MUC1-specific anti-tumor responses: molecular requirements for CD4-mediated responses

MUC1 was first defined as a tumor antigen in the late 1980s, yet little is known about the types of immune responses that mediate rejection of MUC1(+) tumors in vivo. MUC1-specific antibodies, T(h) cells and cytotoxic T cells can be detected in patients with different adenocarcinomas, yet these tumors usually progress. Thus, there is a need to better understand the in vivo mechanisms of antigen-specific tumor rejection. To characterize the nature of MUC1-specific immune responses in vivo, rejection of a MUC1-expressing melanoma tumor line (B16.MUC1) was evaluated in mice lacking specific T cell subsets, cytokines, co-stimulatory molecules or molecular effectors of cytolytic pathways. Results demonstrated that rejection of the B16.MUC1 tumor cell line was primarily mediated by CD4(+) T cells, and required Fas ligand, lymphotoxin-alpha, CD40, CD40 ligand and CD28, but not perforin, gammadelta T cells, IL-4, IL-10, IL-12 or tumor necrosis factor receptor-1. Depletion of NK cells demonstrated that NK cells might also contribute to MUC1 immunity in the B16.MUC1 tumor model. These results demonstrated that the immune response generated against MUC1 does not fit the type 1 or 2 model described for many immune responses. Additionally, multiple cytolytic mechanisms are required for B16.MUC1 rejection.     

Cure of human melanoma lung metastases in nude mice with chronic indomethacin therapy combined with multiple rounds of IL-2: characteristics of killer cells generated in situ

We have shown that macrophage-derived prostaglandin (PG)E2 inactivates all interleukin 2 (IL-2) dependent killer cell lineages in the tumor-bearing host, so that chronic indomethacin therapy (CIT) combined with multiple rounds of IL-2 can cure experimental and spontaneous metastases of a variety of murine tumors. We tested the efficacy of this therapy on experimental human melanoma metastasis in nude mice and characterized the killer cells generated in situ. BALB/c nude mice were injected i.v. with 2 x 10(6) human lung-metastasizing line P52, MeWo melanoma cells. After 5 weeks, when lung nodules were well established, mice received vehicles alone (control) or were given (a) CIT (14 micrograms/ml in drinking water); (b) three rounds of IL-2, 25,000 Cetus U, 8 hourly i.p. (days 40-44, 50-54, 60-64); (c) CIT + three rounds of IL-2; (d) CIT + four rounds of IL-2 (round 4 on days 70-74); and (e) CIT + five rounds of IL-2 (round 5 on days 80-84). Control and experimental mice were killed on day 71 to score lung colonies and evaluate killer activity in splenic and lung lymphocytes and macrophages against murine YAC-1 lymphoma and B16F10 melanoma, human P52 melanoma, K562 erythroleukemia, and Raji lymphoma targets. Killer cells for P52 were phenotyped for Thy-1, Lyt-2, and asialo-GM-1 markers by ab + C'-mediated deletion of killer function. Mice in all groups were also kept for survival. CIT alone improved splenic NK activity but marginally reduced the lung colony counts or prolonged the survival time. Three rounds of IL-2 alone reduced the median colony counts by 50% and prolonged the survival by 2 weeks, but resulted in no long-term, disease-free survival, in spite of significant activation of LAK cells with Thy-1-, Lyt-2-, AGM-1+ phenotype in the spleen. CIT + 3 rounds of IL-2 reduced the median colony counts from 40 to 0 and improved the survival from a median of 66 (control) to 120 days (40% surviving 260 + days). CIT + four or five rounds of IL-2 caused long-term (260 + days) survival of 80% mice, most surviving 400 + days. The combination therapy activated killer lymphocytes (Thy-1-, Lyt-2-, AGM-1+) and, to a smaller extent, macrophages (AGM-1 +/-) in the spleen and the lungs, showing a high cytocidal ability for all the targets.(ABSTRACT TRUNCATED AT 400 WORDS)     

Whole-body hyperthermia decreases lung metastases in lung tumor-bearing mice,possibly via a mechanism involving natural killer cells

The effects of whole-body hyperthermia (WBH) on the course of the Lewis lung carcinoma (LLC) and B16 melanoma (B16) were examined. WBH was generated by microwave (2450 MHz) at an intraperitoneal temperature of 39.5–40.0°C and an intratumoral temperature of 40.0–40.5°C for 30 min once a week, ×3 (LLC) or ×6 (B16). The mice were sacrificed 21 days (LLC) or 42 days (B16) after tumor implantation and lung metastases were scored. Natural killer (NK)-cell activity was determined against the YAC-1 tumor target in WBH-treated tumorbearing mice as well as in tumor-bearing mice but untreated controls. The number of lung metastases was significantly reduced and NK-cell activity was higher in animals treated with WBH. Thus, this study suggests that WBH interferes with the spread of organ metastases, possibly through a mechanism involving NK cells.     

