Ly49 and CD94/NKG2 receptor acquisition by NK cells does not require lymphotoxin-beta receptor expression

A crucial step in murine natural killer (NK) cell development, mediated by bone marrow stromal cells, is the induction of Ly49 and CD94/NKG2 receptor expression. The signals that regulate Ly49 receptor expression are still largely undetermined. It has been shown that interaction between lymphotoxin alpha1beta2 (LTalpha1beta2) and LTbeta receptor (LTbetaR), expressed on lymphoid progenitor cells and nonlymphoid bone marrow stromal cells, respectively, is important for both quantitative and functional NK cell development. Therefore, we have investigated the role of LT-LTbetaR-mediated signaling in Ly49 and CD94/NKG2 receptor acquisition. We show that the NK receptor repertoire of LTbetaR-/- mice can only be partially analyzed because of the residual 129/Ola mouse genetic background, due to a physical linkage of the LTbetaR locus and the loci encoding the Ly49 and CD94/NKG2 receptors. Therefore, we transferred wild-type B6 lymphoid-committed progenitor cells into LTbetaR-/- mice, which differentiated into NK cells with a normal NK cell receptor repertoire. Also, administration of LTbetaR-immunoglobulin (Ig), which acts as a soluble receptor for LTalpha1beta2, resulted in reduced NK cell percentages but did not influence the Ly49 and CD94/NKG2 receptor acquisition on remaining NK cells. These results indicate that LTbetaR-mediated signals are not required for Ly49 and CD94/NKG2 receptor acquisition.     

CD8+ T regulatory cells express the Ly49 Class I MHC receptor and are defective in autoimmune prone B6-Yaa mice

The immune system includes a subpopulation of CD8(+) T cells equipped to inhibit the expansion of follicular T helper (T(FH)) cells, resulting in suppression of autoantibody production and associated lupus-like disease. These CD8(+) T regulatory (Treg) cells recognize Qa-1/peptide complexes on target T(FH) cells and depend on the IL-15 cytokine for development and function. Here we show that these CD8(+) Treg cells express a triad of surface receptors--CD44, CD122, and the class I MHC receptor Ly49--and account for <5% of CD8(+) T cells. Moreover, the development of systemic lupus erythematosus-like disease in B6-Yaa mutant mice is associated with a pronounced defect in CD8(+) Treg cell activity, suggesting that this regulatory subset may represent an effective therapeutic approach to systemic lupus erythematosus-like autoimmune disease.     

Multidirectional interactions are bridging human NK cells with plasmacytoid and monocyte-derived dendritic cells during innate immune responses

During innate immune responses, natural killer (NK) cells may interact with both plasmacytoid dendritic cells (pDCs) and monocyte-derived dendritic cells (MDDCs). We show that freshly isolated NK cells promote the release by pDCs of IFN-alpha, in a CpG-dependent manner, whereas they induce IL-6 production in a CpG-independent manner. In turn pDC-derived IFN-alpha up-regulates NK-mediated killing, whereas IL-6 could promote B-cell differentiation. We also show that exposure to exogenous IL-12 or coculture with maturing MDDCs up-regulates the NK-cell-dependent IFN-alpha production by pDCs. On the other hand, NK cells cocultured with pDCs acquire the ability to kill immature MDDCs, thus favoring their editing process. Finally, we show that activated NK cells are unable to lyse pDCs because these cells display an intrinsic resistance to lysis. The exposure of pDCs to IL-3 increased their susceptibility to NK-cell cytotoxicity resulting from a de novo expression of ligands for activating NK-cell receptors, such as the DNAM-1 ligand nectin-2. Thus, different cell-to-cell interactions and various cytokines appear to control a multidirectional network between NK cells, MDDCs, and pDCs that is likely to play an important role during the early phase of innate immune responses to viral infections and to tumors.     

