Inhibition of Dendritic Cell Activation and Modulation of T Cell Polarization by the Platelet Secretome.

Platelet transfusions are a frequently administered therapy for especially hemato-oncological patients with thrombocytopenia. Next to their primary function in hemostasis, currently there is increased attention for the capacity of platelets to affect the function of various cells of the immune system. Here, we investigate the capacity of platelets to immuno-modulate monocyte-derived dendritic cells (moDC) as well as primary dendritic cells and effects on subsequent T cell responses.

Adaptation to replating of dendritic cells synergizes with Toll-like receptor stimuli and enhances the pro-inflammatory cytokine profile.

Background: As initiators of the adaptive immune response, dendritic cells (DCs) can be used for anti-cancer immunotherapy. On addition of proper maturation stimuli DCs mature and produce pro-inflammatory cytokines that skew T cells in the direction needed for anti-cancer therapy. Further optimization of DC maturation might improve the efficacy of DCs for clinical application.

Comparison of media and serum supplementation for generation of monophosphoryl lipid A/interferon-γ-matured type I dendritic cells for immunotherapy.

Background Aims: Ex vivo-generated monocyte-derived dendritic cells (DCs) matured with monophosphoryl lipid A (MPLA) and interferon-γ (IFN-γ) can be used as cancer immunotherapy. MPLA/IFN-γ DCs induce Th1 T cell responses and have migratory capacity. Different culture regimens have been used for generation of immunotherapeutic DCs, with varying results.

TLR4-mediated pro-inflammatory dendritic cell differentiation in humans requires the combined action of MyD88 and TRIF.

TLR4 ligation can activate both the MyD88 and the Toll-IL-1 receptor domain-containing adaptor inducing IFN-β (TRIF) signaling route. Whereas MyD88 is generally recognized as a universal adaptor for pro-inflammatory responses, TRIF is mainly thought to contribute to specific type I IFN responses. Here, we investigated the contribution of both MyD88 and TRIF to TLR4-mediated pro-inflammatory dendritic cell (DC) differentiation in human.

Crosstalk between Toll like receptors and C5a receptor in human monocyte derived DCs suppress inflammatory cytokine production.

The complement anaphylatoxin, C5a has been implicated in regulation of adaptive immune responses through modulation of APC function as shown mainly in studies in mice. C5a was shown to enhance cytokine production in immature DCs, but the effect of C5a on DC function during DC activation has not been elucidated in human. In this study we investigated the effect of C5a on human monocyte derived DCs when simultaneously stimulated with TLR ligands.

Monophosphoryl lipid A plus IFNgamma maturation of dendritic cells induces antigen-specific CD8+ cytotoxic T cells with high cytolytic potential.

Dendritic cells (DCs) are promising antigen presenting cells for cancer treatment. Previously, we showed that the combination of monophosphoryl lipid A (MPLA) with IFNgamma generates mature DCs that produce IL-12 and polarize CD4(+) T cells towards a Th1 phenotype. Here, we extended these observations by showing that the DCs generated with the clinical grade maturation cocktail of MPLA/IFNgamma induce superior tumour antigen-specific CD8(+) CTL responses compared to the cytokine cocktail matured DCs that are currently used in the clinic.

Direct ex vivo detection of HLA-DR3-restricted cytomegalovirus- and Mycobacterium tuberculosis-specific CD4+ T cells.

In order to detect epitope-specific CD4+ T cells in mycobacterial or viral infections in the context of human class II major histocompatibility complex protein human leukocyte antigen (HLA)-DR3, two HLA-DR3 tetrameric molecules were successfully produced. One contained an immunodominant HLA-DR3-restricted T-cell epitope derived from the 65-kDa heat-shock protein of Mycobacterium tuberculosis, peptide 1-13. For the other tetramer, we used an HLA-DR3-restricted T-cell epitope derived from cytomegalovirus (CMV) pp65 lower matrix protein, peptide 510-522, which induced high levels of interferon (IFN)-gamma-producing CD4+ T cells in three of four HLA-DR3-positive CMV-seropositive individuals up to 0.

CTL escape and increased viremia irrespective of HIV-specific CD4+ T-helper responses in two HIV-infected individuals.

We investigated whether development of mutations leads to loss of CD8 T-cell recognition in HIV-1 infection and is possibly linked to alterations in HIV-1-specific CD4(+) T-cell responses in 2 HIV-infected individuals. In patient, H434 full genome sequencing of HIV-1 biological clones at early and late time points during disease progression showed development of fixed mutations in 16 predicted HIV-specific CTL epitopes. Loss of T-cell recognition and reactivity against wild-type and mutant epitopes was observed primarily for the HLA-B27-restricted KK10 epitope and HLA-A2-restricted SL9 epitope.

