Establishment of a prognostic model related to tregs and natural killer cells infiltration in bladder cancer

BACKGROUND Regulatory T cells(Tregs)and natural killer(NK)cells play an essential role in the development of bladder urothelial carcinoma(BUC).AIM To construct a prognosis-related model to judge the prognosis of patients with bladder cancer,meanwhile,predict the sensitivity of patients to chemotherapy and immunotherapy.METHODS Bladder cancer information data was obtained from The Cancer Genome Atlas and GSE32894.The CIBERSORT was used to calculate the immune score of each sample.Weighted gene co-expression network analysis was used to find genes that will have the same or similar expression patterns.Subsequently,multivariate cox regression and lasso regression was used to further screen prognosis-related genes.The prrophetic package was used to predict phenotype from gene expression data,drug sensitivity of external cell line and predict clinical data.RESULTS The stage and risk scores are independent prognostic factors in patients with BUC.Mutations in FGFR3 lead to an increase in Tregs percolation and affect the prognosis of the tumor,and additionally,EMP1,TCHH and CNTNAP3B in the model are mainly positively correlated with the expression of immune checkpoints,while CMTM8,SORT1 and IQSEC1 are negatively correlated with immune checkpoints and the high-risk group had higher sensitivity to chemotherapy drugs.CONCLUSION Prognosis-related models of bladder tumor patients,based on Treg and NK cell percolation in tumor tissue.In addition to judging the prognosis of patients with bladder cancer,it can also predict the sensitivity of patients to chemotherapy and immunotherapy.At the same time,patients were divided into high and low risk groups based on this model,and differences in genetic mutations were found between the high and low risk groups.

Immune evasion and therapeutic opportunities based on natural killer cells

Natural killer(NK)cells can elicit an immune response against malignantly transformed cells without recognizing antigens,and they also exhibit cytotoxic effects and immune surveillance functions in tumor immunotherapy.Although several studies have shown the promising antitumor effects of NK cells in immunotherapy,their function is often limited in the tumor microenvironment because tumor cells can easily escape NK cell-induced death.Thus,for efficient tumor immunotherapy,the mechanism by which tumor cells escape NK cell-induced cytotoxicity must be fully understood.Various novel molecules and checkpoint receptors that mediate the disruption of NK cells in the tumor microenvironment have been discovered.In this review,we analyze and detail the major activating and inhibitory receptors on the surface of NK cells to delineate the mechanism by which tumor cells suppress NKG2D ligand expression and increase tumor receptor and inhibitory receptor expression[NKG2A,programmed cell death1(PD-1),and T-cell immunoglobulin and immunoreceptor tyrosine inhibitory motif(TIGIT)]on the NK cell surface,and thus inhibit NK cell activity.We also reviewed the current status of treatments based on these surface molecules.By comparing the therapeutic effects related to the treatment status and bypass mechanisms,we attempt to identify optimal single or combined treatments to suggest new treatment strategies for tumor immunotherapy.

Cisplatin pretreatment enhances anti-tumor activity of cytokine-induced killer cells

AIM： To investigate whether cisplatin （DDP） enhances the anti-tumor activity of cytokine- induced killer （CIK） cells in a murine colon adenocarcinoma model. METHODS： Tumor size and weight served as indicators of therapeutic response. Immunohistochemistry was performed to observe intratumoral lymphocyte infiltration and tumor microvessel density. Changes in the percentage of regulatory T （Treg） cells within the spleens of tumor-bearing mice preconditioned with DDP were monitored using flow cytometry. RESULTS： A marked T cell-dependent, synergistic anti- tumor effect of the combined therapy was observed （1968 ± 491 mm3 ys 3872 ＋ 216 mm3; P = 0,003）, Preconditioning chemotherapy with DDP augmented the infiltration of CD3＋ T lymphocytes into the tumor mass and reduced the percentage of both intratumoral and splenic Treg cells. CONCLUSION： Preconditioning with DDP markedly enhances the efficacy of adoptively transferred CIK cells, providing a potential clinical modality for the treatment of patients with colorectal cancer.

