APC-independent activation of NK cells by the Toll-like receptor 3 agonist double-stranded RNA

Toll-like receptors (TLRs) play a fundamental role in the recognition of bacteria and viruses. TLR3 is activated by viral dsRNA and polyinosinic-polycytidylic acid (poly(I:C)), a synthetic mimetic of viral RNA. We show that NK cells, known for their capacity to eliminate virally infected cells, express TLR3 and up-regulate TLR3 mRNA upon poly(I:C) stimulation. Treatment of highly purified NK cells with poly(I:C) significantly augments NK cell-mediated cytotoxicity. Poly(I:C) stimulation also leads to up-regulation of activation marker CD69 on NK cells. Furthermore, NK cells respond to poly(I:C) by producing proinflammatory cytokines like IL-6 and IL-8, as well as the antiviral cytokine IFN-gamma. The induction of cytokine production by NK cells was preceded by activation of NF-kappaB. We conclude that the ability of NK cells to directly recognize and respond to viral products is important in mounting effective antiviral responses.     

Treatment of patients with transitional cell carcinoma of the urinary bladder with intravesical poly I: Poly C effects on natural killer function

Summary Considerable interest has been focused on the use of interferon (IFN) and IFN-inducers as antineoplastic agents in humans. The current report will focus on the effect of intravesical administration of Poly I: Poly C on NK activity in patients with TCC of the urinary bladder. NK cytotoxicity was measured in 14 patients with primary TCC, 8 patients received Poly I: Poly C and 5 other patients received intravesical thiotepa. Blood samples were obtained prior to and 48 h following each drug treatment. A variation in the initial NK level determined prior to treatment was observed in the different TCC patients: 5 patients treated with Poly I: Poly C and 5 patients treated with thiotepa exhibited low NK activity prior to treatment, whereas the other 3 patients who were treated with Poly I: Poly C had high initial NK levels. Following drug treatment it was shown that a significant elevation in the NK cytotoxicity was only observed in patients treated by intravesical Poly I: Poly C who had low NK activity prior to treatment. No such effect was observed in patients treated with thiotepa or in patients treated with Poly I: Poly C who exhibited a high NK activity prior to treatment.     

Differences in murine gut-associated lymphoid tissues in generating broadly nonspecific cytotoxic cells in response to interferon alpha A/D and interleukin 2

We examined the response of cells of murine gut-associated lymphoid tissues to agents that augment the activity of natural killer (NK) cells. Specifically, we studied the effect of polyinosinic: polycytidylic acid (Poly I:C) in vivo, and recombinant interferon alpha A/D (rIFN alpha A/D) and recombinant interleukin 2 (rIL2) in vitro on lymphoid cells of mesenteric lymph nodes (MLN) and Peyer's patches (PP) in generating cytotoxicity against NK-sensitive (YAC-1) and NK-insensitive (B16BL6) tumor targets. The effect of these agents on spleen cells was examined for comparison with their effect on MLN and PP cells and as a positive control. MLN and PP cells lacked spontaneous NK activity: however, NK activity could be augmented to different levels by the three agents. The treatment of mice in vivo with Poly I:C induced considerable cytotoxicity in the spleen and MLN but only a weak cytotoxic response in PP. The in vitro enhancement of NK activity by rIFN alpha A/D was strong in the spleen, intermediate in MLN, and consistently poor in PP. The weak NK augmentation by rIFN alpha A/D in PP was not restricted to a single mouse strain. PP cells from five strains of mice responded poorly to rIFN alpha A/D. Furthermore, NK augmentation by rIFN alpha A/D in PP cells did not improve after passing the responder cells through nylon wool, indicating that the lack of augmentation of NK activity was not the result of a preponderance of B cells or the masking of NK cells by adherent lymphoid populations in PP. In contrast to weak augmentation of NK activity by rIFN alpha A/D, considerable IL2-induced lymphocyte-activated killer (LAK) activity against NK-insensitive B16BL6 tumor cells was induced in PP. Limiting-dilution analysis showed that the frequency of LAK precursors in the MLN and PP was not markedly different from that of the spleen. The differences among spleen, MLN, and PP lymphoid populations in generating the broadly nonspecific cytotoxic effector cells in response to rIFN alpha A/D or rIL2 may result from differences in the pools of different pre-NK cells or to differential sensitivity of the same pool of pre-NK cells to rIFN alpha A/D and rIL2 in different anatomical locations.     