Reduction of GVHD and enhanced antitumor effects after adoptive infusion of alloreactive Ly49-mismatched NK cells from MHC-matched donors

We investigated if an infusion of alloreactive natural killer (NK) cells would reduce GVHD and mediate antitumor effects in mice undergoing MHC-matched allogeneic stem cell transplantation (SCT). Balb/c mice bearing RENCA tumors underwent an allogeneic SCT from MHC-matched B10.d2 donors and were given a single infusion of either Ly49 ligand-matched, ligand-mismatched, or no donor NK cells. Recipients of Ly49 ligand-mismatched NK cells had a reduced incidence of graft-versus-host disease (GVHD; 39% vs 100%; P < .01), and prolonged survival (median 84 days vs 39 days; P < .01) compared with SCT recipients not receiving NK cells. Recipients of Ly49 ligand-matched NK cells had the same incidence of GVHD and similar survival compared with controls not receiving NK cells. Pulmonary tumor burden was significantly (P < .01) lower in recipients that received Ly49-mismatched or Ly49-matched NK cells compared with recipients not receiving NK cells. These data provide in vivo evidence that a single infusion of alloreactive donor NK cells reduces GVHD and mediates antitumor effects following MHC-matched allogeneic transplantation.     

Functional reconstitution of the angiotensin II type 2 receptor and G(i) activation

On the basis of the patterns of conserved amino acid sequence, the angiotensin II type 2 (AT(2)) receptor belongs to the family of serpentine receptors, which relay signals from extracellular stimuli to heterotrimeric G proteins. However, the AT(2) receptor signal transduction mechanisms are poorly understood. We have measured AT(2)-triggered activation of purified heterotrimeric proteins in urea-extracted membranes from cultured COS-7 cells expressing the recombinant receptor. This procedure removes contaminating GTP-binding proteins without inactivating the serpentine receptor. Binding studies using [(125)I] angiotensin (Ang) II revealed a single binding site with a K(d)=0.45 and a capacity of 627 fmol/mg protein in the extracted membranes. The AT(2) receptor caused a rapid activation of alpha(i) and alpha(o) but not of alpha(q) and alpha(s), as measured by radioactive guanosine 5'-3-O-(thio)triphosphate (GTPgammaS) binding. Activation required the presence of activated receptors, betagamma, and alpha subunits. As a first step aimed at developing an in vitro assay to examine AT(2) receptor pharmacology, we tested a battery of Ang II-related ligands for their ability to promote AT(1) or AT(2) receptor-catalyzed G(i) activation. Two proteolytic fragments of Ang II, Ang III and Ang1-7, also promoted activation of alpha(i) through the AT(2) receptor. Furthermore, we found that [Sar(1),Ala(8)]Ang II is an antagonist for both AT(1) and AT(2) receptors and that CPG42112 behaves as a partial agonist for the AT(2) receptor. In combination with previous observations, these results show that the AT(2) receptor is fully capable of activating G(i) and provides a new tool for exploring AT(2) receptor pharmacology and interactions with G-protein trimers.     

Development of Vgamma2Vdelta2+ T cell responses during active mycobacterial coinfection of simian immunodeficiency virus-infected macaques requires control of viral infection and immune competence of CD4+ T cells

Vgamma2Vdelta2+ T cells play a role in antimicrobial responses. It is unknown whether adaptive Vgamma2Vdelta2+ T cell responses during active mycobacterial coinfection of human immunodeficiency virus-infected humans can be generated during effective antiretroviral treatment. Here, simian immunodeficiency virus (SIV)mac-infected macaques previously exposed to bacille Calmette-Guerin (BCG) were reinfected with BCG, were treated either with tenofovir or tenofovir plus indinavir, and were assessed for the development of Vgamma2Vdelta2+ T cell responses during active BCG coinfection. A restored capacity of Vgamma2Vdelta2+ T cells to undergo major expansions and pulmonary migration during active BCG coinfection was detected after simultaneous BCG reinfection and treatment with tenofovir of the SIVmac-infected macaques. Interestingly, a restored expansion of Vgamma2Vdelta2+ T cells in the SIVmac/BCG-coinfected macaques was detectable, even though antiretroviral treatment was initiated 1 month after BCG reinfection. Importantly, the restored expansion of Vgamma2Vdelta2+ T cells coincided with increases in numbers of purified protein derivative-specific interferon- gamma -producing CD4+ T cells and increases in the magnitude of their proliferative responses. In contrast, the SIVmac-infected control macaques exhibited diminished responses of Vgamma2Vdelta2+ T cells and mycobacterium-specific CD4+ T cells during active BCG coinfection. Our results suggest that the development of adaptive immune responses of phosphoantigen-specific Vgamma2Vdelta2+ T cells during active mycobacterium/HIV coinfection requires control of viral infection and immune competence of peptide-specific CD4+ T cells.     