Tumor immunotherapy: New aspects of natural killer cells

A group of impressive immunotherapies for cancer treatment, including immune checkpoint-blocking antibodies,gene therapy and immune cell adoptive cellular immunotherapy, have been established, providing new weapons to fight cancer. Natural killer（NK） cells are a component of the first line of defense against tumors and virus infections. Studies have shown dysfunctional NK cells in patients with cancer. Thus, restoring NK cell antitumor functionality could be a promising therapeutic strategy. NK cells that are activated and expanded ex vivo can supplement malfunctional NK cells in tumor patients. Therapeutic antibodies, chimeric antigen receptor（CAR）, or bispecific proteins can all retarget NK cells precisely to tumor cells. Therapeutic antibody blockade of the immune checkpoints of NK cells has been suggested to overcome the immunosuppressive signals delivered to NK cells.Oncolytic virotherapy provokes antitumor activity of NK cells by triggering antiviral immune responses. Herein,we review the current immunotherapeutic approaches employed to restore NK cell antitumor functionality for the treatment of cancer.

Human natural killer cells for targeting delivery of gold nanostars and bimodal imaging directed photothermal/photodynamic therapy and immunotherapy

Objective:To construct a novel nanoplatform GNS@CaCO3/Ce6-NK by loading the CaCO3-coated gold nanostars(GNSs)with Chlorin e6 molecules(Ce6)into human peripheral blood mononuclear cells(PBMCs)-derived NK cells for tumor targeted therapy.Methods:GNS@CaCO3/Ce6 nanoparticles were prepared and characterized by TEM and UV-vis.The cell surface markers and cytokines secretion of NK cells before and after loading the GNS@CaCO3/Ce6 nanoparticles were detected by Flow Cytometry(FCM)and ELISA.Effects of the GNS@CaCO3/Ce6-NK cells on A549 cancer cells was determined by FCM and CCK-8.Intracellular fluorescent signals of GNS@CaCO3/Ce6-NK cells were detected via Confocal laser scanning microscopic(CLSM)and FCM at different time points.Intracellular ROS generation of GNS@CaCO3/Ce6-NK cells under laser irradiation were examined by FCM.The distribution of GNS@CaCO3/Ce6-NK in A549 tumor-bearing mice were observed by fluorescence imaging and PA imaging.The combination therapy of GNS@CaCO3/Ce6-NK under laser irradiation were investigated on tumor-bearing mice.Results:The coated CaC03 shell on the surface of GNSs exhibited prominent delivery and protection effect of Ce6 during the cellular uptake process.The as-prepared multifunctional GNS@CaCO3/Ce6-NK cells possessed bimodal functions of fluorescence imaging and photoacoustic imaging.The as-prepared multifunctional GNS@CaCO3/Ce6-NK cells could actively target tumor tissues with the enhanced photothermal/photodynamic therapy and immunotherapy.Conclusions:The GNS@CaCO3/Ce6-NK shows effective tumor-targeting ability and prominent therapeutic efficacy toward lung cancer A549 tumor-bearing mice.Through fully utilizing the features of GNSs and NK cells,this new nanoplatform provides a new synergistic strategy for enhanced photothermal/photodynamic therapy and immunotherapy in the field of anticancer development in the near future.

Functional distinction of rat liver natural killer cells from spleen natural killer cells under normal and acidic conditions in vitro

