA splicing, B cell function, and CLL in this in vivo model. By unbiased RNA-sequencing of splenic B cells from wildtype and mutant mice (n=3), we profiled the splice isoform changes that were associated with Sf3b1-K700E. Using the tool JuncBASE, we detected, classified and quantified 54 differentially spliced transcripts (P<0.05, absolute delta percent spliced in >10%). Consistent with the altered splicing pattern reported in human CLL samples, the splice variants in our mouse model were highly enriched with altered selection of 3' splice sites (49 of 54 events, P<0.001). Of these, we validated 3 selected splice variants in independent samples by qPCR. Our murine model of Sf3b1-K700E mutation thus recapitulates altered RNA splicing, as per in human disease. We therefore next investigated whether Sf3b1-K700E affects B cell development and function. Splenic B cell numbers were significantly lower in the mutant (n=37) compared to control (n=33, P=0.0027) mice while T cell numbers were equivalent. Flow cytometric analysis of various B cell subpopulations from bone marrow and spleen revealed a significant increase in marginal zone B cells in the mutant mice (n=6, P<0.01). Consistent with this finding, we observed evidence of enlarged marginal zone areas on sections of mutant mouse spleens by visual inspection, with a mean reduction by 25% of proliferating germinal centers (per Ki67+ staining, n=6, average, P<0.05). On average, in vitro culture of splenic B cells with LPS and IL4 revealed mutant B cells to undergo 10-15% less proliferation, with reduced survival upon stimulation. Moreover, serum analysis revealed a 30-45% reduction in production of IgG1 and IgG3 from mutant mice (n=8, P<0.05). Altogether, these results suggest that mutant Sf3b1 induces an intrinsic B cell defect leading preferentially to impaired cellular proliferation. Cellular senescence has been commonly detected in pre-malignant lesions and is related to impaired cell proliferation. Indeed, by quantitative PCR array of 84 genes associated with cellular senescence, we found comparable levels of expression of all genes in T cells from wildtype and mutant splenocytes, but an overall trend of upregulation (range: by 1.5- to 21-fold) in the entire set of 84 genes in mutant B splenocytes, with significant upregulation in 20 genes (n=5, P<0.05). These genes included the critical senescence regulators Cdkn2a (p16) and Cdkn1a (p21), whose elevated expression in Sf3b1 mutated B cells we confirmed at the protein level. Furthermore, we detected increased levels of the cellular senescence mediators Igfbp6 and Igfbp7 in the sera from mutant mice (n=31, P<0.05). Collectively, the data demonstrate that expression of Sf3b1-K700E in B cells leads to the cellular senescent phenotype. While we observed that expression of Sf3b1-K700E results in RNA splicing changes, B cell developmental dysregulation and cellular senescence, expression of this mutation alone did not lead to expansion of CD5+CD19+ cells in vivo over time, despite observations up to 18-months (n=50). Our ongoing studies are now focused on the combined effects of Sf3b1-K700E and other recurrent CLL mutations on evasion of senescence and CLL disease progression. Disclosures No relevant conflicts of interest to declare.


2022 ◽  
Vol 11 (1) ◽  
pp. 270
Author(s):  
Martina Hinterleitner ◽  
Clemens Hinterleitner ◽  
Elke Malenke ◽  
Birgit Federmann ◽  
Ursula Holzer ◽  
...  

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.


Blood ◽  
2007 ◽  
Vol 109 (9) ◽  
pp. 3839-3848 ◽  
Author(s):  
Yan Li ◽  
Gianluca Toraldo ◽  
Aimin Li ◽  
Xiaoying Yang ◽  
Hongying Zhang ◽  
...  

Abstract Bone homeostasis is regulated by a delicate balance between osteoblastic bone formation and osteoclastic bone resorption. Osteoclastogenesis is controlled by the ratio of receptor activator of NF-κB ligand (RANKL) relative to its decoy receptor, osteoprotegerin (OPG). The source of OPG has historically been attributed to osteoblasts (OBs). While activated lymphocytes play established roles in pathological bone destruction, no role for lymphocytes in basal bone homeostasis in vivo has been described. Using immunomagnetic isolation of bone marrow (BM) B cells and B-cell precursor populations and quantitation of their OPG production by enzyme-linked immunosorbent assay (ELISA) and real-time reverse transcriptase–polymerase chain reaction (RT-PCR), cells of the B lineage were found to be responsible for 64% of total BM OPG production, with 45% derived from mature B cells. Consistently B-cell knockout (KO) mice were found to be osteoporotic and deficient in BM OPG, phenomena rescued by B-cell reconstitution. Furthermore, T cells, through CD40 ligand (CD40L) to CD40 costimulation, promote OPG production by B cells in vivo. Consequently, T-cell–deficient nude mice, CD40 KO mice, and CD40L KO mice display osteoporosis and diminished BM OPG production. Our data suggest that lymphocytes are essential stabilizers of basal bone turnover and critical regulators of peak bone mass in vivo.


Blood ◽  
2002 ◽  
Vol 99 (1) ◽  
pp. 388-390 ◽  
Author(s):  
Thierry Bonnefoix ◽  
Jian-Qing Mi ◽  
Pascal Perron ◽  
Mary Callanan ◽  
Cosima Semoun ◽  
...  