抗病毒治疗早期艾滋病病人CD4+ T细胞亚群与免疫重建的关系

目的研究抗病毒治疗(ART)早期阶段,艾滋病(AIDS)病人CD4+T细胞亚群的变化及其与免疫重建的关系。方法前瞻性分析21例接受ART规律治疗的艾滋病病人,收集病人服药前及服药第2、4、8、12周时的静脉血,采用流式细胞仪染色技术检测CD4+T细胞的水平,分析其在治疗过程中的变化规律,以及与免疫活化间的相关性。结果 ART后,CD4中心记忆细胞(CD4CM)和CD4幼稚细胞两种形式的CD4+T细胞增加,且在前4周治疗增长迅速。治疗4周时CD4CM的变化与治疗12周时CD4+T细胞的变化呈正相关关系,而与CD8+CD3+8T细胞的变化呈负相关关系。结论 ART能有效地重建AIDS病人的T淋巴细胞免疫,并且CD4CM可能是免疫重建的早期指标。     

Gialpha and Gbeta subunits both define selectivity of G protein activation by alpha2-adrenergic receptors

Previous studies of the specificity of receptor interactions with G protein subunits in living cells have relied on measurements of second messengers or other downstream responses. We have examined the selectivity of interactions between alpha2-adrenergic receptors (alpha2R) and various combinations of Gialpha and Gbeta subunit isoforms by measuring changes in FRET between Gialpha-yellow fluorescent protein and cyan fluorescent protein-Gbeta chimeras in HeLa cells. All combinations of Gialpha1, -2, or -3 with Gbeta1, -2, or -4 were activated to some degree by endogenous alpha2Rs as judged by agonist-dependent decreases in FRET. The degree of G protein activation is determined by the combination of Gialpha and Gbeta subunits rather than by the identity of an individual subunit. RT-PCR analysis and small interfering RNA knockdown of alpha2R subtypes, followed by quantification of radiolabeled antagonist binding, demonstrated that HeLa cells express alpha2a- and alpha2b-adrenergic receptor isoforms in a 2:1 ratio. Increasing receptor number by overexpression of the alpha2aR subtype minimized the differences among coupling preferences for Gialpha and Gbeta isoforms. The molecular properties of each Gialpha, Gbeta, and alpha2-adrenergic receptor subtype influence signaling efficiency for the alpha2-adrenergic receptor-mediated signaling pathway.     

Transient expansion of Mac1+Ly6-G+Ly6-C+ early myeloid cells with suppressor activity in spleens of murine radiation marrow chimeras: possible implications for the graft-versus-host and graft-versus-leukemia reactivity of donor lymphocyte infusions

A murine model of minor histocompatibility antigen (miHCag)-mismatched bone marrow transplantation (BMT) was used to study the development of immunoregulatory cells in the posttransplantation period and their possible involvement in the dissociated graft-versus-host (GVH) and graft-versus-leukemia (GVL) reactivity of posttransplantation donor lymphocyte infusions (DLIs). DLI, applied immediately after BMT, induced GVH disease (GVHD), but when DLI was delayed for 3 weeks, GVHD was avoided while a distinct GVL response was allowed to develop. A population of Mac1+Ly6-G+Ly6-C+ immature myeloid cells, found in small numbers in normal mice, strongly expanded in spleens of chimeras, reaching a maximum level at week 3 and returning to base level by week 12. Upon isolation, these cells exhibited interferon-gamma (IFN-gamma)-dependent, nitric oxide (NO)-mediated suppressor activity toward in vitro alloresponses, suggesting that, after in vivo DLI, they are activated by IFN-gamma to produce NO and suppress GVH reactivity. Because not only alloactivated T-cell proliferation but also leukemia cell growth was found susceptible to inhibition by exogenous NO, in vivo activation of these cells after DLI may explain the occurrence of a GVL effect despite suppression of GVHD. This suggested sequence of events was supported by the finding that the ex vivo antihost proliferative response of spleen cells, recovered shortly after in vivo DLI, was characterized by strong mRNA production of the monokines interleukin-1 (IL-1), IL-6, and tumor necrosis factor-alpha (TNF-alpha) and of inducible nitric oxide synthase (iNOS). Our data suggest that transiently expanding Mac1+Ly6-G+Ly6-C+ immature myeloid cells (probably as a result of extramedullary myelopoiesis) may play a role in controlling GVH while promoting GVL reactivity of DLI after allogeneic BMT.     