Role of the Innate Immune Response and Tumor Immunity Associated with Simian Virus 40 Large Tumor Antigen

We examined properties of the innate immune response against the tumor-specific antigen simian virus 40 (SV40) large tumor antigen (Tag) following experimental pulmonary metastasis in naive mice. Approximately 14 days after mKSA tumor cell challenge, expression of inflammatory mediators such as tumor necrosis factor alpha (TNF-α), interleukin-2 (IL-2), and RANTES was upregulated in splenocytes harvested from mice, as assessed by flow cytometry and antibody array assays. This response was hypothesized to activate and induce tumor-directed NK cell lysis since IL-2-stimulated NK cells mediated tumor cell destruction in vitro. The necessary function of NK cells was further validated in vivo through selected antibody depletion of NK cells, which resulted in an overwhelming lung tumor burden relative to that in animals receiving a control rabbit IgG depletion regimen. Interestingly, mice achieved increased protection from experimental pulmonary metastasis when NK cells were further activated indirectly through in vivo administration of poly(I:C), a Toll-like receptor 3 (TLR3) agonist. In a separate study, mice receiving treatments of poly(I:C) and recombinant SV40 Tag protein immunization mounted effective tumor immunity in an established experimental pulmonary metastasis setting. Initiating broad-based immunity with poly(I:C) was observed to induce a Th1 bias in the SV40 Tag antibody response that led to successful antitumor responses not observed in animals treated only with poly(I:C) or SV40 Tag. These data have direct implications for immunotherapeutic strategies incorporating methods to elicit inflammatory reactions, particularly NK cell-driven lysis, against malignant cell types that express a tumor-specific antigen such as SV40 Tag.Considerable interest has been directed toward the role innate immunity plays in reducing malignant growth and progression. Although the innate system by broad definition is not endowed with the antigen specificity and memory recall of adaptive immunity, natural killer (NK) cells are an innate effector population that shares most properties with the adaptive arm of the immune system, excluding receptor rearrangement (28). Interestingly, NK cells can be employed to directly target and destroy malignant cell types through diverse pathways that include tumor major histocompatibility complex class I (MHC-I) loss and upregulation of stress-inducible protein ligands for the NK cell activating receptor NKG2D (24, 29). Much effort is under way in human clinical trials to manipulate NK cell properties for directed therapies against cancer (13, 29).One strategy in eliciting innate immunity in general involves activating the Toll-like receptor (TLR) family, which are preferentially expressed by innate effectors such as NK cells, macrophages, and dendritic cells (DCs) (26). TLR ligands include a variety of pathogen-associated molecular patterns with differing downstream responses based on the cell type involved and specific TLR activated. In TLR-expressing cells, signal transduction pathways follow a MyD88-independent course to produce type I interferons (IFNs) (e.g., TLR3) or a MyD88-dependent pathway that results in the production of proinflammatory cytokines such as tumor necrosis factor alpha (TNF-α), interleukin-1 (IL-1), and IL-6 and expression of costimulatory molecules such as CD40, CD80, and CD86 (e.g., TLR4 and TLR9) (2, 12, 23, 26). In the case of TLR3, activation by poly(I:C) causes DCs and additional accessory cells to secrete type I interferons and IL-12, activating NK cells and prompting NK cell secretion of IFN-γ among other effects (14, 20). Ultimately, modulation of TLR activation results in the generation of a range of cytokines that promote inflammation, Th1 bias, and NK cell-directed killing that can be utilized in a beneficial manner for tumor treatment strategies.TLR agonist incorporation alongside vaccine strategies has resulted in promising results in mouse models of cancer (12). Indeed, the TLR7 agonist imiquimod is an effective FDA-approved topical compound used to treat superficial basal-cell carcinoma and external genital warts (9). However, to our knowledge, modulating TLR activity while also incorporating recombinant simian virus 40 (SV40) large tumor antigen (Tag) protein immunizations in a therapeutic tumor setting has not been previously reported. SV40 Tag is a clinically relevant tumor-specific antigen that has been shown to be expressed by a number of human malignancies, including malignant pleural mesothelioma (MPM), and represents a potential target for immunotherapeutic strategies.Our laboratory has previously defined a unique role for antibody-dependent cell-mediated cytotoxicity (ADCC) reactions—specific against SV40 Tag—promoting cytotoxic T-lymphocyte (CTL) activity in response to neoantigens through cross-presentation of tumor cell debris in a model of experimental pulmonary metastasis (16, 17). In this report, we analyze the role of innate immunity in mediating tumor cell lysis during the early course of tumorigenesis in the absence of vaccination. Overall, we find that activated NK cells are necessary effector cells in achieving antitumor reactions and providing partial tumor immunity during the onset of tumorigenesis and that these functioning NK cells are likely activated in vivo due to inflammation as a result of tumor growth and progression. The burden of tumor challenge could be further reduced in naive animals with the indirect activation of NK cells using poly(I:C) as a TLR3 agonist prior to and during malignant dissemination. Interestingly, in an established pulmonary tumor setting, therapeutic treatment of mice with poly(I:C) and recombinant SV40 Tag resulted in enhanced protection that was not observed using poly(I:C) or SV40 Tag alone. One effect of instituting poly(I:C) treatment alongside SV40 Tag immunizations was a Th1 skewing of the SV40 Tag IgG antibody response that correlated with therapeutic tumor protection.Our results have direct implications for the prevention and treatment of malignancies, such as MPM, that express the SV40 Tag oncoprotein. Combining specific aspects of innate and adaptive immunity by targeting both NK cells and humoral activity against SV40 Tag, respectively, represents a novel and clinically significant immunotherapeutic strategy for potential use in patients.     

