Generation and Preclinical Characterization of an NKp80-Fc Fusion Protein for Redirected Cytolysis of Natural Killer (NK) Cells against Leukemia

The capacity of natural killer (NK) cells to mediate Fc receptor-dependent effector functions, such as antibody-dependent cellular cytotoxicity (ADCC), largely contributes to their clinical application. Given that activation-induced C-type lectin (AICL), an identified ligand for the NK-activating receptor NKp80, is frequently highly expressed on leukemia cells, the lack of therapeutic AICL-specific antibodies limits clinical application. Here we explore a strategy to reinforce NK anti-leukemia reactivity by combining targeting AICL-expressing leukemia cells with the induction of NK cell ADCC using NKp80-Fc fusion proteins. The NKp80-Fc fusion protein we generated bound specifically to leukemia cells in an AICL-specific manner. Cell binding assays between NK and leukemia cells showed that NKp80-Fc significantly increased NK target cell conjugation. In functional analyses, treatment with NKp80-Fc clearly induced the ADCC effect of NK cells. NKp80-Fc not only promoted NK-mediated leukemia cell apoptosis in the early stage of cell conjugation but also enhanced NK cell degranulation and cytotoxicity activity in the late stage. The bifunctional NKp80-Fc could redirect NK cells toward leukemia cells and triggered NK cell killing in vitro. Moreover, NKp80-Fc enhanced the lysis of NK cells against tumors in leukemia xenograft non-obese diabetic/severe combined immunodeficiency mice. Taken together, our results demonstrate that NKp80-Fc potently amplifies NK cell anti-leukemia effects in vitro and in vivo through induction of the NK cell ADCC effect. This method could potentially be useful for molecular targeted therapy, and the fusion proteins may be a promising drug for immunotherapy of leukemia.     

Single-cell RNA sequencing identifies a population of human liver-type ILC1s

1. Download : Download high-res image (159KB)
2. Download : Download full-size image

     

Assessment of T Cell Receptor Complex Expression Kinetics in Natural Killer Cells

Among the polypeptides that comprise the T cell receptor (TCR), only CD3ζ is found in Natural Killer (NK) cells, where it transmits signals from activating receptors such as CD16 and NKp46. NK cells are potent immune cells that recognize target cells through germline-encoded activating and inhibitory receptors. Genetic engineering of NK cells enables tumor-specific antigen recognition and, thus, has a significant promise in adoptive cell therapy. Ectopic expression of engineered TCR components in T cells leads to mispairing with the endogenous components, making a knockout of the endogenous TCR necessary. To circumvent the mispairing of TCRs or the need for knockout technologies, TCR complex expression has been studied in NK cells. In the current study, we explored the cellular processing of the TCR complex in NK cells. We observed that in the absence of CD3 subunits, the TCR was not expressed on the surface of NK cells and vice versa. Moreover, a progressive increase in surface expression of TCR between day three and day seven was observed after transduction. Interestingly, the TCR complex expression in NK92 cells was enhanced with a proteasome inhibitor (bortezomib) but not a lysosomal inhibitor (chloroquine). Additionally, we observed that the TCR complex was functional in NK92 cells as measured by estimating CD107a as a degranulation marker, IFNγ cytokine production, and killing assays. NK92 cells strongly degranulated when CD3ε was engaged in the presence of TCR, but not when only CD3 was overexpressed. Therefore, our findings encourage further investigation to unravel the mechanisms that prevent the surface expression of the TCR complex.     

生物肽SP对NK细胞NKG2D/NKG2A受体表达的影响

选择NK92-MI细胞为研究体系,研究SP对NK细胞的杀伤活性及功能性受体NKG2D/NKG2A表达的影响,以探讨SP对NK细胞功能的调节作用机制。采用MTT法测定NK92-MI细胞对K562细胞的杀伤活性;采用Real-Time PCR和流式细胞术检测NK92-MI细胞活化性受体NKG2D和抑制性受体NKG2A的基因表达和膜表达。10-14～10-8 mol/L的SP在体外可明显增强NK92-MI细胞的杀伤活性。该浓度范围的SP均可上调NKG2D/NKG2A的mRNA水平;10-14～10-8 mol/L的SP均上调NKG2D/NKG2A的膜表达,较低浓度（10-14 mol/L）的SP仅使NKG2D表达上调,而NKG2A表达无明显变化;SP刺激NKG2D膜表达增加的程度高于NKG2A。生物肽SP调节NK细胞功能性受体NKG2D/NKG2A的表达,可能是SP增强NK细胞杀伤活性的一种原因。     

