Effect of administering activated lymphocytes originated from the dam on the immune cell reaction in Holstein calves.

Injection of lymphokine activated killer (LAK) cells is known as useful for activation of cellular immune system. Although the effect of LAK cells has been clarified in human or mice, this effect on function of immune cells has not been examined in calves. Healthy ten Holstein calves were injected with the LAK cells 2 days after birth (LAK Group), and another eight calves were observed as controls (Control Group). All calves received the colostrum formulation on the day of birth, and then, were inoculated with a live attenuated vaccine of bovine herpesvirus (BHV)-1 at 2 (the first vaccination) and 6 (the second vaccination) weeks after birth. Peripheral blood of their dam obtained 3 weeks before calving was used for preparation of LAK cells. Blood samples were taken prior to vaccine inoculation and 3 days after the first inoculation, as well as 3 and 6 days after the second vaccination from all calves. Numbers of CD8+ and CD21+ cells increased significantly after the second vaccination in the LAK Group compared with Control Group. The present study suggested the improved effect of injecting LAK cells originated from dams on immune cells function of young calves after BHV-1 live vaccine.

Clinical effect and safety of dendritic cell-cytokine-induced killer cell immunotherapy for pancreatic cancer: a systematic review and meta-analysis.

BACKGROUND: Although promising results have recently been reported using dendritic cells (DCs) and cytokine-induced killer cells (CIKs) to treat pancreatic cancer (PC), its clinical effect and safety are associated with some controversy, and lack sufficient evidence. Here, we conducted a meta-analysis of 21 clinical trials to better evaluate the efficacy of DC-CIK immunotherapy in clinical practice to treat PC. METHODS: PubMed, Cochrane Library, China National Knowledge Infrastructure (CNKI) and Wanfang Data Knowledge Service Platform (WANFANG Data) were searched to identify clinical trials that used DC-CIK immunotherapy for PC. Meta-analysis was performed using RevMan 5.3 and Stata 12.0. RESULTS: A total of 21 clinical trials involving 1549 patients were included. Compared with traditional treatment, DC-CIK immunotherapy improved and increased the clinical indices such as complete remission, partial remission, overall response rate, disease control rate, overall survival (0.5-y OS, 1-y OS, 1.5-y OS, 2-y OS and 3-y OS), interferon γ and CD3+, CD4+, CD4+/CD8+ and CD3+CD56+ lymphocyte. Additionally, DC-CIK immunotherapy reduced stable disease, progression disease, mortality, CD8+, CD4+CD25+CD127 low lymphocyte and interleukin-4. Furthermore, it showed a low incidence of adverse reactions (22%). CONCLUSION: In contrast to traditional therapy, DC-CIK immunotherapy not only shows improved short-term effect, long-term effect and immunologic function, but also reduces mortality and negative immunoregulatory index, and shows mild adverse reactions. This is the first study to evaluate the clinical effect and safety of DC-CIK immunotherapy for PC, and it indicated that DC-CIK immunotherapy may be suitable for patients with advanced PC or intolerance to radiotherapy and chemotherapy.

Application of highly efficient and lowly toxic bufadienolides screened from toad skin in lymphatic chemotherapy for colorectal cancer through a lymphatic metastatic model.