Selective increases in HIV-specific neutralizing antibody and partial reconstitution of cellular immune responses during prolonged, successful drug therapy of HIV infection

Because the immune response to HIV depends on viral gene expression, we examined the HIV-specific immune responses in persons whose viral load after highly active antiretroviral therapy (HAART) was <400 on at least 3 occasions over a 12-month interval. Eleven patients were identified. While there was little change in mean HIV-binding antibody (Ab) titers in this group, two persons mounted increases in HIV envelope-specific binding antibody. Neutralizing antibody (NAb) titers against a panel of HIV-1 primary isolates (BZ167, US1, and CM237) increased post-HAART (80% neutralization titer against US1, p = 0.06; against CM237, p = 0.04). The two persons with large increases in binding antibody also had increases in primary isolate NAb. Roughly half of HAART recipients had significant increases in neutralizing antibody to the primary isolates US1 and CM237. Compared with CD4-matched, non-HAART controls, there were significant increases in NAb against the subtype B primary isolate US1 (p < 0.0009); no increases were seen against more easily neutralized primary isolate BZ167. There were no differences after HAART in antibody-directed cellular cytotoxicity (ADCC). HAART resulted in a partial restoration of lymphoproliferative responses to recall antigens (tetanus and diphtheria). New responses developed to HIV Gag p24. No patient responded to HIV Env gp160 or gp120 either before or after HAART. The data underscore the lack of functional reconstitution of HIV-specific, CD4-mediated responses despite durable suppression of viral replication. In the setting of stable anti-HIV Ab levels, the development of increased NAb in certain individuals suggests that control of the virus by HAART may assist in immune control of HIV.     

Synthesis and activation of mitotic Ca2+-adenosinetriphosphatase during the cell cycle of mouse mastocytoma cells.

The activity of a Ca2+-adenosinetriphosphatase (ATP phosphohydrolase, EC 3.6.1.3) increases during the mitotic phase of synchronized mouse mastocytoma P-815X2 cells. The enzyme is synchronized mouse mastocytoma P-815X2 cells. The enzyme is synthesized mainly during a distinct period of the interphase and is activated at mitosis. It is thought to regulate the formation of the mitotic apparatus by controlling the concentration of Ca2+ ions at the site of formation of the mitotic spindle.     

Analysis of the linker for activation of T cells and the linker for activation of B cells in natural killer cells reveals a novel signaling cassette, dual usage in ITAM signaling, and influence on development of the Ly49 repertoire

The linker for activation of T cells (LAT) and the linker for activation of B cells (LAB/NTAL/LAT2) are integral proteins in receptor coupling to downstream events. Both proteins are expressed in natural killer (NK) cells and LAT is phosphorylated during target cell interactions or ligation of the immunoreceptor tyrosine-based activation motif (ITAM)-coupled CD16. Regardless, Lat(-/-) mice exhibit normal natural and antibody-mediated killing. Here we place both LAT and LAB in the DAP12 pathway of NK cells. Moreover, we unveil a LAT-independent pathway that requires expression of Syk. Mice lacking either LAT or LAB have a skewed Ly49 repertoire, and activated NK cells from Lat(-/-) mice have reduced responses to the ITAM-coupled receptor NK1.1. In contrast, resting Lat(-/-) NK cells show intact NK1.1 responses, whereas NK cells without LAB are hyperactive. Elimination of both adaptors severely reduces NK1.1 signaling under both conditions. Together these data show that NK ITAMs preferentially use a signaling cassette regulated by interplay between LAT and LAB. Activation by interleukin-2 causes a shift to greater dependency on LAT due to suppression of Syk signaling. The overlapping use of multiple adaptors permits fine-tuning of NK-cell ITAM responses over the course of an immune response.     