Alcohol consumption suppresses metastasis of B16-BL6 melanoma in mice

Female C57BL/6 mice were fed a defined, pelleted diet and given 10% w/v or 20% w/v ethanol in their drinking water. Natural killer (NK) cell cytolytic activity was compared between water-drinking and ethanol-consuming mice and in mice that were also treated with polyinosinic-polycytidylic acid (poly I:C) to augment NK cell activity or with anti-NK1.1 antibody to decrease activity. NK cell cytolytic activity was not altered in mice given 10% ethanol, but was decreased in mice given 20% ethanol compared to water-drinking mice. Poly I:C treatment increased and anti-NK1.1 antibody treatment decreased NK cell activity in both water-drinking and 20% ethanol-consuming mice. Experimental and spontaneous metastases of B16-BL6 melanoma were evaluated as a function of the duration of ethanol consumption before tumor inoculation and as a function of altered NK cell activity. Experimental metastasis was inhibited after 4 and also after 6.5 weeks of ethanol exposure. Poly I:C treatment inhibited tumor lung colonization irrespective of ethanol consumption. Anti-NK1.1 antibody treatment increased metastasis, although to a lesser degree in mice consuming 10% ethanol. Spontaneous metastasis was inhibited in mice consuming 10% ethanol for 4 weeks, and in mice consuming 20% ethanol for 1 and 4 weeks before melanoma inoculation.     

Interleukin-10 production by lung macrophages in CBA xid mutant mice infected with Mycobacterium tuberculosis

Mice on the CBA inbred strain background expressing the well characterized mutation designated xid in the cytoplasmic signalling enzyme Bruton's protein kinase have been previously noted to illustrate shifts in T helper type 1 (Th1)/Th2 immunity which is underlined by an apparent failure to produce the regulatory cytokine interleukin-10. In the current study we examined if this extended to infection with Mycobacterium tuberculosis, which also depends on Th1 immunity. Contrary to expectations, xid mice showed evidence of a transient early susceptibility to pulmonary infection, changes in macrophage morphology, and decreased activation of lung natural killer cells, while showing evidence of substantial IL-10 production and accumulation in lung lesions macrophages, but paradoxically this did not influence the course of the chronic disease. In addition, macrophages from the lungs of xid mice also expressed high levels of CD14. These observations suggest that the xid mutation in cellular signalling has much wider effects on the immune system than previously thought.     

Activation and self-tolerance of natural killer cells

Summary: Natural killer (NK) cells are regulated by numerous stimulatory and inhibitory receptors that recognize various classes of cell surface ligands, some of which are expressed by normal healthy cells. We review two key issues in NK cell biology. How do NK cells achieve tolerance to healthy self‐cells, despite great potential variability in inhibitory and stimulatory receptor engagement? How is the disease status of unhealthy cells translated into changes in ligand expression and consequent sensitivity to NK cell lysis? Concerning the second question, we review evidence that ligands for one key NK receptor, NKG2D, are induced by the DNA damage response, which is activated in cells exposed to genotoxic stress. Because cancer cells and some infected cells are subject to genotoxic stress, these findings suggest a new concept for how diseased cells are discriminated by the immune system. Second, we review studies that have overturned the prevalent notion that NK cells achieve self‐tolerance by expressing inhibitory receptors specific for self‐major histocompatibility complex class I molecules. A subset of NK cells lacks such receptors. These NK cells are hyporesponsive when stimulatory receptors are engaged, suggesting that alterations in signaling pathways that dampen stimulatory receptor signals contribute to self‐tolerance of NK cells.     