BACKGROUND: Lymph node metastasis (LNM) remains a major obstacle to treat colorectal cancer (CRC). Increasing evidences have suggested that bufadienolides contain several fractions displaying antitumor activity and may be applied in lymphatic chemotherapy. However, effects of the highly efficient and lowly toxic (HELT) bufadienolides on CRC in lymphatic chemotherapy have not been reported. METHODS: Adenosine triphosphate tumor chemosensitivity assays (ATP-TCA) was performed to detect the inhibition rate (IR) of fractions of bufadienolides to cytokine-induced killer (CIK) cells and tumor cells. HELT fraction-loaded emulsions of different concentrations were prepared. Nude mouse bearing HCT116 tumors in footpad received high-dose emulsion (HD-E), middle-dose emulsion (MD-E), low-dose emulsion (LD-E), control emulsion (CE), Cinobufacini Injection (CI), or normal saline (NS), respectively. Hematoxylin and eosin (H&E) staining, Flow Cytometry (FCM), enzyme-linked immune sorbent assay (ELISA) and hematological examination were applied to evaluate therapeutic effects and potential toxicity. RESULTS: F18 and F19 were screened out as HELT fractions in vivo and F18-loaded emulsions of different concentrations for lymphatic administration were prepared. We confirmed that HD-E and MD-E produced obvious antitumor activities in footpad tumors and LNM compared with other groups in vitro. We also verified the effects of F18-loaded emulsions on activating hematopoietic function, stimulating proliferation of the spleen and natural killer (NK) cells, and promoting the secretion of IFN-γ and IgG1, although HD-E performed mild toxicity on liver. CONCLUSION: The present study demonstrated that lymphatic chemotherapy with HELT fraction of bufadienolides could be an effective approach to the treatment of CRC patients with LNM.

Dynamic suspension culture improves ex vivo expansion of cytokine-induced killer cells by upregulating cell activation and glucose consumption rate.

Ex vivo expansion is an effective strategy to acquire cytokine-induced killer (CIK) cells needed for clinical trials. In this work, the effects of dynamic suspension culture, which was carried out by shake flasks on a shaker, on CIK cells were investigated by the analysis of expansion characteristics and physiological functions, with the objective to optimize the culture conditions for ex vivo expansion of CIK cells. The results showed that the expansion folds of total cells in dynamic cultures reached 69.36 ± 30.36 folds on day 14, which were significantly higher than those in static cultures (9.24 ± 1.12 folds, P < 0.05), however, the proportions of CD3+ cells and CD3+CD56+ cells in both cultures were similar, leading to much higher expansion of CD3+ cells and CD3+CD56+ cells in dynamic cultures. Additionally, expanded CIK cells in two cultures possessed comparable physiological functions. Notably, significantly higher percentages of CD25+ cells and CD69+ cells were found in dynamic cultures (P < 0.05). Besides, much higher glucose consumption rate of cells (P < 0.05) but similar YLac/gluc were observed in dynamic cultures. Further, cells in dynamic cultures had better glucose utilization efficiency. Together, these results suggested that dynamic cultures improved cell activation, then accelerated glucose consumption rate, which enhanced cell expansion and promoted glucose utilization efficiency of cells.

All-trans retinoic acid enhances cytotoxicity of CIK cells against human lung adenocarcinoma by upregulating MICA and IL-2 secretion.

To determine the growth inhibition capability of all-trans retinoic acid (ATRA) with cytokine-induced killer cells (CIKs), we evaluated their effects, alone and in combination, on human lung carcinoma A549 cells. CIKs treated with ATRA significantly inhibited cell growth. Additionally, CIK with ATRA synergistically inhibited migration and invasiveness, colony formation of A549 and NCI-H520 cells. Furthermore, analysis of apoptosis markers Bcl-2, Bax, Survivin and cleaved Caspase-3 showed that Bcl-2 and Survivin mRNA levels significantly decreased, and that Bax mRNA significantly increased, in the CIK + ATRA-treated cells, with corresponding effects on their respective proteins. The involved mechanisms may be associated with upregulated expression of MHC class I-Related Chain (MICA) and interleukin (IL)-2. These results suggest that administration of combined CIK and ATRA is a potentially novel treatment for lung carcinoma.

In vivo anti-tumor effect of DC-CIK cells on human lymphoma cell line Raji.

To research on the effect of DC-CIK cells on human lymphoma cell line Raji the immunophenotype of DC-CIK cells was analyzed using flow cytometry, and its proliferation inhibition effect was detected using MTT assay. 24 nude mice (4-6 weeks old) were employed and inoculated Raji cells on right axillaries for constructing human Burkitt lymphoma model. MTT results showed that DC-CIK cells had a significant inhibitory effect on Raji cells with obvious dose- and time- dependent effect. Western Blot results confirmed that DC-CIK cells could significantly down regulate the expression of BCL-2 (P<0.05). DC-CIK cells possesses significant anti-tumor effect on human Burkitt lymphoma bearing nude mice, and down regulation of Raji induced BCL-2 cell apoptosis may be one of the inhibitory mechanisms of DC-CIK cells.