异源反应性NK细胞对骨髓移植小鼠脾脏Th1/Th2细胞亚群的影响

目的:观察异源反应性自然杀伤细胞(NK细胞)对骨髓移植小鼠脾脏辅助性T细胞Th1/Th2亚群的影响。方法:以BALB/c和CB6F1小鼠为受体,在γ射线照射后通过尾静脉输入C57BL/6J小鼠的骨髓细胞和脾脏单个核细胞,建立移植物抗宿主病模型;然后输入供体的NK细胞,检测受体小鼠脾脏中Th1/Th2淋巴细胞亚群和外周血中γ干扰素(IFN-γ)、白细胞介素10(IL-10)的变化。结果:与单纯输入骨髓细胞和单个核细胞组小鼠相比,输入异源反应性NK细胞后,BALB/c和CB6F1小鼠脾脏中Th1细胞比例均下降,Th2细胞比例均上升,CB6F1小鼠脾脏中Th2虽有升高但没有统计学意义;外周血中IL-10水平显著升高,IFN-γ的水平显著下降。结论:异源反应性NK细胞可能通过降低脾脏中Th1细胞亚群比例和升高Th2细胞亚群比例减轻移植物抗宿主病。     

HMGB1, an alarmin promoting HIV dissemination and latency in dendritic cells

Dendritic cells (DCs) initiate immune responses by transporting antigens and migrating to lymphoid tissues to initiate T-cell responses. DCs are located in the mucosal surfaces that are involved in human immunodeficiency virus (HIV) transmission and they are probably among the earliest targets of HIV-1 infection. DCs have an important role in viral transmission and dissemination, and HIV-1 has evolved different strategies to evade DC antiviral activity. High mobility group box 1 (HMGB1) is a DNA-binding nuclear protein that can act as an alarmin, a danger signal to alert the innate immune system for the initiation of host defense. It is the prototypic damage-associated molecular pattern molecule, and it can be secreted by innate cells, including DCs and natural killer (NK) cells. The fate of DCs is dependent on a cognate interaction with NK cells, which involves HMGB1 expressed at NK–DC synapse. HMGB1 is essential for DC maturation, migration to lymphoid tissues and functional type-1 polarization of naïve T cells. This review highlights the latest advances in our understanding of the impact of HIV on the interactions between HMGB1 and DCs, focusing on the mechanisms of HMGB1-dependent viral dissemination and persistence in DCs, and discussing the consequences on antiviral innate immunity, immune activation and HIV pathogenesis.     

IL-15 alters expression and function of the chemokine receptor CX3CR1 in human NK cells

The chemokine receptor CX3CR1 is thought to regulate inflammation in part by modulating NK cell adhesion, migration, and killing in response to its ligand CX3CL1 (fractalkine). Recent reports indicate that IL-15, which is essential for development and survival of NK cells, may negatively regulate CX3CR1 expression, however, the effects of the cytokine on human NK cell CX3CR1 expression and function have not been fully delineated. Here, we demonstrate that short term culture in IL-15 decreases surface expression of CX3CR1 on cultured CD56+ cells from human blood resulting in diminished chemotaxis and calcium flux in response to CX3CL1. Cells cultured long term in IL-15 (more than five days) completely lost surface expression as well as mRNA and protein for CX3CR1. The effect was specific since mRNA for CCR5 was increased and mRNA for CXCR4 was unchanged in these cells by IL-15. Thus, exogenous IL-15 is a negative regulator of CX3CR1 expression and function in human CD56+ NK cells. The data imply that the use of IL-15 alone to expand NK cells ex vivo for immunotherapy may produce cells impaired in their ability to traffic to sites of inflammation.     