The antitumor effect of the Toll-like receptor 3 ligand polyinosinic-cytidylic acid as an adjuvant

Although polyinosinic-polycytidylic acid (poly(I:C)) has been applied in tumor immunity as a Toll-like receptor 3 (TLR3) ligand, the interaction between poly(I:C) and TLR3 is still unclear, as are the mechanisms underlying the antitumor effect of poly(I:C). Our aim was to investigate the interaction between poly(I:C) and TLR3, as well as the mechanisms underlying the antitumor effect of poly(I:C). NK92 cells were maintained in medium (untreated group), or medium containing E7(44–62) (E7 group) or E7(44–62)+poly(I:C) (poly(I:C)/E7 group), and we measured the expression of TLR3 mRNA, p-p65, and IκB-α protein. The cells were first incubated in medium alone or medium containing TLR3 monoclonal antibody, and then in medium containing poly(I:C)/E7. Finally, we measured the level of interferon-beta (INF-β) in the supernatant and determined the tumor cell–killing effect of the NK92 cells. At 1 h, the expression of TLR3 mRNA in the poly(I:C)/E7 group was markedly higher than that in the untreated and E7 groups (P < 0.05). When compared with the poly(I:C)/E7 group, the expression of IκB-α was dramatically increased in the E7 and untreated groups, and the expression of p-p65 was dramatically decreased in the E7 and untreated groups (all P < 0.05). At 24 h, INF-β content and tumor cell–killing activity in the poly(I:C)/E7 group were markedly higher than those in the untreated group (P < 0.001, <0.05, respectively). Treatment with TLR3 monoclonal antibody significantly inhibited poly(I:C)/E7-induced INF-β secretion and tumor cell–killing activity in NK92 cells (P < 0.001, <0.05, respectively). The interaction between poly(I:C) and TLR3 plays an important role in the antitumor immunity of NK92 cells. In addition, the interaction between poly(I:C) and TLR3 increases INF-β expression, which may be attributed to the activation of NFκB.     

Synergy between TLR3 and IL-18 promotes IFN-γ dependent TRAIL expression in human liver NK cells

Natural killer (NK) cells are a component of innate immunity against viral infections through their rapid cytotoxic activity and cytokine production. However, intra-hepatic NK cells’ ability to respond to virus is still mostly unknown. Our results show that the synthetic dsRNA polyinosinic–polycytidylic acid (poly I:C), a mimic of a common product of viral infections, activates NK cells directly in the context of cytokines found in the liver, i.e.: poly I:C plus inflammatory cytokines (IL-18, IL-12, and IL-2) induced NK cell IFN-γ production and TRAIL expression, and anti-inflammatory cytokines (TGF-β and IL-10) inhibit NK cell IFN-γ production. Neutralization of IFN-γ blocks poly I:C plus inflammatory cytokines-induced NK cell TRAIL expression, suggesting that IFN-γ is an autocrine differentiation factor for these cells. A better understanding of the intra-hepatic NK cell activation against viral infection may help in the design of therapies and vaccines for the control of viral hepatitis.     

