技术资料

We analyzed 21 children with leukemia receiving haploidentical hematopoietic stem cell transplantation (haplo-HSCT) from killer immunoglobulin (Ig)-like receptors (KIR) ligand-mismatched donors. We showed that,in most transplantation patients,variable proportions of donor-derived alloreactive natural killer (NK) cells displaying anti-leukemia activity were generated and maintained even late after transplantation. This was assessed through analysis of donor KIR genotype,as well as through phenotypic and functional analyses of NK cells,both at the polyclonal and clonal level. Donor-derived KIR2DL1(+) NK cells isolated from the recipient displayed the expected capability of selectively killing C1/C1 target cells,including patient leukemia blasts. Differently,KIR2DL2/3(+) NK cells displayed poor alloreactivity against leukemia cells carrying human leukocyte antigen (HLA) alleles belonging to C2 group. Unexpectedly,this was due to recognition of C2 by KIR2DL2/3,as revealed by receptor blocking experiments and by binding assays of soluble KIR to HLA-C transfectants. Remarkably,however,C2/C2 leukemia blasts were killed by KIR2DL2/3(+) (or by NKG2A(+)) NK cells that coexpressed KIR2DS1. This could be explained by the ability of KIR2DS1 to directly recognize C2 on leukemia cells. A role of the KIR2DS2 activating receptor in leukemia cell lysis could not be demonstrated. Altogether,these results may have important clinical implications for the selection of optimal donors for haplo-HSCT. View Publication

Bruton tyrosine kinase (Btk) is essential for B cell development and function and also appears to be important for myeloid cells. The bone marrow of Btk-deficient mice shows enhanced granulopoiesis compared with that of wild-type mice. In purified granulocyte-monocyte-progenitors (GMP) from Btk-deficient mice,the development of granulocytes is favored at the expense of monocytes. However,Btk-deficient neutrophils are impaired in maturation and function. Using bone marrow chimeras,we show that this defect is cell-intrinsic to neutrophils. In GMP and neutrophils,Btk plays a role in GM-CSF- and Toll-like receptor-induced differentiation. Molecular analyses revealed that expression of the lineage-determining transcription factors C/EBPα,C/EBPβ,and PU.1,depends on Btk. In addition,expression of several granule proteins,including myeloperoxidase,neutrophilic granule protein,gelatinase and neutrophil elastase,is Btk-dependent. In the Arthus reaction,an acute inflammatory response,neutrophil migration into tissues,edema formation,and hemorrhage are significantly reduced in Btk-deficient animals. Together,our findings implicate Btk as an important regulator of neutrophilic granulocyte maturation and function in vivo. View Publication

Information on natural killer (NK)-cell receptor-ligand interactions involved in the response to human cytomegalovirus (HCMV) is limited and essentially based on the study of infected fibroblasts. Experimental conditions were set up to characterize the NK response to HCMV-infected myeloid dendritic cells (DCs). Monocyte-derived DCs (moDCs) infected by the TB40/E HCMV strain down-regulated the expression of human leukocyte antigen class I molecules and specifically activated autologous NK-cell populations. NKG2D ligands appeared virtually undetectable in infected moDCs,reflecting the efficiency of immune evasion mechanisms,and explained the lack of antagonistic effects of NKG2D-specific monoclonal antibody. By contrast,DNAM-1 and DNAM-1 ligands (DNAM-1L)-specific monoclonal antibodies inhibited the NK response at 48 hours after infection,although the impact of HCMV-dependent down-regulation of DNAM-1L in infected moDCs was perceived at later stages. moDCs constitutively expressed ligands for NKp46 and NKp30 natural cytotoxicity receptors,which were partially reduced on HCMV infection; yet,only NKp46 appeared involved in the NK response. In contrast to previous reports in fibroblasts,human leukocyte antigen-E expression was not preserved in HCMV-infected moDCs,which triggered CD94/NKG2A(+) NK-cell activation. The results provide an insight on key receptor-ligand interactions involved in the NK-cell response against HCMV-infected moDCs,stressing the importance of the dynamics of viral immune evasion mechanisms. View Publication