Expansion of NK cells by engineered K562 cells co-expressing 4-1BBL and mMICA,combined with soluble IL-21

NK cells hold promise for protecting hosts from cancer and pathogen infection through direct killing and expressing immune-regulatory cytokines. In our study, a genetically modified K562 cell line with surface expression of 4-1BBL and MICA was constructed to expand functional NK cells in vitro for further adoptive immunotherapy against cancer. After a long-term up to 21 day co-culture with newly isolated peripheral blood mononuclear cells (PBMCs) in the presence of soluble IL-21 (sIL-21), notable increase in proportion of expanded NK cells was observed, especially the CD56^brightCD16⁺ subset. Apparent up-regulation of activating receptors CD38, CD69 and NKG2D was detected on expanded NK cells, so did inhibitory receptor CD94; the cytotoxicity of expanded NK cells against target tumor cells exceeded that of NK cells within fresh PBMCs. The intracellular staining showed expanded NK cells produced immune-regulatory IFN-γ. Taken together, we expanded NK cells with significant up-regulation of activating NKG2D and moderate enhancement of cytotoxicity, with IFN-γ producing ability and a more heterogeneous population of NK cells. These findings provide a novel perspective on expanding NK cells in vitro for further biology study and adoptive immunotherapy of NK cells against cancer.     

Herpes simplex virus-1 up-regulates IL-15 gene expression in monocytic cells through the activation of protein tyrosine kinase and PKC zeta/lambda signaling pathways

IL-15 plays a seminal role in innate immunity through enhancing the cytotoxic function as well as cytokine production by NK and T cells. We have previously shown that exposure of PBMC as well as monocytic cells to different viruses results in immediate up-regulation of IL-15 gene expression and subsequent NK cell activation as an innate immune response of those cells to these viruses. However, no signaling pathway involved in this up-regulation has been identified. Here we show for the first time that HSV-1-induced up-regulation of IL-15 gene expression is independent of viral infectivity/replication. IL-15 gene is up-regulated by HSV-1 in human monocytes, but not in CD3+ T cells. HSV-1 induces the phosphorylation of protein tyrosine kinases (PTKs) and protein kinase C (PKC) for inducing IL-15 expression in monocytic cells. Inhibitors for PTKs reduced HSV-1-induced PTK activity, DNA binding activity of NF-kB as well as IL-15 gene expression. In contrast, an inhibitor for membrane-bound tyrosine kinases had no effect on these events. Experiments using PKC inhibitors revealed that phosphorylation of PKC zeta/lambda (PKC zeta/lambda), DNA binding activity of NF-kB and HSV-1-induced up-regulation of IL-15 were all decreased. Furthermore, we found that HSV-1-induced IL-15 up-regulation was also dependent on PTKs regulation of PKC phosphorylation. Thus, we conclude that IL-15 up-regulation in HSV-1-treated monocytic cells is dependent on the activity of both PTKs and PKC zeta/lambda.     

hK1-L-Fc融合蛋白在CHO细胞中的表达及其活性研究

为进一步改造重组人激肽释放酶1(hK1),以期提高其生物活性,制备了通过柔性接头相连接的重组人激肽释放酶1-L-IgG1 Fc融合蛋白(hK1-L-Fc)。采用重叠延伸PCR技术构建hK1-L-Fc融合基因,克隆至表达载体pcDNA3.1,在中国仓鼠卵巢细胞(CHO-S)中表达。利用Protein A 亲和层析柱纯化融合蛋白,SDS-PAGE、Western blotting、飞行时间质谱(MALDI-TOF-MS)、HPLC检测表达产物,底物法检测融合蛋白的体外活性。结果显示:成功构建pcDNA3.1-hK1-L-Fc重组表达载体;获得稳定表达融合蛋白的细胞株;无血清悬浮批式培养的表达量在0.7 mg/L以上;纯化的蛋白其纯度在95%以上,分子量约60 kDa;活性检测显示其比活性在9.2 U/mg以上,较hK1-Fc蛋白提高了18%以上。     

Biochemical Characterization of Two Distinct Angiotensin AT2 Receptor Populations in Murine Neuroblastoma N1E-115 Cells