Antibodies ◽  
2019 ◽  
Vol 8 (4) ◽  
pp. 50
Author(s):  
Kim Doyon-Laliberté ◽  
Josiane Chagnon-Choquet ◽  
Michelle Byrns ◽  
Matheus Aranguren ◽  
Meriam Memmi ◽  
...  

We have previously characterized a human blood CD19+CD1c+IgM+CD27+CD21loCD10+ innate-like B-cell population, which presents features shared by both transitional immature and marginal zone (MZ) B-cells, named herein “precursor-like” MZ B-cells. B-cells with similar attributes have been associated with regulatory potential (Breg). In order to clarify this issue and better characterize this population, we have proceeded to RNA-Seq transcriptome profiling of mature MZ and precursor-like MZ B-cells taken from the blood of healthy donors. We report that ex vivo mature MZ and precursor-like MZ B-cells express transcripts for the immunoregulatory marker CD83 and nuclear receptors NR4A1, 2, and 3, known to be associated with T-cell regulatory (Treg) maintenance and function. Breg associated markers such as CD39 and CD73 were also expressed by both populations. We also show that human blood and tonsillar precursor-like MZ B-cells were the main B-cell population to express elevated levels of CD83 and NR4A1-3 proteins ex vivo and without stimulation. Sorted tonsillar precursor-like MZ B-cells exerted regulatory activity on autologous activated CD4+ T-cells, and this was affected by a CD83 blocking reagent. We believe these observations shed light on the Breg potential of MZ populations, and identify NR4A1-3 as potential Breg markers, which as for Tregs, may be involved in stabilization of a regulatory status. Since expression and activity of these molecules can be modulated therapeutically, our findings may be useful in strategies aiming at modulation of Breg responses.


1973 ◽  
Vol 138 (4) ◽  
pp. 784-797 ◽  
Author(s):  
Takeshi Yoshida ◽  
Hidekichi Sonozaki ◽  
Stanley Cohen

Stimulation of sensitized lymphocytes by specific antigen in vitro leads to the production of migration inhibition factor (MIF). In the case of the pure soluble protein, or hapten-protein antigens used in the present studies, this MIF production was a property of the T lymphocytes in the cell suspensions. When PPD was used, B cells, as well as T cells, produced MIF. Similarly, PPD could stimulate B cells to mediate the macrophage disappearance reaction, a reaction which is known to be a T cell-dependent in vivo manifestation of cell-mediated immunity. Suspensions of lymphocytes from nonimmune donors could also be stimulated by PPD; in this case, B cells, but not T cells, produced MIF. The factors produced by the two lymphocyte subpopulations appeared to be similar, if not identical, on the basis of physico-chemical criteria. It is suggested that PPD stimulates B cells for MIF production because of its role as a B cell mitogen. The ability of endotoxin lipopolysaccharide, another B cell mitogen, to also induce MIF production by B cells supports this contention. Thus, although activation of lymphocytes for MIF production by specific antigen is a property of T cells, B cells as well as T cells may be so activated by agents which act nonspecifically. This may prove to have implications for in vivo events involved in immunization. In addition, these observations lend further support to the concept that lymphokine production represents a general biologic phenomenon in addition to playing a role in the effector mechanisms for reactions of cell-mediated immunity.


Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 119-119
Author(s):  
Rita Simone ◽  
Sonia Marsilio ◽  
Piers E.M. Patten ◽  
Gerardo Ferrer ◽  
Shih-Shih Chen ◽  
...  

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.


2000 ◽  
Vol 191 (1) ◽  
pp. 77-88 ◽  
Author(s):  
R.A. Warnock ◽  
J.J. Campbell ◽  
M.E. Dorf ◽  
A. Matsuzawa ◽  
L.M. McEvoy ◽  
...  

Chemokines have been hypothesized to contribute to the selectivity of lymphocyte trafficking not only as chemoattractants, but also by triggering integrin-dependent sticking (arrest) of circulating lymphocytes at venular sites of extravasation. We show that T cells roll on most Peyer's patch high endothelial venules (PP-HEVs), but preferentially arrest in segments displaying high levels of luminal secondary lymphoid tissue chemokine (SLC) (6Ckine, Exodus-2, thymus-derived chemotactic agent 4 [TCA-4]). This arrest is selectively inhibited by functional deletion (desensitization) of CC chemokine receptor 7 (CCR7), the receptor for SLC and for macrophage inflammatory protein (MIP)-3β (EBV-induced molecule 1 ligand chemokine [ELC]), and does not occur in mutant DDD/1 mice that are deficient in these CCR7 ligands. In contrast, pertussis toxin–sensitive B cell sticking does not require SLC or MIP-3β signaling, and occurs efficiently in SLClow/− HEV segments in wild-type mice, and in the SLC-negative HEVs of DDD/1 mice. Remarkably, sites of T and B cell firm adhesion are segregated in PPs, with HEVs supporting B cell accumulation concentrated in or near follicles, the target domain of most B cells entering PPs, whereas T cells preferentially accumulate in interfollicular HEVs. Our findings reveal a fundamental difference in signaling requirements for PP-HEV recognition by T and B cells, and describe an unexpected level of specialization of HEVs that may allow differential, segmental control of lymphocyte subset recruitment into functionally distinct lymphoid microenvironments in vivo.


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