Developmental dissociation of T cells from B,NK, and myeloid cells revealed by MHC class II-specific chimeric immune receptors bearing TCR-zeta or FcR-gamma chain signaling domains

The T-cell receptor zeta (TCR-zeta) and FcR-gamma chains play a critical role in mediating signal transduction. We have previously described HIV glycoprotein 120 (gp120)-specific chimeric immune receptors (CIRs) in which the extracellular domain of CD4 is linked to the signaling domain of zeta (CD4zeta) or gamma (CD4gamma). Such CIRs are efficiently expressed following retroviral transduction of mature T cells and specifically redirect effector functions toward HIV-infected targets. In this report, we examine development of CD4zeta- or CD4gamma-expressing T cells from retrovirally transduced hematopoietic stem cells following bone marrow transplantation. Although CD4zeta/gamma-expressing myeloid, NK, and B cells were efficiently reconstituted, parallel development of CD4zeta/gamma-expressing T cells was blocked prior to the CD25(+)CD44(+) prothymocyte stage. In contrast, T cells expressing a signaling-defective CIR were efficiently generated. When major histocompatibility complex (MHC) class II-deficient mice were used as transplant recipients, development of CD4zeta/gamma-expressing T cells was restored. We conclude that CD4zeta/gamma signaling generated following engagement of MHC class II selectively arrests T-lineage development.     

不同免疫状态慢性HBV感染患者的T淋巴细胞及NKG2D表达差异研究

目的探讨慢性HBV感染者在不同免疫状态下的T淋巴细胞及自然杀伤细胞G2D(NKG2D)表达差异。方法根据免疫状态的不同将80例慢性HBV感染患者分为免疫耐受组(28例)、免疫清除组(30例)、低(非)复制组(22例),另选取30名健康体检者作为对照组。对4组研究对象进行外周血T淋巴细胞亚群、NK细胞、NKG2D细胞频率及血清肿瘤坏死因子-α(TNF-α)、γ干扰素水平检测。结果4组研究对象的CD3^+T淋巴细胞百分比,差异均无统计学意义(P>0.05)。免疫清除组的CD4^+T淋巴细胞、CD4^+/CD8^+、NK细胞百分比分别为(30.14±5.36)%、(1.10±0.33)%、(9.67±4.31)%,均显著低于另外三组,CD8^+T淋巴细胞、NKG2D+/NK细胞百分比分别为(33.56±5.37)%、(12.96±3.42)%,均显著高于另外三组(P<0.05)。免疫耐受组和低(非)复制组的NKG2D^+/NK细胞百分比分别为(3.46±1.15)%和(3.55±1.07)%均显著低于对照组,免疫清除组的NKG2D+/NK细胞百分比显著高于对照组(P<0.05)。免疫清除组的TNF-α、γ干扰素水平分别为(69.62±16.46)ng/L和(69.85±12.30)ng/L,均显著高于免疫耐受组、低(非)复制组及对照组(P<0.05)。免疫耐受组、低(非)复制组及对照组的TNF-α、γ干扰素水平比较,差异均无统计学意义(P>0.05)。结论慢性HBV感染患者在不同免疫状态下,外周血淋巴细胞及NKG2D细胞表达有明显差异,临床可通过测定HBV感染者外周血T淋巴细胞、NKG2D细胞水平来评估患者的免疫状态,指导临床治疗。     

NK-cell reconstitution after haploidentical hematopoietic stem-cell transplantations: immaturity of NK cells and inhibitory effect of NKG2A override GvL effect