BACKGROUND: The microenvironment within solid tumors has often been shown to exhibit an acidic extracellular pH. Although the morphologic and functional differences in natural killer (NK) cells of the liver and spleen have been reported previously under physiological conditions, the difference under acidic conditions is still unclear. This study was to investigate the differences in the morphological and functional characteristics between rat liver and spleen NK cells under normal and acidic conditions in vitro. METHODS: Liver and spleen NK cells were isolated and purified from Sprague-Dawley rats by density gradient centrifugation and the Dynabeads FlowComp TM Flexi system, and stimulated for 4 days with or without IL-2 or treated with low pH or control for different times. Morphology was examined by scanning electron microscopy (SEM) and transmission electron microscopy (TEM), cell death and proliferation assays were performed by flow cytometry, IFN-γ production was tested by ELISA, and cytotoxic activity was evaluated by lactate dehydrogenase (LDH) release assay. RESULTS: Liver NK cells had significantly higher levels of cytotoxic activity than spleen NK cells under normal and acidic conditions, and the maximum difference was observed at pH 5.6. Further analysis revealed that the cytotoxic activity of NK cells was correlated with morphology, cell death, proliferative activity and IFN-γ production. By TEM, liver NK cells contained a greater number of electron-dense granules per cell at pH 5.6.Moreover, a modest elevation of cell death and reduction of proliferation of liver NK cells occurred within a range of 5.6-7.2. Interestingly, an acidic extracellular pH only marginally, and not significantly, suppressed IFN-γ production by liver NK cells. CONCLUSION: The sharp morphological and functional differences shown by the two types of NK cells in vitro indicate that liver NK cells are unexpectedly resistant to pH shock.

Impact of Fusobacterium nucleatum in the gastrointestinal tract on natural killer cells

BACKGROUND Gut microbial dysbiosis contributes to the development and progression of colorectal cancer(CRC).Natural killer(NK)cells are involved in early defense mechanisms to kill infective pathogens and tumor cells by releasing chemokines and cytokines.To better understand the relationship between the gut microbiome and CRC,it was hypothesized here that a high abundance of Fusobacterium nucleatum(F.nucleatum)in the gastrointestinal tract could cause reduced NK cell activity.AIM To identify associations between gastrointestinal tract F.nucleatum levels and NK cell activity.METHODS In vitro experiments were performed on NK cells treated with F.nucleatum,Peptostreptococcus anaerobius,and Parvimonas micra to identify the effects of gut microbiome species on NK cells.Following 24 and 48 h of treatment,NK cell counts were measured.In parallel studies,C57BL/6 mice were given broadspectrum antibiotics in their drinking water to reduce resident gut flora.After 3 wk,the mice received the various bacterial species or phosphate-buffered saline(PBS)via oral gavage every 2 d for 6 wk.At the study end,blood samples were acquired to perform NK cell activity assessment and cytokine analysis.Intestinal tissues were collected and analyzed via immunohistochemistry(IHC).RESULTS The data show that after 3 wk of broad-spectrum antibiotic treatment,levels of total bacteria and F.nucleatum were markedly decreased in mice.Gavage of F.nucleatum significantly decreased NK cell activity relative to the activities of cells from mice treated with antibiotics only and PBS.The administration of F.nucleatum decreased the proportion of NK46+cells based on IHC staining and increased the production of interleukin-1βand tumor necrosis factor-α.CONCLUSION High levels of F.nucleatum in the gastrointestinal tract reduced NK cell activity in mice,and the decrease in NK cell activity might be affected by increased proinflammatory cytokines after F.nucleatum treatment.

Tumor microenvironment in primary liver tumors: A challenging role of natural killer cells

In the last years,several studies have been focused on elucidate the role of tumor microenvironment(TME)in cancer development and progression.Within TME,cells from adaptive and innate immune system are one of the main abundant components.The dynamic interactions between immune and cancer cells lead to the activation of complex molecular mechanisms that sustain tumor growth.This important cross-talk has been elucidate for several kind of tumors and occurs also in patients with liver cancer,such as hepatocellular carcinoma(HCC)and intrahepatic cholangiocarcinoma(iCCA).Liver is well-known to be an important immunological organ with unique microenvironment.Here,in normal conditions,the rich immune-infiltrating cells cooperate with non-parenchymal cells,such as liver sinusoidal endothelial cells and Kupffer cells,favoring self-tolerance against gut antigens.The presence of underling liver immunosuppressive microenvironment highlights the importance to dissect the interaction between HCC and iCCA cells with immune infiltrating cells,in order to understand how this cross-talk promotes tumor growth.Deeper attention is,in fact,focused on immune-based therapy for these tumors,as promising approach to counteract the intrinsic anti-tumor activity of this microenvironment.In this review,we will examine the key pathways underlying TME cell-cell communications,with deeper focus on the role of natural killer cells in primary liver tumors,such as HCC and iCCA,as new opportunities for immune-based therapeutic strategies.

