技术资料

Multiple myeloma is characterized by the proliferation of clonal plasma cells that have a heterogeneous expression of various cell surface markers,precluding successful use of monoclonal antibodies for therapeutic targeting of the tumor cell. Thymoglobulin (rabbit-derived polyclonal anti-thymocyte globulin),by virtue of its method of preparation,contains antibodies against several B-cell and plasma cell antigens and offers an attractive option for immunotherapy of myeloma. Here,we demonstrate potent anti-myeloma activity of the rabbit anti-thymocyte globulin preparation Thymoglobulin in vitro and in vivo in an animal model of myeloma. Thymoglobulin was able to induce dose- and time-dependent apoptosis of several myeloma cell lines,including those resistant to conventional anti-myeloma agents. Importantly,the anti-myeloma activity was preserved even when myeloma cells were grown with different cytokines demonstrating the ability to overcome microenvironment-mediated resistance. Thymoglobulin induced apoptosis of freshly isolated primary myeloma cells from patients. Using a competitive flow cytometric analysis,we were able to identify the potential antigen targets for Thymoglobulin preparation. Finally,in a plasmacytoma mouse model of myeloma,Thymoglobulin delayed the tumor growth in a dose-dependent manner providing convincing evidence for continued evaluation of this agent in the clinic in patients with myeloma,either alone or in combination with other agents. View Publication

We report the systematic use of large-scale cDNA microarrays to study the gene expression profiles of primary human peripheral blood monocytes (MONO) in comparison with in vitro-differentiated,M-CSF-induced MONO-derived macrophages (MAC) and primary human alveolar MAC (AM),obtained by bronchoalveolar lavage from the lungs of normal volunteers. These studies revealed large-scale differences in the gene expression profile between both MAC types (MAC and AM) and MONO. In addition,large differences were observed in the gene expression profiles of the two MAC types. Specifically,21% of genes on the array (2904 out of 13,582) were differentially expressed between AM and MONO,and 2229 out of 13,583 probes were differentially expressed between MAC and AM. Our expression data show remarkable differences in gene expression between different MAC subpopulations and emphasize the heterogeneity of different MAC populations. This study underscores the need to scrutinize models of MAC biology for relevance to specific disease processes. View Publication

The chemokine RANTES (regulated upon activation normal T cell expressed and secreted) is expressed late" (3 to 5 days) after activation in T lymphocytes. In order to understand the molecular events that accompany changes in gene expression� View Publication

Depletion of CD4+CD25+ regulatory T cells (Treg) by treatment with alphaCD25 antibody synergizes with vaccination protocols to engender protective immunity in mice. The effectiveness of targeting CD25 to eliminate Treg is limited by the fact that CD25,the low-affinity interleukin-2 receptor,is up-regulated on conventional T cells. At present,foxp3 is the only product known to be exclusively expressed in Treg of mice. However,foxp3 is not expressed on the cell surface and hence cannot be targeted with antibodies. In this study,we tested the hypothesis that vaccination of mice against foxp3,a self-antigen expressed also in the thymus,is capable of stimulating foxp3-specific CTL that will cause the depletion of Treg and enhanced antitumor immunity. Vaccination of mice with foxp3 mRNA-transfected dendritic cells elicited a robust foxp3-specific CTL response and potentiated vaccine-induced protective immunity comparably with that of alphaCD25 antibody administration. In contrast to alphaCD25 antibody treatment,repeated foxp3 vaccination did not interfere with vaccine-induced protective immunity. Importantly,foxp3 vaccination led to the preferential depletion of foxp3-expressing Treg in the tumor but not in the periphery,whereas alphaCD25 antibody treatment led to depletion of Treg in both the tumor and the periphery. Targeting foxp3 by vaccination offers a specific and simpler protocol for the prolonged control of Treg that may be associated with reduced risk of autoimmunity,introducing an approach whereby specific depletion of cells is not limited to targeting products expressed on the cell surface. View Publication