Murine Kupffer cells and hepatic natural killer cells regulate tumor growth in a quantitative model of colorectal liver metastases

This investigation aimed to develop a biologically relevant murine model of colorectal liver metastases and determine if Kupffer cells (KC) and hepatic natural killer cells (hNKC) regulate tumor growth. The model involves the injection of murine colon adenocarcinoma 26 (MCA 26) tumor cells into the portal vein of female-specific pathogen-free BALB/c mice. Metastases developed in all animals, and the growth was limited entirely to the liver. To determine if KC and hNKC control the development of liver metastases, the in vivo function of these hepatic effector cells was modulated. Tumor growth was quantitated by the uptake of ¹²⁵I into tumor DNA. Stimulation of the KC and hNKC produced a significant (P < 0.01) dose-dependent decrease in ¹²⁵I uptake in the liver in both treatment groups, which was associated with a significant improvement in survival (P < 0.05). The in vivo cytotoxic function of the liver was inhibited with an intravenous injection of gadolinium chloride (for KC) or asialo GM₁ antiserum (for hNKC). Inhibition of KC and hNKC cytotoxic function led to a significant (P < 0.01) increase in 1251 uptake in the liver and a significant decrease in survival (P < 0.05).     

Sensitivity of tumor cells to the cytostatic action of natural killer cells and their ability to release prostaglandins of type E

Research Institute of Carcinogenesis, All-Union Oncologic Scientific Center, Academy of Medical Sciences of USSR, Moscow. (Presented by Academician of the Academy of Medical Sciences of the USSR N. N. Trapeznikov.) Translated from Byulleten' Éksperimental'noi Biologii i Meditsiny, Vol 110, No. 9, pp. 308–310, September, 1990.     

Natural and acquired resistance to Leishmania: cellular activation by Leishmania aethiopica of mononuclear cells from unexposed individuals is through the stimulation of natural killer (NK) cells.

Cells from normal non-Leishmania-exposed individuals could respond in vitro by proliferation and interferon-gamma (IFN-gamma) production to Leishmania aethiopica stimulation. The main cell type that appeared to be activated following such stimulation was CD3-, CD16+/56+, i.e. NK cells. Of the few CD3+ cells responding, an involvement of CD8+ cells was evident in the absence of activation of CD4+ cells in normal individuals, while a different feature was observed when patients' cells were investigated. Cells from patients with L. aethiopica infection did not show this NK response, but rather the CD4+ cells were the prominent responding cells. No evidence of the involvement of superantigens or cells utilizing the gamma delta T cell receptor (gamma delta cells) in the response of unexposed individuals was noted.     

Enhanced natural killer activity and production of pro-inflammatory cytokines in mice selected for high acute inflammatory response (AIRmax)

Strains of mice with maximal and minimal acute inflammatory responsiveness (AIRmax and AIRmin, respectively) were developed through selective breeding based on their high- or low-acute inflammatory responsiveness. Previous reports have shown that AIRmax mice are more resistant to the development of a variety of tumours than AIRmin mice, including spontaneous metastasis of murine melanoma. Natural killer activity is involved in immunosurveillance against tumour development, so we analysed the number and activity of natural killer cells (CD49b(+)), T-lymphocyte subsets and in vitro cytokine production by spleen cells of normal AIRmax and AIRmin mice. Analysis of lymphocyte subsets by flow cytometry showed that AIRmax mice had a higher relative number of CD49b(+) cells than AIRmin mice, as well as cytolytic activity against Yac.1 target cells. The number of CD3(+) CD8(+) cells was also higher in AIRmax mice. These findings were associated with the ability of spleen cells from AIRmax mice in vitro to produce higher levels of the pro-inflammatory cytokines tumour necrosis factor-alpha, interleukin-12p40 and interferon-gamma but not the anti-inflammatory interleukin-10. Taken together, our data suggest that the selective breeding to achieve the AIRmax and AIRmin strains was able to polarize the genes associated with cytotoxic activity, which can be responsible for the antitumour resistance observed in AIRmax mice.     

Vaccination with allogeneic dendritic cells fused to carcinoma cells induces antitumor immunity in MUC1 transgenic mice.