The cytotoxic action of the CD56+ fraction of cytokine-induced killer cells against a K562 cell line is mainly restricted to the natural killer cell subset.

BACKGROUND: Cytokine-induced killer cells are polyclonal T cells generated ex vivo and comprise two main subsets: the CD56- fraction, possessing an alloreactive potential caused by T cells (CD3+CD56-), and the CD56+ fraction, characterised by a strong antitumour capacity induced by natural killer-like T cells (NK-like T, CD3+CD56+) and natural killer cells (NK, CD3-CD56+ bright). MATERIALS AND METHODS: We investigated the cytotoxic action of selected CD56+ cell subpopulations against a human chronic myeloid leukaemia (K562) cell line. RESULTS: After immunomagnetic selection of the CD56+ cell fraction, NK bright cells (CD3-CD56+ bright) and two subsets of NK-like T cells (CD3+CD56+), called NK-like T CD56 dim and NK-like T CD56 bright, could be identified. The cytotoxic effect against K562 cells was mainly exerted by the NK bright subpopulation and resulted to be inversely correlated with the percentage of NK-like T CD56 dim cells in the culture. The lytic action appeared to be independent of cell degranulation as suggested by the lack of change in the expression of CD107a. DISCUSSION: We conclude that the cytotoxic action of CD56+ cells against a K562 cell line is mainly due to the NK cells.

Immunotherapeutic effects of cytokine-induced killer cells combined with CCL21/IL15 armed oncolytic adenovirus in TERT-positive tumor cells.

The effective antitumor immune responses are dependent on coordinate interaction of various effector cells. Thus, the combination of adoptive immunotherapy and target gene therapy is capable of efficiently generating a productive antitumor immune response. We investigated whether combination of cytokine-induced killer (CIK) cells adoptive immunotherapy and CCL21/IL15 armed oncolytic adenovirus could induce the enhanced antitumor activity. The CCL21/IL15 co-expression oncolytic adenoviruses were constructed by using the AdEasy system, which uses homologous recombination with shuttle plasmids and full length Ad backbones. This conditionally replicating adenoviruses CRAd-CCL21-IL15 could induce apoptosis in TERTp-positive tumor cells for viral propagation, but do not replicate efficiently in normal cells, because the E1A promoter was replaced by telomerase reverse transcriptase promoter (TERTp). Our results showed that the combination of CIK cells and CRAd-CCL21-IL15 could induce higher antitumor activity than either CIK cells or CRAd-CCL21-IL15 alone. This combined treatment could induce the tumor specific cytotoxicity of CTLs (cytotoxic T lymphocytes) in vitro. Moreover, the treatment of established tumors with the combined therapy of CIK cells and CRAd-CCL21-IL15 resulted in tumor regression. This study suggests that the combined treatment by adoptive immunotherapy and gene therapy is a promising strategy for the therapy of tumor.

Biological Character of RetroNectin Activated Cytokine-Induced Killer Cells.

Adoptive cell therapy (ACT) using autologous cytokine-induced killer (CIK) cells is a promising treatment for metastatic carcinomas. In this study, we investigated the impact of RetroNectin on the proliferation, phenotype alternation, cytokine secretion, and cytotoxic activity of CIK cells from pancreatic cancer patients. Furthermore, we treated 13 patients with metastatic or locally advanced pancreatic cancer using autologous RetroNectin-activated CIK cells (R-CIK cells) alone or in combination with chemotherapy. Compared with only CD3 activated CIK cells (OKT-CIK cells), R-CIK cells showed stronger and faster proliferative ability, with a lower ratio of spontaneous apoptosis. Moreover, this ability continued after IL-2 was withdrawn from the culture system. R-CIK cells could also secrete higher levels of IL-2 and lower levels of IL-4 and IL-5 versus OKT-CIK cells. There was no difference between OKT-CIK and R-CIK cells in cytotoxic ability against lymphoma cell line K562. In patients who received auto-R-CIK cell infusion therapy, the overall objective response rate was 23.1%. Median survival time (mOS) after first R-CIK cell infusion was 10.57 months; the 1-year survival rate was 38.5%. No serious toxicity was associated with R-CIK cell infusion. In conclusion, RetroNectin may enhance antitumor activity of CIK cells: it is safe for use in treating pancreatic cancer.