聚肌胞免疫刺激下仔猪外周血单核细胞的基因表达分析

聚肌胞(Poly I:C)是一种天然双链RNA(Double strand RNA, dsRNA)的拟似物,能够模拟病毒感染后所形成的dsRNA及刺激机体产生抗病毒免疫反应。文章以抗病力存在差异的大蒲莲和长白仔猪为研究对象,分离外周血单核细胞(Peripheral blood mononuclear cell, PBMC),在20 μg/mL的Poly I:C的免疫刺激下体外培养24 h,对影响免疫应答过程中的7个细胞因子(IRF3、IL6、IL8、IL10、TNFα、IFNγ和IFNα)和3个模式识别受体(TLR3、TLR4和RIG1)利用实时荧光定量PCR检测Poly I:C免疫刺激组相对于对照组的基因表达变化倍数。结果表明：检测的大部分细胞因子和受体(6个)表达量变化倍数很大,其中3种白细胞介素IL6、IL8和IL10免疫刺激变化倍数最大,平均变化倍数分别为20.71、10.87和5.18倍。对不同个体和品种间的比较发现,不仅大蒲莲和长白两品种间(大蒲莲猪的变化倍数平均高于长白猪)而且同品种的3头全同胞仔猪间对Poly I:C免疫刺激的应答也存在较大的变化。文章利用Poly I:C体外模拟dsRNA对PBMC的感染,为下一步筛选仔猪对Poly I:C刺激的免疫应答基因及鉴定大蒲莲猪特殊的抗性基因奠定了基础。     

Engagement of TLR3, TLR7, and NKG2D regulate IFN-gamma secretion but not NKG2D-mediated cytotoxicity by human NK cells stimulated with suboptimal doses of IL-12

NK cells express different TLRs, such as TLR3, TLR7, and TLR9, but little is known about their role in NK cell stimulation. In this study, we used specific agonists (poly(I:C), loxoribine, and synthetic oligonucleotides containing unmethylated CpG sequences to stimulate human NK cells without or with suboptimal doses of IL-12, IL-15, or IFN-alpha, and investigated the secretion of IFN-gamma, cytotoxicity, and expression of the activating receptor NKG2D. Poly(I:C) and loxoribine, in conjunction with IL-12, but not IL-15, triggered secretion of IFN-gamma. Inhibition of IFN-gamma secretion by chloroquine suggested that internalization of the TLR agonists was necessary. Also, secretion of IFN-gamma was dependent on MEK1/ERK, p38 MAPK, p70(S6) kinase, and NF-kappaB, but not on calcineurin. IFN-alpha induced a similar effect, but promoted lesser IFN-gamma secretion. However, cytotoxicity (51Cr release assays) against MHC class I-chain related A (MICA)- and MICA+ tumor targets remained unchanged, as well as the expression of the NKG2D receptor. Excitingly, IFN-gamma secretion was significantly increased when NK cells were stimulated with poly(I:C) or loxoribine and IL-12, and NKG2D engagement was induced by coculture with MICA+ tumor cells in a PI3K-dependent manner. We conclude that resting NK cells secrete high levels of IFN-gamma in response to agonists of TLR3 or TLR7 and IL-12, and this effect can be further enhanced by costimulation through NKG2D. Hence, integration of the signaling cascades that involve TLR3, TLR7, IL-12, and NKG2D emerges as a critical step to promote IFN-gamma-dependent NK cell-mediated effector functions, which could be a strategy to promote Th1-biased immune responses in pathological situations such as cancer.     

H-2 antigen expression and sensitivity of BL6 melanoma cells to natural killer cell cytotoxicity

The sensitivity of H-2b-high and H-2b-low variants of BL6 melanoma to the cytotoxic action of NK and lymphokine-activated killer cells was investigated. BL6 mouse melanoma cells lack detectable H-2Kb and had low levels of expression of H-2Db Ag. The BL6T2 variant cells, obtained after treatment of BL6 cells with mutagen N-methyl-N-nitro-N'-nitro-soguanidine, had relatively high levels of expression of class I H-2b Ag. Poly(I:C)-stimulated spleen cells of nude mice were highly cytotoxic for BL6T2, whereas H-2b-low BL6 cells were less sensitive to NK activity in an 18-h 51Cr-release assay. Similar results were obtained after 4-h incubation of radio-labeled tumor cells with IL-2-activated effector cells. In contrast, both lines were equally sensitive to lysis by purified granules derived from rat large granular lymphocytes (LGL) or by macrophages. By using various clones selected from BL6 or BL6T2 cells, it was found that BL6 or BL6T2 clones with low H-2b Ag expression were less sensitive to lysis by NK cells than H-2b-high clones. After IFN treatment of either BL6 or BL6T2, the target cells became more resistant to lysis by either NK cells or by purified LGL granules. IFN-treated BL6 cells had substantially increased expression of H-2b Ag and in this respect became similar to untreated BL6T2. However, IFN-treated BL6 cells were more resistant than BL6T2 cells to lysis by NK cells and LGL granules, suggesting that augmentation of H-2b Ag expression and NK resistance could be two independent IFN-induced effects. With a cold target inhibition assay, it was found that BL6T2 or its H-2 positive clones were highly competitive and inhibited the cytotoxic activity of NK and lymphokine-activated killer cells against radiolabeled YAC-1 and BL6T2, whereas BL6 cells or H-2-negative clones of BL6T2 and BL6 lines showed poor competitive ability. Thus, our data indicate that the NK resistance of H-2-low BL6 cells may be due to a paucity of NK recognizable determinants. N-Methyl-N-nitro-N'-nitroguanidine treatment of BL6 melanoma cells was associated with an increase in class I H-2b Ag expression and NK sensitivity, suggesting the involvement of class I MHC Ag in the sensitivity of tumor cells to NK cell-mediated cytotoxicity.     