Abstract: The murine neuroblastoma N1E-115 cell line possesses a high density of angiotensin II (Angll) receptors that can be solubilized with the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate. These solubilized binding sites exhibited high affinity for CGP-42112A and not Losartan, indicating that they were of the AT₂ subtype. However, displacement of ¹²⁵I-Angll with the AT₂ nonpeptide antagonist PD-123319 resulted in a biphasic curve, suggesting heterogeneity of the AT₂ receptor population in N1E-115 cells. In support of this view, separation of two receptor populations was accomplished with heparin-Sepharose chromatography. More specifically, three distinct protein peaks eluted from the heparin-Sepharose column, two of which bound ¹²⁵I-Angll with high affinity and saturability. One of these binding peaks (peak I) eluted rapidly and represented ～80% of the total binding activity, whereas the remaining binding activity was contained within a second peak (peak III) that required the addition of 1.5 M NaCI for its complete elution. Pharmacological analysis revealed that both peaks of binding activity were exclusively AT₂ receptors insofar as they exhibited high affinity for CGP-42112A and little or no affinity for the AT₁-selective antagonist Losartan. However, whereas the nonpeptidic AT₂-selective antagonist PD-123319 completely displaced the binding of ¹²⁶I-Angll from peak I in a monophasic fashion (IC₅₀= 9.1 ± 4.1 nM; mean ± SEM; n = 3), PD-123319 was much less effective in displacing ¹²⁵I-Angll from peak III (IC₅₀= 196 β 27 nM; mean β SEM; n = 3). Treatment of individual peaks with the reducing agent dithiothreitol caused a large increase in ¹²⁵I-Angll specific binding in peak III, whereas a decrease in binding was observed in peak I. Moreover, GTPγS significantly reduced high-affinity agonist binding in peak I but not peak III, further suggesting heterogeneity in the AT₂ receptor family. Finally, immunoblotting studies with polyclonal antisera raised against peak I specifically detected two proteins of 110 and 66 kDa, as is true in crude solubilized membranes, whereas no immunospecific proteins were detected in peak III. These same antisera immunoprecipitated ¹²⁵I-Angll binding activity in peak I but were ineffective in peak III. Collectively, these results suggest that heparin-Sepharose chromatography can efficiently separate two pharmacologically, biochemically and immunologically distinct populations of AT₂ receptors.     

Expression Analyses Revealed Thymic Stromal Co-Transporter/Slc46A2 Is in Stem Cell Populations and Is a Putative Tumor Suppressor

By combining conventional single cell analysis with flow cytometry and public database searches with bioinformatics tools, we extended the expression profiling of thymic stromal cotransporter (TSCOT), Slc46A2/Ly110, that was shown to be expressed in bipotent precursor and cortical thymic epithelial cells. Genome scale analysis verified TSCOT expression in thymic tissue- and cell type- specific fashion and is also expressed in some other epithelial tissues including skin and lung. Coexpression profiling with genes, Foxn1 and Hoxa3, revealed the role of TSCOT during the organogenesis. TSCOT expression was detected in all thymic epithelial cells (TECs), but not in the CD31⁺ endothelial cell lineage in fetal thymus. In addition, ABC transporter-dependent side population and Sca-1⁺ fetal TEC populations both contain TSCOT-expressing cells, indicating TEC stem cells express TSCOT. TSCOT expression was identified as early as in differentiating embryonic stem cells. TSCOT expression is not under the control of Foxn1 since TSCOT is present in the thymic rudiment of nude mice. By searching variations in the expression levels, TSCOT is positively associated with Grhl3 and Irf6. Cytokines such as IL1b, IL22 and IL24 are the potential regulators of the TSCOT expression. Surprisingly, we found TSCOT expression in the lung is diminished in lung cancers, suggesting TSCOT may be involved in the suppression of lung tumor development. Based on these results, a model for TEC differentiation from the stem cells was proposed in context of multiple epithelial organ formation.     