It is increasingly evident that neutrophils are able to cross-talk with other leukocytes to shape ongoing inflammatory and immune responses. In this study,we analyzed whether human NK cells may influence the survival and activation of neutrophils under co-culture conditions. We report that NK cells exposed to either IL-15 or IL-18 alone strongly protect the survival of neutrophils via the release of IFNγ and granulocyte macrophage colony-stimulating factor (GM-CSF) plus IFNγ,respectively,and cause a slight up-regulation of neutrophil CD64 and CD11b expression. In comparison,NK cells exposed to both IL-15 and IL-18 show a lesser ability to increase the survival of neutrophils but can more potently up-regulate CD64 and CD11b expression,as well as induce the de novo surface expression of CD69,in neutrophils. Analysis of the events occurring in neutrophil/NK co-cultures exposed to IL-15 plus IL-18 revealed that (i) neutrophil survival is positively affected by NK-derived GM-CSF but negatively influenced by a CD18-dependent neutrophil/NK contact,(ii) NK-derived IFNγ is almost entirely responsible for the induction of CD64,(iii) both soluble factors (primarily GM-CSF) and direct cell-cell contact up-regulate CD11b and CD69 and (iv) NK-derived GM-CSF induces the expression of biologically active heparin-binding EGF-like growth factor (HB-EGF) in neutrophils. Finally,we demonstrate that NK cells can also express HB-EGF when stimulated with either IL-2 or IL-15,yet independently of endogenous GM-CSF. Altogether,our results define a novel interaction within the innate immune system whereby NK cells,by directly modulating neutrophil functions,might contribute to the pathogenesis of inflammatory diseases. View Publication

We identify the tumor necrosis factor receptor superfamily 25 (TNFRSF25)/TNFSF15 pair as critical trigger for allergic lung inflammation,which is a cardinal feature of asthma. TNFRSF25 (TNFR25) signals are required to exert T helper cell 2 (Th2) effector function in Th2-polarized CD4 cells and co-stimulate interleukin (IL)-13 production by glycosphingolipid-activated NKT cells. In vivo,antibody blockade of TNFSF15 (TL1A),which is the ligand for TNFR25,inhibits lung inflammation and production of Th2 cytokines such as IL-13,even when administered days after airway antigen exposure. Similarly,blockade of TNFR25 by a dominant-negative (DN) transgene,DN TNFR25,confers resistance to lung inflammation in mice. Allergic lung inflammation-resistant,NKT-deficient mice become susceptible upon adoptive transfer of wild-type NKT cells,but not after transfer of DN TNFR25 transgenic NKT cells. The TNFR25/TL1A pair appears to provide an early signal for Th2 cytokine production in the lung,and therefore may be a drug target in attempts to attenuate lung inflammation in asthmatics. View Publication

Natural killer (NK) cells have been originally defined by their naturally occurring" effector function. However� View Publication

Recent clinical studies suggest that adoptive transfer of donor-derived natural killer (NK) cells may improve clinical outcome in hematological malignancies and some solid tumors by direct anti-tumor effects as well as by reduction of graft versus host disease (GVHD). NK cells have also been shown to enhance transplant engraftment during allogeneic hematopoietic stem cell transplantation (HSCT) for hematological malignancies. The limited ex vivo expansion potential of NK cells from peripheral blood (PB) or umbilical cord blood (UCB) has however restricted their therapeutic potential. Here we define methods to efficiently generate NK cells from donor-matched,full-term human placenta perfusate (termed Human Placenta-Derived Stem Cell,HPDSC) and UCB. Following isolation from cryopreserved donor-matched HPDSC and UCB units,CD56+CD3- placenta-derived NK cells,termed pNK cells,were expanded in culture for up to 3 weeks to yield an average of 1.2 billion cells per donor that were textgreater80% CD56+CD3-,comparable to doses previously utilized in clinical applications. Ex vivo-expanded pNK cells exhibited a marked increase in anti-tumor cytolytic activity coinciding with the significantly increased expression of NKG2D,NKp46,and NKp44 (p textless 0.001,p textless 0.001,and p textless 0.05,respectively). Strong cytolytic activity was observed against a wide range of tumor cell lines in vitro. pNK cells display a distinct microRNA (miRNA) expression profile,immunophenotype,and greater anti-tumor capacity in vitro compared to PB NK cells used in recent clinical trials. With further development,pNK may represent a novel and effective cellular immunotherapy for patients with high clinical needs and few other therapeutic options. View Publication

BACKGROUND Patients with gene expression profiling-defined high-risk myeloma in relapse have poor outcomes with current therapies. We tested whether natural killer cells expanded by co-culture with K562 cells transfected with 41BBL and membrane-bound interleukin-15 could kill myeloma cells with a high-risk gene expression profile in vitro and in a unique model which recapitulates human myeloma. DESIGN AND METHODS OPM2 and high-risk primary myeloma tumors were grown in human fetal bone implanted into non-obese diabetic severe combined immunodeficiency mice with a deficient interleukin-2 receptor gamma chain. These mice are devoid of endogenous natural killer and T-cell activity and were used to determine whether adoptively transferred expanded natural killer cells could inhibit myeloma growth and myeloma-associated bone destruction. RESULTS Natural killer cells from healthy donors and myeloma patients expanded a median of 804- and 351-fold,respectively,without significant T-cell expansion. Expanded natural killer cells killed both allogeneic and autologous primary myeloma cells avidly via a perforin-mediated mechanism in which the activating receptor NKG2D,natural cytotoxicity receptors,and DNAX-accessory molecule-1 played a central role. Adoptive transfer of expanded natural killer cells inhibited the growth of established OPM2 and high-risk primary myeloma tumors grown in the murine model. The transferred,expanded natural killer cells proliferated in vivo in an interleukin-2 dose-dependent fashion,persisted up to 4 weeks,were readily detectable in the human bone,inhibited myeloma growth and protected bone from myeloma-induced osteolysis. CONCLUSIONS These studies provide the rationale for testing expanded natural killer cells in humans. View Publication