Fusions of autologous tumor cells with allogeneic dendritic cells (DC) represent an approach for the induction of antitumor immunity. In the present studies, we investigated the antitumor effects of vaccinating MUC1-transgenic (MUC1.Tg) mice with MC38/MUC1 carcinoma cells fused to allogeneic DC from BALB/c mice (allo-DC, H-2(d)) or syngeneic DC from C57BL/6 mice (syn-DC, H-2(b)). Both allo and syn fusion cells (FC/MUC1) expressed MHC class II, costimulatory molecules, and the MUC1 antigen. Allo-FC/MUC1 exhibited dual expression of MHC class I haplotypes (H-2(d)/H-2(b))and MUC1 antigen. By contrast, only H-2(b) and MUC1 antigen were expressed by syn-FC/MUC1. CTLs from MUC1.Tg mice immunized with allo- or syn-FC/MUC1 fusion cells lysed MC38/MUC1 targets. Moreover, immunization with allo- or syn-FC/MUC1 was effective in eliminating established MUC1-positive pulmonary metastases in MUC1.Tg mice. These results indicate that immunization of MUC1.Tg mice with syn- or allo-FC/MUC1 is effective in reversing immunologic unresponsiveness to MUC1 antigen and inducing immunity against MUC1-positive tumors. The findings in the present study have broader clinical implications for fusion cell vaccines.     

汉滩病毒核酸疫苗滴鼻及肌注免疫小鼠效果的比较研究

观察汉滩病毒DNA疫苗滴鼻及肌注免疫诱导机体产生的免疫应答,探索汉滩病毒DNA疫苗新的免疫途径。以pcDNA3.1B-S1.3进行肌肉注射及滴鼻免疫小鼠,采用ELISA、淋巴细胞转化试验及特异性CTL杀伤活性测定等方法检测其诱导的系统和黏膜免疫反应的差异。实验结果表明,滴鼻组粪IgA滴度明显高于肌注组(P<0.05);而肌注组血IgG滴度均值虽高于滴鼻组,但两者统计上无显著意义(P>0.05);滴鼻组及肌注组小鼠脾细胞分别经ConA刺激后,其刺激指数作统计分析,结果无显著性差别(P>0.05);肌注组与滴鼻组效应细胞对靶细胞的杀伤力用方差分析进行比较,无显著性差异(P>0.05)。这些均表明,滴鼻免疫对特异的黏膜免疫激发作用明显优于肌肉注射,疫苗的滴鼻免疫途径较肌注途径有着明显的优势。     

HBV和HIV的复合型DNA免疫可诱发BALB/c小鼠的细胞免疫应答

本研究是通过细胞免疫检测来研究含有两种不同病毒基因的复合型DNA免疫的效果 ,同时和单一病毒基因的DNA免疫作比较。在本实验中 ,将HBV的S基因和 (或 )HIV 1的gp12 0基因插入到真核表达载体pcDNA3中 ,得到能表达HBsAg和gp12 0融合蛋白的重组体pcDNA S 12 0 ,和能表达HBsAg的重组体pcDNA S。在实验中 ,将重组质粒DNA直接注射到BALB/c小鼠股四头肌内 ,按每只小鼠 10 0 μg/ 10 0 μl的剂量经 3次免疫后 ,在T细胞增殖实验中 ,用HBsAg蛋白刺激体外培养的被免疫小鼠T细胞后 ,出现了明显的T细胞增殖。采用51Cr释放法检测特异性CTL杀伤作用时 ,发现致敏的CTL对HIVgp12 0多肽孵育后的靶细胞P815有明显的杀伤作用。     

Cytotoxic T-Lymphocyte Responses Elicited to Wilms' Tumor Gene WT1 Product by DNA Vaccination

We recently have reported that Wilms' tumor gene WT1 is highly expressed not only in leukemias but also in various types of solid tumors and that WT1 protein is a novel tumor antigen against which cytotoxic T lymphocytes (CTLs) can be elicited by immunization with 9-mer WT1 peptides capable of binding to major histocompatibility complex (MHC) class I molecules. In the present study, plasmid DNA encoding murine full-length WT1 protein was injected intramuscularly into C57BL/6 mice. The mice vaccinated with the WT1 plasmid DNA elicited CTLs against the WT1 protein, and the CTLs specifically killed WT1-expressing tumor cells in a MHC class I-restricted manner. Furthermore, the vaccinated mice rejected the challenges of WT1-expressing tumor cells and survived with no signs of autoimmunity caused by the CTLs. These results demonstrated that vaccination with the WT1 plasmid DNA can elicit CTL responses specific for the WT1 protein, resulting in the acquisition of rejection activity against challenges of WT1-expressing tumor cells. This WT1 DNA vaccination may find clinical application for various types of solid tumors as well as leukemias.     