Mutations in the RUNX1 gene are found at high frequencies in minimally differentiated acute myelogenous leukemia. In addition to null mutations,many of the mutations generate Runx1 DNA-binding (RDB) mutants. To determine if these mutants antagonize wild-type protein activity,cDNAs were transduced into murine bone marrow or human cord blood cells using retroviral vectors. Significantly,the RDB mutants did not act in a transdominant fashion in vivo to disrupt Runx1 activity in either T-cell or platelet development,which are highly sensitive to Runx1 dosage. However,RDB mutant expression impaired expansion and differentiation of the erythroid compartment in which Runx1 expression is normally down-regulated,showing that a RDB-independent function is incompatible with erythroid differentiation. Significantly,both bone marrow progenitors expressing RDB mutants or deficient for Runx1 showed increased replating efficiencies in vitro,accompanied by the accumulation of myeloblasts and dysplastic progenitors,but the effect was more pronounced in RDB cultures. Disruption of the interface that binds CBFbeta,an important cofactor of Runx1,did not impair RDB mutant replating activity,arguing against inactivation of Runx1 function by CBFbeta sequestration. We propose that RDB mutants antagonize Runx1 function in early progenitors by disrupting a critical balance between DNA-binding-independent and DNA-binding-dependent signaling. View Publication

Systemic lupus erythematosus (SLE) is an autoimmune/inflammatory disease characterized by autoantibody production and abnormal T cells that infiltrate tissues through not well-known mechanisms. We report that SLE T lymphocytes display increased levels of CD44,ezrin,radixin,and moesin (ERM) phosphorylation,stronger actin polymerization,higher polar cap formation,and enhanced adhesion and chemotactic migration compared with T cells from patients with rheumatoid arthritis and normal individuals. Silencing of CD44 by CD44 small interfering RNA in SLE T cells inhibited significantly their ability to adhere and migrate as did treatment with Rho kinase and actin polymerization inhibitors. Forced expression of T567D-ezrin,a phosphorylation-mimic form,enhanced remarkably the adhesion and migration rate of normal T cells. Anti-CD3/TCR autoantibodies present in SLE sera caused increased ERM phosphorylation,adhesion,and migration in normal T cells. pERM and CD44 are highly expressed in T cells infiltrating in the kidneys of patients with lupus nephritis. These data prove that increased ERM phosphorylation represents a key molecular abnormality that guides T cell adhesion and migration in SLE patients. View Publication

Ras activation is crucial for lymphocyte development and effector function. Both T and B lymphocytes contain two types of Ras activators: ubiquitously expressed SOS and specifically expressed Ras guanyl nucleotide-releasing protein (RasGRP). The need for two activators is enigmatic since both are activated following antigen receptor stimulation. In addition,RasGRP1 appears to be dominant over SOS in an unknown manner. The crystal structure of SOS provides a clue: an unusual allosteric Ras-GTP binding pocket. Here,we demonstrate that RasGRP orchestrates Ras signaling in two ways: (i) by activating Ras directly and (ii) by facilitating priming of SOS with RasGTP that binds the allosteric pocket. Priming enhances SOS' in vivo activity and creates a positive RasGTP-SOS feedback loop that functions as a rheostat for Ras activity. Without RasGRP1,initiation of this loop is impaired because SOS' catalyst is its own product (RasGTP)-hence the dominance of RasGRP1. Introduction of an active Ras-like molecule (RasV12C40) in T- and B-cell lines can substitute for RasGRP function and enhance SOS' activity via its allosteric pocket. The unusual RasGRP-SOS interplay results in sensitive and robust Ras activation that cannot be achieved with either activator alone. We hypothesize that this mechanism enables lymphocytes to maximally respond to physiologically low levels of stimulation. View Publication

RATIONALE: Excessive recruitment of polymorphonuclear leukocytes (PMNs) to the lung promotes acute lung injury (ALI). Chemokine receptors and adhesion molecules initiate leukocyte-endothelial interactions,but mediators of PMN migration through the alveolo-capillary membrane remain to be identified. p21-Activated kinase (PAK) is an effector of small GTPases and has been implicated in cell migration. OBJECTIVES: To test the role of PAK in ALI. METHODS: An inhibitory PAK peptide was used to determine the role of PAK in cytoskeletal actin polymerization,cell adhesion,and oxidative burst. PMN migration was investigated in vitro and in a murine model of lipopolysaccharide-induced lung injury. MEASUREMENTS AND MAIN RESULTS: PMN migration into lung interstitium and alveolar space was suppressed by an inhibitory PAK peptide. Neutrophils that had taken up the inhibitory PAK peptide were unable to enter the alveolar space. CXCL2/3,an important PMN chemoattractant in murine lung injury,induced PAK phosphorylation in PMNs. Blocking PAK function inhibited chemotaxis,chemokine-induced cytoskeletal actin polymerization,and adhesion-induced oxidative burst. CONCLUSIONS: We conclude that neutrophil PAK is a critical mediator of PMN migration and may be an attractive target in ALI. View Publication