Direct involvement of CD56 in cytokine-induced killer-mediated lysis of CD56+ hematopoietic target cells.

Cytokine-induced killer (CIK) cells are in-vitro-expanded T lymphocytes that represent a heterogeneous population. A large majority of CIK cells are CD3(+)CD56(+), and this population has been shown to confer a cytotoxic effect against tumor targets. The scope of this work was to study whether CD56 has a direct role in CIK-mediated cytotoxicity. Blocking of CD56 with the anti-CD56 monoclonal antibody GPR165 significantly reduced CIK-mediated lysis of three CD56(+) hematopoietic tumor cell lines (AML-NS8, NB4, and KCL22), whereas no effect was observed on three CD56(-) hematopoietic tumor cell lines (K562, REH, and MOLT-4). Knockdown of CD56 in CIK cells by short interfering RNA made the cells less cytotoxic against a CD56(+) target, and knockdown of CD56 in target cells with lentiviral short hairpin RNA significantly altered their susceptibility to CIK-mediated lysis. Our data suggest that homophilic interaction between CD56 molecules may occur in tumor-cell recognition, leading to CIK-mediated cell death.

Adoptive immunotherapy strategies with cytokine-induced killer (CIK) cells in the treatment of hematological malignancies.

Cytokine-induced killer (CIK) cells are a heterogeneous population of immune effector cells that feature a mixed T- and Natural killer (NK) cell-like phenotype in their terminally-differentiated CD3+CD56+ subset. The easy availability, high proliferation rate and widely major histocompatibility complex (MHC)-unrestricted antitumor activity of CIK cells contribute to their particularly advantageous profile, making them an attractive approach for adoptive immunotherapy. CIK cells have shown considerable cytotoxicity against both solid tumors and hematological malignancies in vitro and in animal studies. Recently, initial clinical experiences demonstrated the feasibility and efficacy of CIK cell immunotherapy in cancer patients, even at advanced disease stages. Likewise, the clinical application of CIK cells in combination with standard therapeutic procedures revealed synergistic antitumor effects. In this report, we will focus our consideration on CIK cells in the treatment of hematological malignancies. We will give insight into the latest advances and future perspectives and outline the most prominent results obtained in 17 clinical studies. Overall, CIK cells demonstrated a crucial impact on the treatment of patients with hematological malignancies, as evidenced by complete remissions, prolonged survival durations and improved quality of life. However, up to now, the optimal application schedule eventually favoring their integration into clinical practice has still to be developed.

Cytokine-induced killer cells promote antitumor immunity.

The number of immune cells, especially dendritic cells and cytotoxic tumor infiltrating lymphocytes (TIL), particularly Th1 cells, CD8 T cells, and NK cells is associated with increased survival of cancer patients. Such antitumor cellular immune responses can be greatly enhanced by adoptive transfer of activated type 1 lymphocytes. Recently, adoptive cell therapy based on infusion of ex vivo expanded TILs has achieved substantial clinical success. Cytokine-induced killer (CIK) cells are a heterogeneous population of effector CD8 T cells with diverse TCR specificities, possessing non-MHC-restricted cytolytic activities against tumor cells. Preclinical studies of CIK cells in murine tumor models demonstrate significant antitumor effects against a number of hematopoietic and solid tumors. Clinical studies have confirmed benefit and safety of CIK cell-based therapy for patients with comparable malignancies. Enhancing the potency and specificity of CIK therapy via immunological and genetic engineering approaches and identifying robust biomarkers of response will significantly improve this therapy.

Visión panorámica del sistema inmune / Panoramic vision of the inmune system

El sistema inmune media numerosas patologías, por lo que es importante conocer su estructura y funcionamiento. Se clasifica en innato y adquirido. El sistema inmune innato brinda una temprana e inespecífica respuesta contra los microorganismos. El sistema inmune adquirido humoral y celular nos brinda una respuesta específica para diferentes moléculas, posee memoria frente a los antígenos y diversidad para reaccionar a una gran variedad de antígenos.