Natural killer (NK) cell alloreactivity is reported to mediate strong GvL (graft versus leukemia) effect in patients after haploidentical stem-cell transplantation (SCT) for acute myeloid leukemia (AML). Because subsequent immune reconstitution remains a major concern, we studied NK-cell recovery in 10 patients with AML who received haplomismatched SC transplants, among whom no GvL effect was observed, despite the mismatched immunoglobulin-like receptor (KIR) ligand in the GvH direction for 8 of 10 patients. NK cells generated after SCT exhibited an immature phenotype: the cytotoxic CD3- CD56(dim) subset was small, expression of KIRs and NKp30 was reduced, while CD94/NKG2A expression was increased. This phenotype was associated to in vitro lower levels of cytotoxicity against a K562 cell line and against primary mismatched AML blasts than donor samples. This impaired lysis was correlated with CD94/NKG2A expression in NK cells. Blockading CD94/NKG2A restored lysis against the AML blasts, which all expressed HLA-E, the ligand for CD94/NKG2A. Our present study allows a better understanding of the NK-cell differentiation after SCT. These results revealed that the NK cells generated after haplomismatched SCT are blocked at an immature state characterized by specific phenotypic features and impaired functioning, having potential impact for immune responsiveness and transplantation outcome.     

Ca2+, cAMP,and transduction of non-self perception during plant immune responses

Ca²⁺ influx is an early signal initiating cytosolic immune responses to pathogen perception in plant cells; molecular components linking pathogen recognition to Ca²⁺ influx are not delineated. Work presented here provides insights into this biological system of non-self recognition and response activation. We have recently identified a cyclic nucleotide-activated ion channel as facilitating the Ca²⁺ flux that initiates immune signaling in the plant cell cytosol. Work in this report shows that elevation of cAMP is a key player in this signaling cascade. We show that cytosolic Ca²⁺ elevation, nitric oxide (NO) and reactive oxygen species generation, as well as immune signaling, lead to a hypersensitive response upon application of pathogens and/or conserved molecules that are components of microbes and are all dependent on cAMP generation. Exogenous cAMP leads to Ca²⁺ channel-dependent cytosolic Ca²⁺ elevation, NO generation, and defense response gene expression in the absence of the non-self pathogen signal. Inoculation of leaves with a bacterial pathogen leads to cAMP elevation coordinated with Ca²⁺ rise. cAMP acts as a secondary messenger in plants; however, no specific protein has been heretofore identified as activated by cAMP in a manner associated with a signaling cascade in plants, as we report here. Our linkage of cAMP elevation in pathogen-inoculated plant leaves to Ca²⁺ channels and immune signaling downstream from cytosolic Ca²⁺ elevation provides a model for how non-self detection can be transduced to initiate the cascade of events in the cell cytosol that orchestrate pathogen defense responses.     

CD4+ T cell responses to interleukin-2 administration in HIV-infected patients are directly related to the baseline level of immune activation

BACKGROUND: Intermittent interleukin (IL)-2 administration to human immunodeficiency virus (HIV)-infected patients leads to CD4(+) T cell expansions. The factors potentially affecting these expansions were investigated in the present study. METHODS: A matched (for baseline CD4(+) T cell count) case-control study was designed. Nonresponders (NRs) were defined as patients with a or=50% increase in CD4(+) T cell count at week 24. Immunophenotype, Ki67 and forkhead box protein P3 (FoxP3) expression, and T cell receptor excision circle (TREC) measurements in T cells were evaluated at weeks 0 and 24 in both groups. RESULTS: Control subjects and NRs did not differ significantly at baseline in age, viral load, CD4(+) T cell count, nadir CD4(+) T cell count, or CD8(+) T cell count. At week 0, NRs had lower TREC levels per 1x106 T cells and higher levels of T cell proliferation and activation than did control subjects. At week 24, both groups experienced decreases in T cell proliferation and increases in CD25 and FoxP3 expression on CD4(+) T cells, with TREC levels per 1x106 CD4(+) T cells decreasing significantly only in control subjects. CONCLUSIONS: Increased immune activation can adversely affect CD4(+) T cell expansions after IL-2 administration. Despite the lack of expansion, other evidence of IL-2-induced biological activity was observed.