Targeting primary human Ph(+) B-cell precursor leukemia-engrafted SCID mice using radiolabeled anti-CD19 monoclonal antibodies.

Unlabelled: The Philadelphia chromosome translocation (Ph(+)) confers a poor prognosis in patients with acute lymphocytic leukemia (ALL). CD19 is highly expressed (CD19(+)) on ALL cells and is an attractive target for antibody-based therapies. CLB-CD19 is an IgG1kappa murine monoclonal antibody (mAb) directed against an epitope on the CD19 antigen.

Expression of the murine CD27 ligand CD70 in vitro and in vivo.

The interaction between TNFR family member CD27 and its ligand CD70 promotes lymphocyte expansion and effector cell formation. In humans, control of CD27 function is partly regulated by the restricted expression of CD70. We used newly developed mAbs to characterize murine (m) CD70 expression in vitro and in vivo.

Lethal T cell immunodeficiency induced by chronic costimulation via CD27-CD70 interactions.

It has been proposed that HIV-1, in addition to directly infecting and killing CD4+ T cells, causes T cell dysfunction and T cell loss by chronic immune activation. We analyzed the effects of chronic immune activation in mice that constitutively expressed CD70, the ligand for the tumor necrosis factor receptor family member CD27, on B cells. CD70 transgenic (CD70 Tg) mice showed a progressive conversion of naive T cells into effector-memory cells, which culminated in the depletion of naive T cells from lymph nodes and spleen.

Constitutive CD27/CD70 interaction induces expansion of effector-type T cells and results in IFNgamma-mediated B cell depletion.

The interaction between the TNF receptor family member CD27 and its ligand CD70 provides a costimulatory signal for T cell expansion. Normally, tightly regulated expression of CD70 ensures the transient availability of this costimulatory signal. Mice expressing constitutive CD70 on B cells had higher peripheral T cell numbers that showed increased differentiation toward effector-type T cells.

Aberrant expression and reverse signalling of CD70 on malignant B cells.

In normal lymphoid tissues the tumour necrosis factor-receptor family member CD27 and its ligand CD70 have a restricted expression pattern. Previously, we reported that expression of CD27 is deregulated in B-cell leukaemias and lymphomas. Here we show that, although infrequently expressed by normal human B cells in vivo, CD70 is found on 50% of B-CLLs, 33% of follicle centre lymphomas, 71% of large B-cell lymphomas, and 25% of mantle cell lymphomas.

Characterization of murine CD70, the ligand of the TNF receptor family member CD27.

Human CD70 (CD27 ligand) is a type II transmembrane glycoprotein belonging to the TNF family. The protein is not expressed on resting lymphocytes, but is rapidly induced on these cells after cellular activation. Importantly, interaction of CD70 with its receptor CD27 gives a costimulatory signal for lymphocyte activation.

Antigen receptor function in chronic lymphocytic leukemia B cells.

Functional studies revealed that two groups of B chronic lymphocytic leukemia (B-CLL) can be distinguished based on their capacity to mount a proliferative response following B-cell antigen receptor (BCR) cross-linking. The molecular basis for the functional distinction between these B-CLL groups most probably resides within or proximal to the BCR since non-responsive B-CLL, in marked contrast to responsive B-CLL, do not respond to BCR ligation with tyrosine phosphorylation of cellular substrates and increases in the free intracellular [Ca++]. Detailed biochemical analysis showed overall structural identity between responsive and non-responsive B-CLL with respect to both transmembrane and intracellular associates of the BCR complex.

Alteration of B-cell antigen receptor signaling by CD19 co-ligation. A study with bispecific antibodies.

The activation of B-cell antigen receptor-associated protein tyrosine kinases is an early and crucial event in B-cell signaling. Apart from the B-cell antigen receptor (BCR), the B-cell-specific transmembrane glycoprotein CD19 has also been shown to directly activate intracellular signaling cascades. In addition, because CD19 and the BCR are associated on the surface of activated B-cells, it has been proposed that close approximation between these two entities is crucial for optimal B-cell triggering.

The seven-span transmembrane receptor CD97 has a cellular ligand (CD55, DAF).

CD97 is an activation-induced antigen on leukocytes with a seven-span transmembrane (7-TM) region homologous to the secretin receptor superfamily. However, in contrast to this group of peptide hormone receptors, CD97 has an extended extracellular region with three EGF domains at the NH2 terminus, two of them with a calcium binding site. By demonstrating that lymphocytes and erythrocytes specifically adhere to CD97-transfected COS cells we here show that CD97 in parallel with its molecular evolution has acquired the ability to bind cellular ligands.