Fasudil prevents liver fibrosis via activating natural killer cells and suppressing hepatic stellate cells

BACKGROUND Fasudil,as a Ras homology family member A(RhoA)kinase inhibitor,is used to improve brain microcirculation and promote nerve regeneration clinically.Increasing evidence shows that Rho-kinase inhibition could improve liver fibrosis.AIM To evaluate the anti-fibrotic effects of Fasudil in a mouse model of liver fibrosis induced by thioacetamide(TAA).METHODS C57BL/6 mice were administered TAA once every 3 d for 12 times.At 1 wk after induction with TAA,Fasudil was intraperitoneally injected once a day for 3 wk,followed by hematoxylin and eosin staining,sirius red staining,western blotting,and quantitative polymerase chain reaction(qPCR),and immune cell activation was assayed by fluorescence-activated cell sorting.Furthermore,the effects of Fasudil on hepatic stellate cells and natural killer(NK)cells were assayed in vitro.RESULTS First,we found that TAA-induced liver injury was protected,and the positive area of sirius red staining and type I collagen deposition were significantly decreased by Fasudil treatment.Furthermore,western blot and qPCR assays showed that the levels of alpha smooth muscle actin(α-SMA),matrix metalloproteinase 2(MMP-2),MMP-9,and transforming growth factor beta 1(TGF-β1)were inhibited by Fasudil.Moreover,flow cytometry analysis revealed that NK cells were activated by Fasudil treatment in vivo and in vitro.Furthermore,Fasudil directly promoted the apoptosis and inhibited the proliferation of hepatic stellate cells by decreasingα-SMA and TGF-β1.CONCLUSION Fasudil inhibits liver fibrosis by activating NK cells and blocking hepatic stellate cell activation,thereby providing a feasible solution for the clinical treatment of liver fibrosis.

Advancement of chimeric antigen receptor-natural killer cells targeting hepatocellular carcinoma

With the advance of genome engineering technology,chimeric antigen receptors(CARs)-based immunotherapy has become an emerging therapeutic strategy for tumors.Although initially designed for T cells in tumor immunotherapy,CARs have been exploited to modify the function of natural killer(NK)cells against a variety of tumors,including hepatocellular carcinoma(HCC).CAR-NK cells have the potential to sufficiently kill tumor antigen-expressing HCC cells,independent of major histocompatibility complex matching or prior priming.In this review,we summarize the recent advances in genetic engineering of CAR-NK cells against HCC and discuss the current challenges and prospects of CAR-NK cells as a revolutionary cellular immunotherapy against HCC.

HBsAg stimulates NKG2D receptor expression on natural killer cellsand inhibits hepatitis C virus replication

Background： Higher hepatitis B surface antigen （HBsAg） facilitates hepatitis C virus （HCV） clearance inpatients with hepatitis B virus （HBV）/HCV co-infection. We investigated the effect of exogenous HBsAgon the inhibition of HCV replication mediated by natural killer （NK） cells.

CD4+ T cells and natural killer cells: Biomarkers for hepatic fibrosis in human immunodeficiency virus/hepatitis C virus-coinfected patients