Functional activity of natural killer cells and killer T cells in mice after ovarian transplantation

Tashkent Postgraduate Medical Institute, Ministry of Health of the USSR. (Presented by Academician of the Academy of Medical Sciences of the USSR N. A. Lopatkin). Translated from Byulleten' Éksperimental'noi Biologii i Meditsiny, Vol. 112, No. 9, pp. 273–275, September, 1991.     

Pentoxifylline suppresses interleukin-2-mediated activation of immature human natural killer cells by inhibiting endogenous tumor necrosis factor-alpha secretion

We recently reported that immature human peripheral blood-derived natural killer (NK) cells, the free NK subset, can be activated by interleukin-2 (IL-2) to become killer cells and to undergo proliferation. Activation by IL-2 is dependent on endogenous secretion of tumor necrosis factor-alpha (TNF-) by the free cells. Because pentoxifylline (PTX) inhibits TNF- synthesis and secretion in monocytes, we hypothesized that PTX may also inhibit TNF- secretion by NK cells and thus would inhibit IL-2-mediated activation of free cells. The free NK cells were separated from purified NK cells by flow cytometry and cell sorting of non-target binding cells. IL-2-mediated secretion of TNF- by the free cells was inhibited by PTX. In the presence of PTX, IL-2-mediated activation of free cells into cytotoxic function, proliferation, and recruitment of binder and killer cells was markedly inhibited. Also, PTX inhibited IL-2-triggered upregulation of the expression of CD69, CD25, ICAM-1, and p75TNF-R on the cell surface. These findings demonstrate that PTX has a marked suppression on IL-2-mediated activation of immature free NK cells and that the suppression is due, in large part, to PTX-mediated inhibition of endogenous TNF- secretion. The implication of these findings in the clinical use of PTX for therapy is discussed.     

Secretion of type E prostaglandins (PGE) by Syrian hamster tumor cells during contact in vitro with natural killer cells

Research Institute of Carcinogenesis and Research Institute of Clinical Oncology, All-Union Scientific Center, Academy of Medical Sciences of the USSR, Moscow. (Presented by Academician of the Academy of Medical Sciences of the USSR N. N. Trapeznikov.) Translated from Byulleten' Éksperimental'noi Biologii i Meditsiny, Vol. 105, No. 2, pp. 204–206, February, 1988.     

In vivo boosting of lung natural killer and lymphokine-activated killer cell activity by interleukin-2: comparison of systemic, intrapleural and inhalation routes.

Natural killer (NK) cells are thought to play a role in host defence against malignancy and infection, in immunoregulation and as precursor cells in a generation of lymphokine-activated killer (LAK) cells which can lyse NK-resistant tumour cells. As the lung is a major site for malignancy and infection and as there are large numbers of lymphoid cells including NK cells in the interstitial compartment of the lung, we evaluated the capacity of interleukin-2 (IL-2), a lymphokine capable of augmenting NK activity in vitro, to augment lung NK cell activity in vivo, using different routes of IL-2 administration. We compared both systemic (i.v. and i.p.) and local (intrapleural and inhalation) routes of IL-2 administration (50,000 U/daily for 5 days) using CBA mice, assessing NK and LAK cell activity in the spleen (systemic) and in the lung. The target cells used for these studies were the YAC-1 (NK-sensitive) and P815, NO36 and HA56 (NK-resistant, LAK-sensitive) cell lines. Splenic NK activity was increased by 1.4-1.9-fold for i.v./i.p., respectively, compared with controls with both systemic routes of administration, and lung NK activity was increased 3.2-fold and 3.8-fold (i.v./i.p, respectively, P less than 0.05), to levels which were comparable to systemic (splenic) NK activity following the same therapy. Intrapleural IL-2 administration similarly enhanced lung NK activity (3.3-fold) and splenic NK activity (1.3-fold; P less than 0.05 versus controls for both). Surprisingly, inhaled IL-2 suppressed both splenic and lung NK cell activity (84 +/- 8% and 78 +/- 10% suppression, respectively, P less than 0.05). LAK cell activity was also enhanced in the lung by 1.8-8-fold in response to i.v., i.p. and intrapleural IL-2, whereas inhaled IL-2 was ineffective in generating LAK cell activity. These results suggest that the systemic and intrapleural administration of IL-2 effectively boost pulmonary NK and LAK activity whereas inhalation of IL-2 does not. Thus, in clinical situations where boosting of local lung NK or LAK cell activity is desired, these routes of IL-2 administration may be effective.