The Peptide Sequence of Diacyl Lipopeptides Determines Dendritic Cell TLR2-Mediated NK Activation

Natural killer (NK) cells are lymphocyte effectors that are activated to control certain microbial infections and tumors. Many NK-activating and regulating receptors are involved in regulating NK cell function. In addition, activation of naïve NK cells is fundamentally triggered by cytokines or myeloid dendritic cells (mDC) in various modes. In this study, we synthesized 16 S-[2,3-bis(palmitoyl)propyl]cysteine (Pam2Cys) lipopeptides with sequences designed from lipoproteins of Staphylococcus aureus, and assessed their functional properties using mouse (C57BL/6) bone marrow-derived DC (BMDC) and NK cells. NK cell activation was evaluated by three criteria: IFN-γ production, up-regulation of NK activation markers and cytokines, and NK target (B16D8 cell) cytotoxicity. The diacylated lipopeptides acted as TLR2 ligands, inducing up-regulation of CD25/CD69/CD86, IL-6, and IL-12p40, which represent maturation of BMDC. Strikingly, the Pam2Cys lipopeptides induced mouse NK cell activation based on these criteria. Cell-cell contact by Pam2Cys peptide-stimulated BMDC and NK cells rather than soluble mediators released by stimulated BMDC induced activation of NK cells. For most lipopeptides, the BMDC TLR2/MyD88 pathway was responsible for driving NK activation, while some slightly induced direct activation of NK cells via the TLR2/MyD88 pathway in NK cells. The potential for NK activation was critically regulated by the peptide primary sequence. Hydrophobic or proline-containing sequences proximal to the N-terminal lipid moiety interfered with the ability of lipopeptides to induce BMDC-mediated NK activation. This mode of NK activation is distinctly different from that induced by polyI:C, which is closely associated with type I IFN-inducing pathways of BMDC. These results imply that the MyD88 pathway of BMDC governs an alternative NK-activating pathway in which the peptide sequence of TLR2-agonistic lipopeptides critically affects the potential for NK activation.     

Poly (I:C), an agonist of toll-like receptor-3, inhibits replication of the Chikungunya virus in BEAS-2B cells

ABSTRACT: BACKGROUND: Double-stranded RNA (dsRNA) and its mimic, polyinosinic acid: polycytidylic acid [Poly (I:C)], are recognized by toll-like receptor 3 (TLR3) and induce interferon (IFN)-beta in many cell types. Poly (I:C) is the most potent IFN inducer. In in vivo mouse studies, intraperitoneal injection of Poly (I:C) elicited IFN-alpha/beta production and natural killer (NK) cells activation. The TLR3 pathway is suggested to contribute to innate immune responses against many viruses, including influenza virus, respiratory syncytial virus, herpes simplex virus 2, and murine cytomegalovirus. In Chikungunya virus (CHIKV) infection, the viruses are cleared within 7-10 days postinfection before adaptive immune responses emerge. The innate immune response is important for CHIKV clearance. RESULTS: The effects of Poly (I:C) on the replication of CHIKV in human bronchial epithelial cells, BEAS-2B, were studied. Poly (I:C) suppressed cytopathic effects (CPE) induced by CHIKV infection in BEAS-2B cells in the presence of Poly (I:C) and inhibited the replication of CHIKV in the cells. The virus titers of Poly (I:C)-treated cells were much lower compared with those of untreated cells. CHIKV infection and Poly (I:C) treatment of BEAS-2B cells induced the production of IFN-beta and increased the expression of anti-viral genes, including IFN-alpha, IFN-beta, MxA, and OAS. Both Poly (I:C) and CHIKV infection upregulate the expression of TLR3 in BEAS-2B cells. CONCLUSIONS: CHIKV is sensitive to innate immune response induced by Poly (I:C). The inhibition of CHIKV replication by Poly (I:C) may be through the induction of TLR3, which triggers the production of IFNs and other anti-viral genes. The innate immune response is important to clear CHIKV in infected cells.     