Hematopoietic cell phosphatase is recruited to CD22 following B cell antigen receptor ligation.

Hematopoietic cell phosphatase is a nonreceptor protein tyrosine phosphatase that is preferentially expressed in hematopoietic cell lineages. Motheaten mice, which are devoid of (functional) hematopoietic cell phosphatase, have severe disturbances in the regulation of B cell activation and differentiation. Because signals transduced via the B cell antigen receptor are known to guide these processes, we decided to analyze molecular interactions between the hematopoietic cell phosphatase and the B cell antigen receptor.

Antigen receptor nonresponsiveness in chronic lymphocytic leukemia B cells.

B chronic lymphocytic leukemia (B-CLL) are clonal populations of mIgM+ or mIgM+/mIgD+ CD5+ B cells that appear to be arrested in the follicular mantle-zone B-cell stage. Functional analyses have shown two groups of B-CLL that can be distinguished based on their capacity to proliferate in response to B-cell antigen receptor complex (BCR) cross-linking. To investigate the molecular basis for this phenomenon, we have analyzed both architecture and functional properties of BCR complexes on these two groups of B-CLL.

B cell antigen receptor cross-linking induces tyrosine phosphorylation and membrane translocation of a multimeric Shc complex that is augmented by CD19 co-ligation.

The SH2 domain-containing transforming Shc protein has been implicated in mitogenic signaling via several surface receptors through p21ras. Following tyrosine phosphorylation by either receptor or non-receptor tyrosine kinases, Shc may interact with the adaptor protein Grb2, which is linked to Sos1, a guanine nucleotide exchange factor for human ras. Ligation of the antigen receptor complex on B cells (BCR) is known to activate various intracellular signaling pathways, which may accumulate in mitogenic responses.

CD5 is associated with the human B cell antigen receptor complex.

On human B cells the antigen receptor complex is composed of the membrane form of the immunoglobulin molecule and the non-covalently associated Ig alpha/beta heterodimer. A small subpopulation of normal B cells and chronic lymphocytic leukemia B cells express (analogous to T cells) the transmembrane molecule CD5, a counterstructure of B cell-specific CD72. Numbers of CD5+ B cells are increased in several physiological and pathological conditions.

Evidence for a direct physical interaction of membrane IgM, IgD, and IgG with the B29 gene product.

The B cell Ag-receptor complex is composed of membrane immunoglobulin (mIg) and the mb-1/B29 heterodimer. In order to obtain insight into the architecture of the B cell receptor complex, we have looked for conditions that disrupt all disulfide bridges in the complex without affecting the noncovalent interaction between the mIg heavy chain and one or both members of the associated heterodimer. We show that in the presence of the reducing agent beta-mercaptoethanol the m mu, m delta, and m gamma heavy chains remain selectively associated with the B29 members.

Surface expression of immunoglobulin isotypes on primary human B cells: no evidence for glycosyl-phosphatidylinositol linkage.

Surface expression of membrane(m) IgM molecules requires the association of two disulphide-linked transmembrane (TM) glycoproteins, encoded by the B-cell-specific genes mb-1 and B29. We have shown that mIgM, mIgD and mIgG are associated with structurally related heterodimers on primary human B cells. Transfection studies in murine plasmacytoma cells, however, have demonstrated mb-1-independent expression of both mIgD and mIgG.

The CR2/CD19 complex on human B cells contains the src-family kinase Lyn.

The complement receptor 2 (CR2 or CD21) can be found in non-covalent association with the B lymphocyte specific CD19 complex at the surface of mature human B cells. Upon ligation of the B cell antigen receptor complex (BCR), members of the CR2-CD19 complex may associate with membrane immunoglobulin (mlg). Moreover, CD19 and CD21 ligands, either murine mAb, C3d fragments or Epstein-Barr virus, are known to have profound effects on B cell activation.

Comparison of human B cell antigen receptor complexes: membrane-expressed forms of immunoglobulin (Ig)M, IgD, and IgG are associated with structurally related heterodimers.

We have recently reported that on human B lymphocytes, membrane IgM (mIgM) associates with a heterodimer of 47- and 37-kD polypeptides, the 47-kD subunit being encoded by the mb-1 gene. We show here that expression of mb-1, both at the mRNA and the protein level, is not restricted to IgM+ B cells but can also be found in IgM- pre-B cells and mIgM-IgG+ B cells. Membrane forms of IgD and IgG, isolated from freshly isolated human B cells and B cell lines, are expressed together with heterodimeric protein structures biochemically similar to the mIgM-associated polypeptides, and these were shown to comprise the products of the mb-1 and B29 genes, or homologous genes.