Abnormal activation of B lymphocytes is a feature commonly seen in human immunodeficiency virus type 1 (HIV-1)-infected persons. However,the mechanism(s) responsible for this dysfunction is still poorly understood. Having recently shown that CD40L,the ligand for CD40,is inserted within emerging HIV-1 particles,we hypothesized that the contact between virus-anchored host CD40L and CD40 on the surface of B lymphocytes might result in the activation of this cell type. We report here that CD40L-bearing viruses,but not isogenic virions lacking host-derived CD40L,can induce immunoglobulin G and interleukin-6 production. Furthermore,such viral entities were found to induce B-cell homotypic adhesion. These effects were paralleled at the intracellular level by the nuclear translocation of the ubiquitous transcription factor NF-kappaB. The presence of host-derived CD40L within virions resulted in an increased virus attachment to B cells and a more-efficient B-cell-mediated transfer of HIV-1 to autologous CD4(+) T lymphocytes. All the above processes were independent of the virus-encoded envelope glycoproteins. Altogether,the data gathered from this series of investigations suggest that the incorporation of host-encoded CD40L in HIV-1 is likely to play a role in the B-cell abnormalities that are seen in infected individuals. View Publication

Infection with a recombinant murine-feline gammaretrovirus,MoFe2,or with the parent virus,Moloney murine leukemia virus,caused significant reduction in B-lymphoid differentiation of bone marrow at 2 to 8 weeks postinfection. The suppression was selective,in that myeloid potential was significantly increased by infection. Analysis of cell surface markers and immunoglobulin H gene rearrangements in an in vitro model demonstrated normal B-lymphoid differentiation after infection but significantly reduced viability of differentiating cells. This reduction in viability may confer a selective advantage on undifferentiated lymphoid progenitors in the bone marrow of gammaretrovirus-infected animals and thereby contribute to the establishment of a premalignant state. View Publication

Dendritic cells (DCs) act as a portal for invasion by human immunodeficiency virus type-1 (HIV-1). Here,we investigated whether virion-incorporated host cell membrane proteins can affect virus replication in DC-T-cell cocultures. Using isogenic viruses either devoid of or bearing host-derived leukocyte function-associated antigen 1 (LFA-1),we showed that HIV-1 production is augmented when LFA-1-bearing virions are used compared to that for viral entities lacking this adhesion molecule. This phenomenon was observed in immature monocyte-derived DCs (IM-MDDCs) only and not in DCs displaying a mature phenotype. The increase is not due to higher virus production in responder CD4(+) T cells but rather is linked with a more important productive infection of IM-MDDCs. We provided evidence that virus-associated host LFA-1 molecules do not affect a late event in the HIV-1 life cycle but rather exert an effect on an early step in virus replication. We demonstrated that the enhancement of productive infection of IM-MDDCs that is conferred by virus-anchored host LFA-1 involves the protein kinase A (PKA) and PKC signal transduction pathways. The biological significance of this phenomenon was established by performing experiments with virus stocks produced in primary human cells and anti-LFA-1 antibodies. Together,our results indicate that the association between some virus-bound host proteins and their natural cognate ligands can modulate de novo HIV-1 production by IM-MDDCs. Therefore,the additional interactions between virus-bound host cell membrane constituents and counter receptors on the surfaces of DCs can influence HIV-1 replication in IM-MDDC-T-cell cocultures. View Publication

Aberrant T cell responses during T cell activation and immunological synapse (IS) formation have been described in systemic lupus erythematosus (SLE). Kv1.3 potassium channels are expressed in T cells where they compartmentalize at the IS and play a key role in T cell activation by modulating Ca(2+) influx. Although Kv1.3 channels have such an important role in T cell function,their potential involvement in the etiology and progression of SLE remains unknown. This study compares the K channel phenotype and the dynamics of Kv1.3 compartmentalization in the IS of normal and SLE human T cells. IS formation was induced by 1-30 min exposure to either anti-CD3/CD28 Ab-coated beads or EBV-infected B cells. We found that although the level of Kv1.3 channel expression and their activity in SLE T cells is similar to normal resting T cells,the kinetics of Kv1.3 compartmentalization in the IS are markedly different. In healthy resting T cells,Kv1.3 channels are progressively recruited and maintained in the IS for at least 30 min from synapse formation. In contrast,SLE,but not rheumatoid arthritis,T cells show faster kinetics with maximum Kv1.3 recruitment at 1 min and movement out of the IS by 15 min after activation. These kinetics resemble preactivated healthy T cells,but the K channel phenotype of SLE T cells is identical to resting T cells,where Kv1.3 constitutes the dominant K conductance. The defective temporal and spatial Kv1.3 distribution that we observed may contribute to the abnormal functions of SLE T cells. View Publication