Poly(I:C) enhances the susceptibility of leukemic cells to NK cell cytotoxicity and phagocytosis by DC

α active specific immunotherapy aims at stimulating the host's immune system to recognize and eradicate malignant cells. The concomitant activation of dendritic cells (DC) and natural killer (NK) cells is an attractive modality for immune-based therapies. Inducing immunogenic cell death to facilitate tumor cell recognition and phagocytosis by neighbouring immune cells is of utmost importance for guiding the outcome of the immune response. We previously reported that acute myeloid leukemic (AML) cells in response to electroporation with the synthetic dsRNA analogue poly(I:C) exert improved immunogenicity, demonstrated by enhanced DC-activating and NK cell interferon-γ-inducing capacities. To further invigorate the potential of these immunogenic tumor cells, we explored their effect on the phagocytic and cytotoxic capacity of DC and NK cells, respectively. Using single-cell analysis, we assessed these functionalities in two- and three-party cocultures. Following poly(I:C) electroporation AML cells become highly susceptible to NK cell-mediated killing and phagocytosis by DC. Moreover, the enhanced killing and the improved uptake are strongly correlated. Interestingly, tumor cell killing, but not phagocytosis, is further enhanced in three-party cocultures provided that these tumor cells were upfront electroporated with poly(I:C). Altogether, poly(I:C)-electroporated AML cells potently activate DC and NK cell functions and stimulate NK-DC cross-talk in terms of tumor cell killing. These data strongly support the use of poly(I:C) as a cancer vaccine component, providing a way to overcome immune evasion by leukemic cells.     

Augmentation of mouse natural killer cell activity by LS 2616, a new immunomodulator

The quinoline-3-carboxamide LS 2616 administered to mice in drinking water increased spontaneous cytotoxicity against YAC-1 cells in a dose-dependent manner. The enhancement of spontaneous cytotoxicity was found to be mediated by NK cells, as judged by their lack of adherence to nylon wool columns, relative resistance to treatment with antibodies to Thy-1.2 and complement, and almost total abrogation after depletion of asialo-GM1+ cells. Enhancement of NK activity was evident after 2 days of treatment, was maximal after 4 days, and remained elevated during the 14-day exposure period studied. NK activity returned to control levels 4 days after cessation of treatment. NK activity was significantly increased in spleen, peripheral blood, lymph nodes, and bone marrow of LS 2616-treated mice, while activity in peritoneal exudate cells and thymus remained low. LS 2616 was able to elevate NK activity in several mouse strains studied, including mice homozygous for the beige gene. Serum interferon levels were not increased during treatment with LS 2616. Combined injection of the interferon inducer Poly I:C and LS 2616 did not increase NK activity above that of animals injected with Poly I:C alone. However, Poly I:C, in contrast to LS 2616, increased NK activity in peritoneal exudate cells. Studies at the single cell level revealed that LS 2616 increased NK activity by increasing the number of lytically active cells via recruitment of new target-binding cells and not by increasing the lytic activity of pre-existing binders.     

Expression analysis of cathelicidin and NK‐lysin in Dabry’s sturgeon (Acipenser dabryanus)

Antimicrobial peptides (AMPs) are a conserved component of the innate immune response in many species. In the present study, the cDNA sequences encoding two AMPs (cathelicidin and NK‐lysin, comprising 1,576 and 606 bp, respectively) were cloned from Dabry's sturgeon (Acipenser dabryanus). Phylogenetic analysis demonstrated that the two AMPs were clustered together with homologous protein sequences from other fish. NK‐lysin was highly expressed during early embryonic development, suggesting maternal transmission. Tissue distribution analysis showed that cathelicidin had the highest expression in the liver and NK‐lysin was most abundantly expressed in the spleen. In response to Poly I:C treatment, the expression of cathelicidin was upregulated at 12 and 24 hr post induction (hpi), but downregulated at 72 hpi. NK‐lysin mRNA expression increased after treatment with Poly I:C, reaching a peak at 24 hpi. Lipopolysaccharide treatment also induced the expression of two antimicrobial peptide genes. Lipopolysaccharide treatment significantly upregulated the expression of cathelicidin at 6, 24, and 48 hpi, and upregulated NK‐lysin expression at 6 and 12 hpi. These results suggested that two AMPs could participate in the immune response induced by poly I:C or LPS stimulation.     