Control of FLIPL expression and TRAIL resistance by the extracellular signal-regulated kinase1/2 pathway in breast epithelial cells

Increased activation of the epidermal growth factor receptor (EGFR) is frequently observed in tumors, and inhibition of the signaling pathways originated in the EGFR normally renders tumor cells more sensitive to apoptotic stimuli. However, we show that inhibition of EGFR signaling in non-transformed breast epithelial cells by EGF deprivation or gefitinib, an inhibitor of EGFR tyrosine kinase, causes the upregulation of the long isoform of caspase-8 inhibitor FLICE-inhibitory protein (FLIP_L) and makes these cells more resistant to the tumor necrosis factor-related apoptosis-inducing ligand (TRAIL). We demonstrate that the extracellular signal-regulated kinase (ERK)1/2 pathway plays a pivotal role in the regulation of FLIP_L levels and sensitivity to TRAIL-induced apoptosis by EGF. Upregulation of FLIP_L upon EGF deprivation correlates with a decrease in c-Myc levels and c-Myc knockdown by siRNA induces FLIP_L expression. FLIP_L upregulation and resistance to TRAIL in EGF-deprived cells are reversed following activation of an estrogen activatable form of c-Myc (c-Myc-ER). Finally, constitutive activation of the ERK1/2 pathway in HER2/ERBB2-transformed cells prevents EGF deprivation-induced FLIP_L upregulation and TRAIL resistance. Collectively, our results suggest that a regulated ERK1/2 pathway is crucial to control FLIP_L levels and sensitivity to TRAIL in non-transformed cells, and this mechanism may explain the increased sensitivity of tumor cells to TRAIL, in which the ERK1/2 pathway is frequently deregulated.     

Functional Coupling of the NK1 Tachykinin Receptor to Phospholipase D in Chinese Hamster Ovary Cells and Astrocytoma Cells

Abstract: In [³H]myristic acid-prelabeled Chinese hamster ovary cells stably expressing the rat NK₁ tachykinin receptor, the selective NK₁ agonist [Pro⁹]substance P ([Pro⁹]SP) time and concentration dependently stimulated the formation of [³H]phosphatidylethanol in the presence of ethanol. This [Pro⁹]SP-induced activation of phospholipase D (PLD) was blocked by NK₁ receptor antagonists and poorly or not mimicked by NK₂ and NK₃ agonists, respectively. In confirmation of previous observations, [Pro⁹]SP also stimulated the hydrolysis of phosphoinositides, the release of arachidonic acid, and the formation of cyclic AMP (cAMP). All these [Pro⁹]SP-evoked responses could be mimicked by aluminum fluoride, but they remained unaffected in cells pretreated with pertussis toxin, suggesting that a G_i/G_o protein is not involved in these different signaling pathways. The activation of PLD by [Pro⁹]SP was sensitive to external calcium and required an active protein kinase C because the inhibition of this kinase (Ro 31-8220) or its down-regulation (long-term treatment with a phorbol ester) abolished the response. In contrast, a cAMP-dependent process was not involved in the activation of PLD because the [Pro⁹]SP-evoked response was neither affected by Rp-8-bromoadenosine 3′,5′-cyclic monophosphorothioate nor mimicked by cAMP-generating compounds (cholera toxin or forskolin) or by 8-bromo-cyclic AMP. A functional coupling of NK₁ receptors to PLD was also demonstrated in the human astrocytoma cell line U 373 MG stimulated by SP or [Pro⁹]SP. These results suggest that PLD activation could be an additional signaling pathway involved in the mechanism of action of SP in target cells expressing NK₁ receptors.     

猪细小病毒VP2蛋白在昆虫细胞中的表达及其特性

将猪细小病毒(Porcine Parvovirus, PPV)vp2基因重组到杆状病毒BacToBac表达系统的pFastBacⅠ质粒中,构建了pFastvp2质粒。在DH10Bac大肠杆菌中,pFastvp2与改造过的苜蓿夜蛾核型多角体病毒(AcNPV)基因组(Bacmid)发生同源重组,从而获得重组穿梭载体Bacmidvp2,转染Sf9细胞得到重组病毒AcNPVvp2。SDSPAGE和Westernblotting分析可见大小约为64kD的特异性带,表明AcNPVvp2在Sf9细胞中成功地表达了PPV VP2蛋白。红细胞凝集试验和间接ELISA进一步证实,表达的VP2蛋白具有与全病毒相同的血凝活性和相似的抗原性。电镜观察VP2蛋白的粗提物,发现VP2蛋白可自行装配成许多病毒样粒子(VLPs)。