AIM To characterize peripheral blood natural killer(NK) cells phenotypes by flow cytometry as potential biomarker of liver fibrosis in human immunodeficiency virus(HIV)/hepatitis C virus(HCV) coinfected patients.METHODS Peripheral mononuclear cells from 24 HIV/HCV(HBVnegative) coinfected and 5 HIV/HCV/HBV seronegative individuals were evaluated. HIV/HCV coinfected patients were divided in to groups: G1, patients with METAVIR F0-F2 and G2, patients with METAVIR F3-F4. NK surface cell staining was performed with: AntiCD3(APC/Cy7), anti-CD56(PE/Cy5), anti-CD57(APC), anti-CD25(PE), anti-CD69(FITC), anti-NKp30(PE), antiNKp46(PE/Cy7), anti-NKG2D(APC), anti-DNAM(FITC); anti-CD62L(PE/Cy7), anti-CCR7(PE), anti-TRAIL(PE), anti-Fas L(PE), anti CD94(FITC). Flow cytometry data acquisition was performed on BD FACSCanto, analyzed using Flow Jo software. Frequency of fluorescence was analyzed for all single markers. Clinical records were reviewed, and epidemiological and clinical data were obtained.RESULTS Samples from 11 patients were included in G1 and from 13 in G2. All patients were on ARV, with undetectable HIV viral load. Liver fibrosis was evaluated by transient elastography in 90% of the patients and with biopsy in 10% of the patients. Mean HCV viral load was(6.18 ± 0.7 log10). Even though, no major significant differences were observed between G1 and G2 regarding NK surface markers, it was found that patients with higher liver fibrosis presented statistically lower percentage of NK cells than individual with low to mild fibrosis and healthy controls(G2: 5.4% ± 2.3%, G1: 12.6% ± 8.2%, P = 0.002 and healthy controls 12.2% ± 2.7%, P = 0.008). It was also found that individuals with higher liver fibrosis presented lower CD4 LT count than those from G1(G2: 521 ± 312 cells/μL, G1: 770 ± 205 cells/μL; P = 0.035).CONCLUSION Higher levels of liver fibrosis were associated with lower percentage of NK cells and LTCD4+ count; and they may serve as noninvasive biomarkers of liver damage.

EFFECTS OF PERIOPERATIVE CIMETIDINE ADMINISTRATIONON NATURAL KILLER CELLS IN PATIENTS WITHGASTROINTESTINAL CANCER

Objective: To study the effects of perioperative use of cimetidine on natural killer (NK) cells in gastrointestinal (GI) cancer patients. Methods: 49 GI cancer patients were randomized into treatment group which took cimetidine in the perioperative period, and control group which did not take the drug. NK cells were measured by immunocytochemical method, using mouse-anti-human CD57 monoclonal antibody as the primary antibody. Blood samples from 20 healthy volunteers were treated in the same way as normal control. Comparisons were made within and between groups. Results: The NK cell percentage of normal control was 18.50±2.31. Both groups of patients had significantly lower than normal NK percentages before treatment (P<0.05). NK cell percentages at admission, before operation, on the 2nd and the 10th postoperative days were 14.60±3.91, 15.64±3.61, 17.40±3.28, 20.68±4.13, respectively, for the treatment group, and 14.88±2.76, 13.17±2.93, 14.50±2.77, 15.67±2.55, respectively, for control group. The difference between the two groups was statistically significant. Conclusion: Perioperative cimetidine application can help restore NK cells. The drug may be useful to reverse postoperative immuno-depression in GI cancer patients.

Why natural killer cells in triple negative breast cancer?

The triple-negative subtype of breast cancer(TNBC)has the bleakest prognosis,owing to its lack of either hormone receptor as well as human epidermal growth factor receptor 2.Henceforth,immunotherapy has emerged as the front-runner for TNBC treatment,which avoids potentially damaging chemotherapeutics.However,despite its documented association with aggressive side effects and developed resistance,immune checkpoint blockade continues to dominate the TNBC immunotherapy scene.These immune checkpoint blockade drawbacks necessitate the exploration of other immunotherapeutic methods that would expand options for TNBC patients.One such method is the exploitation and recruitment of natural killer cells,which by harnessing the innate rather than adaptive immune system could potentially circumvent the downsides of immune checkpoint blockade.In this review,the authors will elucidate the advantageousness of natural killer cell-based immuno-oncology in TNBC as well as demonstrate the need to more extensively research such therapies in the future.