Protective effect of poly I:poly C from gentamicin nephrotoxicity in guinea pigs

Poly(inosinic) and poly(cytidylic) acids (Poly I:Poly C) have been used to induce the production of endogenous interferon or release preformed interferon in mammals. Interferon increases the resistance of the cells. Sixty guinea pigs were used to investigate whether Poly I:Poly C gave protection from gentamicin nephrotoxicity. The animals were divided into six equal groups. Group 1 were controls; group 2 received gentamicin intramuscularly; group 3 received gentamicin and 12 h later frusemide; group 4 received gentamicin and 12 h later 1-deamino-8-D-argine vasopressin (DDAVP) intramuscularly; group 5 received subcutaneously Poly I:Poly C; group 6 received Poly I:Poly C and 24 h later gentamicin. Frusemide in group 3 potentiated gentamicin nephrotoxicity while DDAVP in group 4 ameliorated gentamicin nephrotoxicity. Poly I:Poly C itself had no toxic effect on renal tissue, while Poly I:Poly C followed 24 h later by gentamicin indicated a protective effect from the gentamicin nephrotoxicity as the functional and histological investigations indicated.     

Augmentation of mouse natural killer cell activity by interferon and interferon inducers.

Interferon (IF), in addition to its anti-viral capacity, is increasingly being found to be a regulator of cell division, cell surface antigens, and cell function. To determine whether IF also plays a role in the regulation of natural killer (NK) cell activity in mice, the in vivo and in vitro effects of IF and IF inducers on NK activity were studied. We observed that pyran, lipopolysaccharide, and polyinosinicopolycytidylic acid (poly I:C) as well as crude and purified IF preparations significantly elevated splenic NK levels in normal mice within 3 to 24 hr of i.p. administration. Normal spleen cells treated with poly I:C or IF in vitro also had augmented NK activity. Poly I:C and IF were themselves not cytotoxic and their presence was not required during the lytic process, indicating that IF acts on lymphocytes to activate NK function. The addition of anti-IF in the incubation medium completely blocked the boosting of NK activity by poly I:C or IF. The characteristics of the effector cells activated by IF were consistent with those of NK cells rather than macrophages, since the boosted effector cells were not retained by a rayon column or removed by carbonyl iron. Moreover, they were resistant to treatment with anti-Thy 1.2 serum plus complement, which eliminated mature T cells.     

Poly I:C activated macrophages are tumoricidal for TNF-alpha-resistant 3LL tumor cells

Successive coculture of Lewis lung carcinoma (3LL) cells with T cell-derived lymphokines and LPS-activated macrophages has led to the acquisition of 3LL tumor variants (macrophage-resistant 3LL tumor variants (3LL-R)), manifesting a highly reduced sensitivity to the cytotoxic potential of T cell-derived lymphokines and LPS-activated macrophages and TNF-alpha. However, when 3LL-R cells are cocultured with Poly I:C-activated macrophages or with conditioned medium derived from these effector cells a significant lysis is observed. TNF-alpha participates in the cytolytic process of Poly I:C-activated macrophages as anti-TNF-alpha antibodies abolish the cytotoxic effect of these effector cells. In addition, class I IFN is involved because IFN-alpha and IFN-beta act synergistically on TNF-alpha mediated lysis of 3LL-R cells within 18 h. Moreover, anticlass I IFN antibodies abolish the cytolytic capacity of Poly I:C-activated macrophages. Hence, Poly I:C-induced macrophage-mediated cytolysis of 3LL-R cells may result from 1) the induction of macrophages by Poly I:C to secrete high amounts of TNF-alpha and class I IFN and 2) a synergism between IFN-alpha/IFN-beta and TNF-alpha on lysis of 3LL-R cells. This synergism does not result from a class I IFN-mediated enhancement of TNF-alpha receptor expression on 3LL-R cells. Therefore, the sensitivity of 3LL-R cells to TNF-alpha-mediated lysis in the presence of class I IFN is most probably regulated at the post-TNF-alpha receptor level. Furthermore, treatment of mice with Poly I:C strongly reduces the metastatic capacity of 3LL-R tumor cells, suggesting the participation of macrophages in the eradication of the established metastasis. Hence, TNF-alpha-resistant 3LL-R tumor cells may serve as a useful tool for the detection of alternative macrophage-related cytotoxins leading to the destruction of neoplastic cells both in vitro and in vivo.     