The immune system mediates numerous pathologies functions por functioning it is important to know its structure and functioning. The immune system is classified into innate and adaptive immunity. The innate immunity provides early and non-specific response against microbes. The adaptive humoral and cellular immunity gives specificy for distinct molecules and has memory to enhance response to antigen and diversity to responde to large variety of antigen

Natural killer cell lines in tumor immunotherapy.

Natural killer (NK) cells are considered to be critical players in anticancer immunity. However, cancers are able to develop mechanisms to escape NK cell attack or to induce defective NK cells. Current NK cell-based cancer immunotherapy is aimed at overcoming NK cell paralysis through several potential approaches, including activating autologous NK cells, expanding allogeneic NK cells, usage of stable allogeneic NK cell lines and genetically modifying fresh NK cells or NK cell lines. The stable allogeneic NK cell line approach is more practical for quality-control and large-scale production. Additionally, genetically modifying NK cell lines by increasing their expression of cytokines and engineering chimeric tumor antigen receptors could improve their specificity and cytotoxicity. In this review, NK cells in tumor immunotherapy are discussed, and a list of therapeutic NK cell lines currently undergoing preclinical and clinical trials of several kinds of tumors are reviewed.

Cytokine induced killer cells as adoptive immunotherapy strategy to augment graft versus tumor after hematopoietic cell transplantation.

Donor lymphocyte infusion (DLI) is used to increase the graft versus tumor (GVT) effect after allogeneic hematopoietic cell transplant (HCT). The limited spectrum of activity and high risk of graft versus host disease (GVHD) remain major limitations of this approach. The finding of new cell populations for adoptive immunotherapy, with the ability to separate GVT from GVHD, would be useful. Here we review the main basic, preclinical and clinical research on cytokine-induced killer (CIK) cells, highlighting the aspects of their antitumor and alloreactive potentials that might favourably affect the balance between GVT and GVHD. CIK cells are ex vivo-expanded T lymphocytes sharing NK markers and endowed with a potent MHC-unrestricted antitumor activity against haematological and solid malignancies. Studies in preclinical animal models have demonstrated their low GVHD potential when infused across MHC-barriers, and recent clinical studies seem to confirm these findings in patients with hematological malignancies relapsing after HCT. If consolidated with larger clinical trials, adoptive immunotherapy with CIK cells might represent an effective alternative to classic DLI, helping HCT to succesfully meet current challenges like the extension across major HLA-barriers and application to solid tumors.

[The proliferation, phenotype change and anti-tumor activity of cytokine induced killer cells].

AIM: To study the growth regularity, the phenotype change and the cytotoxicity of CIK cells. METHODS: The number of CIK cells was counted by living cell counting in different culturing time to observe the growth of the CIK cells, and the phenotype change of the CIK cells was detected by flow cytometry. Meanwhile cytotoxicity of CIK cells to tumor cell lines was also detected by CytoTox96 non-radiated cytotoxicity kit. RESULTS: After stimulated by cytokines and anti-CD3 antibody, CIK cells can proliferate significantly. The cell number of CIK was increased to 473.28+/-27.53 fold in serum-free medium plus auto-serum, 218.24+/-16.86 fold in serum-free medium and only 11.52+/-1.04 fold in RPMI1640 plus fetal FCS, respectively. The CD3(+)+CD8(+), CD3(+)+CD56(+), CD226(+)+CD11a(+) and CD305(+)+CD11a(+) cells were increased with the progression of the cultural time and the CD3(+)+CD4(+) cells were decreased with the progression of cultural time. The cytotoxicity of CIK cells to tumor cell lines was significantly higher than that of LAK cells (P<0.01) and its cytotoxicity was increased with progression of the cultural time. CONCLUSION: CIK cells have strong proliferative ability and higher cytotoxicity to tumor cells in vitro, which could be used as a potential anti-tumor adoptive immunotherapy in clinic.