EZH2 identifies the precursors of human natural killer cells with trained immunity

Objective:Trained immunity of natural killer(NK)cells has shown great potential in the treatment of cancers by eliciting enhanced effector responses to restimulation by cytokines or cancer cells for long time periods after preactivation.However,the human NK cells responsible for the generation and maintenance of trained immunity are largely unknown.We hypothesized that heterogeneous human NK cells would respond differentially to stimulation with a combination of IL-12,IL-15,and IL-18,and that an NK cell subset might exist that is mainly responsible for the induction of trained immunity.On the basis of our hypothesis,we aimed to identify the subset from which cytokine-trained human NK cells originate and to explore possible regulatory targets for drug intervention.Methods:Flow cytometry assays were performed to analyze the functions of cytokine-trained NK cells and examine cell division and protein expression in NK cell subsets.Single-cell RNA sequencing(scRNA-seq)plus TotalSeq™technology was used to track the heterogeneity of NK cells during the induction of trained immunity.Results:Traditional developmental markers for peripheral NK cells were unable to identify the precursors of human NK cells with trained immunity.Therefore,we used scRNA-seq plus TotalSeq™technology to track the heterogeneity of NK cells during the induction of trained immunity and identified a unique cluster of CD57−NKG2A+EZH2+IFNG+MKI67+IL12R+IL15R+IL18R+NK cells.Enrichment and pseudotime trajectory analyses suggested that this cluster of NK cells contained the precursor of trained NK cells.We then used flow cytometry to further investigate the role of EZH2 in trained NK precursors and found that CD57−NKG2A+EZH2+NK cells had faster cell cycles and an enhanced trained phenotype,and EZH2 inhibition significantly impaired the induction of trained immunity in NK cells.These results suggested that EZH2 is a unique epigenetic marker of precursors of human NK cells with trained immunity.Conclusions:Our work revealed human NK heterogeneity in the induction of trained immunity,identified the precursor subset for trained NK cells,and demonstrated the critical role of EZH2 in the induction of trained immunity in human NK cells.

Natural killer cells in pancreatic cancer stroma

Pancreatic cancer remains one of medicine’s largest areas of unmet need.With five-year survival rates of<8%,little improvement has been made in the last 50 years.Typically presenting with advance stage disease,treatment options are limited.To date,surgery remains the only potentially curative option,however,with such late disease presentation,the majority of patients are unresectable.Thus,new therapeutic options and a greater understanding of the complex stromal interactions within the tumour microenvironment are sorely needed to revise the dismal outlook for pancreatic cancer patients.Natural killer(NK)cells are crucial effector units in cancer immunosurveillance.Often used as a prognostic biomarker in a range of malignancies,NK cells have received much attention as an attractive target for immunotherapies,both as cell therapy and as a pharmaceutical target.Despite this interest,the role of NK cells in pancreatic cancer remains poorly defined.Nevertheless,increasing evidence of the importance of NK cells in this dismal prognosis disease is beginning to come to light.Here,we review the role of NK cells in pancreatic cancer,examine the complex interactions of these crucial effector units within pancreatic cancer stroma and shed light on the increasingly attractive use of NK cells as therapy.

Influence of four kinds of polysaccharides on the induction of lymphokine-activated killer cells in vitro

Effects of Lycium barbarum polysaccharide(LBP),Astragalus polysaccharide (APS),polysaccharide of Acanthopanax senticosus(PAS)and polysaccharide of bacterial lipopolysaccharide(PS)on the induction of lymphokine-activated killer(LAK)cells from C57BL/6 murine splenocytes were studied using [^(125)I]UdR release assay.The four polysaccharides alone were shown to induce no cytotoxicity.When combined with human recombination interleukin-2(rlL-2),they augmented LAK cell activities in a dose-dependent manner,most markedly at 0.01～0.1 mg·ml^(-1)for LBP,0.01 mg·ml^(-1) for APS and PAS,and 0.01 μg·ml^(-1) for PS.They increased LAK cell activity in a short range of rIL-2 concentrations(250～1000U·ml^(-1)).They were shown to inhibit LAK cell activity when used beyond the suitable dosage.