Suppression of Natural Killer Cells by Sorafenib Contributes to Prometastatic Effects in Hepatocellular Carcinoma

Sorafenib, a multi-tyrosine kinase inhibitor, is a standard treatment for advanced hepatocellular carcinoma (HCC). The present study was undertaken to determine whether the growth and metastasis of HCC were influenced in mice receiving sorafenib prior to implantation with tumors, and to investigate the in-vivo and in-vitro effect of sorafenib on natural killer (NK) cells. In sorafenib-pretreated BALB/c nu/nu mice and C57BL/6 mice, tumor growth was accelerated, mouse survival was decreased, and lung metastasis was increased. However, the depletion of NK1.1⁺ cells in C57BL/6 mice eliminated sorafenib-mediated pro-metastatic effects. Sorafenib significantly reduced the number of NK cells and inhibited reactivity of NK cells against tumor cells, in both tumor-bearing and tumor-free C57BL/6 mice. Sorafenib down-regulated the stimulatory receptor CD69 in NK cells of tumor-bearing mice, but not in tumor-free mice, and inhibited proliferation of NK92-MI cells, which is associated with the blocking of the PI3K/AKT pathway, and inhibited cytotoxicity of NK cells in response to tumor targets, which was due to impaired ERK phosphorylation. These results suggest immunotherapeutic approaches activating NK cells may enhance the therapeutic efficacy of sorafenib in HCC patients.     

Conditioned augmentation of natural killer cell activity. Independence from nociceptive effects and dependence on interferon-beta

Injection of mice with 20 micrograms polyinosinic: polycytidylic acid (Poly I:C) after exposure to camphor odor results in a conditioned augmentation of natural killer cell (NK) activity. In this study, we show that the conditioned response is not the result of nociceptive stimulation and that interferon-beta (IFN), but not IFN-alpha can replace Poly I:C as the unconditioned stimulus (US). Two conditioned stimuli (CS) were used with equivalent results. A combination CS consisting of a novel taste (saccharin) and a 125 mg/kg injection of LiCl that induces gastric upset was paired with a Poly I:C or IFN-beta (1 X 10(4) IU) injection. This resulted in an augmentation of NK activity when the conditioned animals were reexposed to the saccharin-LiCl CS. In addition, an identical conditioned response was elicited when a camphor odor CS was paired with either of these US. To test whether the conditioned response might be an artifact not detected by our controls, a mock conditioning experiment was performed, which assessed the differential effect of multiple exposures to the saccharin-LiCl CS without a CS/US pairing. The mock conditioned group was significantly suppressed relative to saline treated controls, whereas the mock nonconditioned group and the mock conditioned group that was not reexposed to the CS after conditioning did not show significant suppression. This indicates that the augmentation observed in the conditioned group after CS/US pairing was not the result of exposure to the CS itself. Small doses of Poly I:C (5 micrograms or 2.5 micrograms) given on days 3 and 5 (or on day 5 only) to boost NK activity had the effect of increasing the magnitude of the conditioned response measured on day 6. In addition, an identical conditioned response was observed when the interval between the CS/US pairing and the later CS exposures was changed, which places the test for the conditioned response either on day 6 (CS given on days 3 and 5) or day 10 (CS given on days 7 and 9). These results show that the observed conditioned enhancement of NK activity in conditioned animals is not caused by any nociceptive properties of the CS itself and is dependent on the IFN-beta produced after Poly I:C injection in the conditioned paradigm.     

Stochastic acquisition of Qa1 receptors during the development of fetal NK cells in vitro accounts in part but not in whole for the ability of these cells to distinguish between class I-sufficient and class I-deficient targets.

Fetal mouse NK cells are grossly deficient in the expression of Ly49 molecules yet show a limited ability to distinguish between wild-type and MHC class I-deficient target cells. In this paper we report that during their development in vitro from immature thymic progenitors, a proportion of C57BL/6 fetal NK cells acquires receptors for a soluble form of the nonclassical class I molecule Qa1b associated with the Qdm peptide, but not for soluble forms of the classical class I molecules Kb and Db. The acquisition of these Qa1 receptors occurs in a stochastic manner that is strictly controlled by cytokines, and in particular is strongly inhibited by IL-4. All fetal NK clones tested, including those that lack detectable Qa1 receptors, express mRNA for CD94 and for both inhibitory and noninhibitory members of the NKG2 family. Fetal NK cells lacking receptors for Qa1 (and also for classical class I molecules) cannot distinguish between wild-type and class I-deficient blasts but, surprisingly, distinguish efficiently between certain wild-type and class I-deficient tumor cells. A variant line that lacks several members of the NKG2 family kills both types of tumor cell equally well, suggesting the existence of NKG2-containing inhibitory receptors that recognize as yet undefined nonclassical class I molecules of restricted distribution.