APOBEC3G (A3G) is an intrinsic antiviral factor that inhibits the replication of human immunodeficiency virus (HIV) by deaminating cytidine residues to uridine. This causes guanosine-to-adenosine hypermutation in the opposite strand and results in inactivation of the virus. HIV counteracts A3G through the activity of viral infectivity factor (Vif),which promotes degradation of A3G. We report that viral protein R (Vpr),which interacts with a uracil glycosylase,also counteracted A3G by diminishing the incorporation of uridine. However,this process resulted in activation of the DNA-damage–response pathway and the expression of natural killer (NK) cell–activating ligands. Our results show that pathogen-induced deamination of cytidine and the DNA-damage response to virus-mediated repair of the incorporation of uridine enhance the recognition of HIV-infected cells by NK cells. View Publication

Tristetraprolin (TTP,Zfp36,Nup475,Tis11) dramatically reduces the stability of target mRNAs by binding to AU-rich elements in their 3' untranslated regions. Through this mechanism,TTP functions as a rheostatic,temporal regulator of gene expression. TTP knockout (KO) mice exhibit completely penetrant granulocytic hyperplasia. We have shown that the hematopoietic stem-progenitor cell compartment in TTP KO mice is also altered. Although no change was detected in long-term hematopoietic stem cell (HSC) frequency or function,as assayed by immunophenotypic markers or limiting dilution transplants,we observed increases in the frequencies and numbers of short-term HSCs,multipotent progenitors,and granulocyte-monocyte progenitors. This pattern is consistent with reactive granulopoiesis� View Publication

Unconjugated mAbs have emerged as useful cancer therapeutics. Ab-dependent cellular cytotoxicity (ADCC) is believed to be a major antitumor mechanism of some anticancer Abs. However,the factors that regulate the magnitude of ADCC are incompletely understood. In this study,we described the relationship between Ab affinity and ADCC. A series of human IgG1 isotype Abs was created from the anti-HER2/neu (also named c-erbB2) C6.5 single-chain Fv (scFv) and its affinity mutants. The scFv affinities range from 10(-7) to 10(-11) M,and the IgG Abs retain the affinities of the scFv from which they were derived. The apparent affinity of the Abs ranged from nearly 10(-10) M (the lowest affinity variant) to almost 10(-11) M (the other variants). The IgG molecules were tested for their ability to elicit ADCC in vitro against three tumor cell lines with differing levels of HER2/neu expression using unactivated human PBMC from healthy donors as the effector cells. The results demonstrated that both the apparent affinity and intrinsic affinity of the Abs studied regulate ADCC. High-affinity tumor Ag binding by the IgGs led to the most efficient and powerful ADCC. Tumor cells expressing high levels of HER2/neu are more susceptible to the ADCC triggered by Abs than the cells expressing lower amounts of HER2/neu. These findings justify the examination of high affinity Abs for ADCC promotion. Because high affinity may impair in vivo tumor targeting,a careful examination of Ab structure to function relationships is required to develop optimized therapeutic unconjugated Abs. View Publication

The extended substrate specificity of granzyme B (GrB) was used to identify substrates among the chaperone superfamily. This approach identified Hsp90 and Bag1-L as novel GrB substrates,and an additional GrB cleavage site was identified in the Hsc70/Hsp70-Interacting Protein,Hip. Hsp90,Bag1L,and Hip were validated as GrB substrates in vitro,and mutational analysis confirmed the additional cleavage site in Hip. Because the role of Hip in apoptosis is unknown,its proteolysis by GrB was used as a basis to test whether it has anti-apoptotic activity. Previous work on Hip was limited to in vitro characterization; therefore,it was important to demonstrate Hip cleavage in a physiological context and to show its relevance to natural killer (NK) cell-mediated death. Hip is cleaved at both GrB cleavage sites during NK-mediated cell death in a caspase-independent manner,and its cleavage is due solely to GrB and not other granule components. Furthermore,Hip is not cleaved upon stimulation of the Fas receptor in the Jurkat T-cell line,suggesting that Hip is a substrate unique to GrB. RNA interference-mediated reduction of Hip within the K562 cell line rendered the cells more susceptible to NK cell-mediated lysis,indicating that proteolysis by GrB of Hip contributes to death induction. The small effect of RNA interference-mediated Hip deficiency on cytotoxicity is in agreement with the inherent redundancy of NK cell-mediated cell death. The identification of additional members of the chaperone superfamily as GrB substrates and the validation of Hip as an anti-apoptotic protein contribute to understanding the interplay between stress response and apoptosis. View Publication