Myeloid-derived Suppressor Cells Activate Liver Natural Killer Cells in a Murine Model in Uveal Melanoma

Objective Elevated myeloid-derived suppressor cells(MDSCs)in many malignancies are associated with the increased risk for metastases and poor prognosis.Therefore,a mouse model of intraocular melanoma was established to explore how MDSCs influence liver metastases.Methods In this study,murine B16LS melanoma cells were transplanted into the posterior compartment(PC)of the eye of C57BL/6 mice.Leucocytes from the liver of naive mice and mice bearing melanoma liver metastasis were isolated using isotonic Percoll centrifugation,examined by flow cytometry for their expression of Gr1,CD11b,F4/80,RAE-1,and Mult-1,and further isolated for MDSCs and natural killer(NK)cells.The effects of MDSCs on NK cells were tested by coculturing and assessing the ability of NK cells to produce interferon-gamma(IFN-γ)by ELISA and NK cell cytotoxicity by 3H-thymidine incorporation assay.The impact of IFN-γon liver metastases was examined via selectively depleting IFN-γin vivo.Results The results showed that mice with liver metastases had increased levels of CD11b+Gr1+F4/80+as well as CD11b+Gr1+F4/80−MDSCs.MDSCs significantly enhanced the generation of IFN-γtogether with the cytotoxicity of the NK cells.Furthermore,these effects were cell-cell contact-dependent.Although IFN-γwas not of a toxic nature to the melanoma cells,it profoundly inhibited B16LS cell proliferation.Depleting IFN-γin vivo led to increased liver metastases.Conclusion All these findings first revealed that MDSCs accumulated in liver metastasis of intraocular melanoma could activate the NK cells to produce an effective anti-tumor immune response.Thus,the MDSCs’performance in different tumor models would need more investigation to boost current immunotherapy modalities.

Perioperative Cimetidine Application Modulates Natural Killer Cells in Patients with Colorectal Cancer: A Randomized Clinical Study

Thirty-eight colorectal cancer patients were randomly assigned to treatment group, which took cimetidine in the perioperative period, and control group to which no drug was given. Twenty healthy volunteers served as normal controls. NK cells were measured by immunocytochemical technique.The results showed that NK percentages before treatment in both groups of patients were sig-nificantly lower than those in normal controls (P<0. 05). NK cell percentages at admission, before operation, on the 2nd and the 10th postoperative days were 14. 84± 4. 41, 15. 74 ± 3. 75, 17. 21 ± 3. 69, 21. 05 ± 4. 54, respectively, for the treatment group, and 15. 00±2. 77, 13.05± 2. 46, 14. 21± 2. 19, 15. 58± 1. 68,respectively, for control group. The difference was statistically significant (P<0. 01 ), suggesting that the perioperative administration of cimetidine could help restore NK cells in colorectal cancer patients.

In vitro incubation of cytokine-induced killer cells from patients with and without hepatitis B virus and a cell subset analysis

Objective The aim of the study was to explore the difference between immune cell subsets during the incubation of cytokine-induced kill cells （CIKs） from patients with and without hepatitis B virus （HBV）. Methods Peripheral blood samples were extracted from 50 tumor patients, and were divided into two groups according to the presence or absence of HBV. The proliferation rate and activity of CIK cells were examined based on counts on days 1, 5, 7, 9, 11, 13, and 15 of culture. Additionally, the CD3＋, CD4＋, CD8＋, CD3＋CD8＋, C＋）3＋CD4＋, and CD3＋CD56＋ T cell populations were analyzed by flow cytometry on days 5, 7, 10, 13, and 15 of culture. Results Proliferation over a 15-day period was higher in the HBV-positive group than in the negative group （280-fold vs. 180-fold increase, respectively）, but there was no significant difference between the two groups at each time point. The frequencies of CD3＋, CD8＋ T, CD3＋CD8＋, and CD3＋CD56＋T cells increased over time, while those of CD4＋ and CD3＋CD4＋ T cells decreased over time, and these changes were greater in the positive group than in the negative group. The differences in CD8＋ T cells and CD3＋CD4＋ T cells between the two groups were significant （P 〈 0.05）. Conclusion The proliferative capacity of CIK cells was higher for patients in the HBV-positive group than those in the HBV-negative group, and immune cell subsets were more favorable in the HBV-positive group than the neaative arouD.