Lung microbiome is defined as the specific microbiota of lung. Lung microbiome can make the lung in a state of chronic inflammation through direct destruction, activation of inflammatory cells and release of inflammatory factors, and then progress to lung cancer. There are significant differences in lung microbiome between lung cancer patients and healthy people. Some specific microbial flora can be used as a diagnostic marker of lung cancer. Specific microbial communities are related to the efficacy of immunotherapy, and microbial composition may be used as a marker of immune-related adverse events. There are both challenges and opportunities for research on the relationship between lung microbiome and lung cancer. This review will focus on the significance and value of lung microbiome in the occurrence, diagnosis and immunotherapy of lung cancer, in order to provide a reference for basic and clinical researchers in related fields.
The mortality rate of ovarian cancer is the highest among female reproductive tract malignancies. Although most patients have undergone recurrent treatments such as surgery, chemotherapy, and targeted therapy, the recurrence rate is still high. The exploration of scholars in this field has never stopped. In recent years, remarkable achievements have been made in the medical treatment of ovarian cancer. The research of poly adenosinediphosphate-ribose polymerase, immunotherapy (immunocheckpoint inhibitor monotherapy, immune checkpoint inhibitor combined with other drugs) and anti-angiogenic drugs have provided new methods for the treatment of this disease, and throughout the whole process of ovarian cancer treatment. This paper summarizes this, and aims to provide a reference for the clinical treatment of ovarian cancer.
ObjectiveTo explore the antitumor effect of tumor vaccine fused from dendritic cells (DC) and Walker-256 cancer cells on implanted liver cancer in rats and the related mechanism of inhibition for tumor angiogenesis. MethodsWalker-256 cancer cells and mature DC were fused by 50% polyethylene glycol method for preparation of DC-Walker-256 fusion vaccines. Implanted liver cancer models were established through operations on healthy male SD rats at the age of 6-8 weeks. All the rats were divided into four groups, and rats in each group were injected subcutanely with fusion vaccine (group), mixed cultured cells (group), simple DC (group), and PBS (blank control group), respectively. On 28 d after making model, the rats were put to death, the tumor was observed and pathological essays were prepared. All rats’ spleens were collected and prepared into lymphocyte to detect antigenic specificity cytotoxic T lymphocyte (CTL) by enzymelinked immunosorbent spot (ELISPOT) method. The expressions of VEGF, ANG-1, ANG-2, and MVD were detected by immunohistochemistry. ResultsThe numbers of rats survived in the fusion vaccine group, mixed culture cells group, simple DC group, and blank control group was 8, 5, 6, and 3, respectively. The rats in the other three groups except for fusion vaccine group were manifested as inaction, anorexia, and gloomy fur in some degree as well as ascites. The tumorigenesis was found in all survival rats except for two in the fusion vaccine group. The weight of liver tumors of rats in the fusion vaccine group 〔(32.4±9.2) g〕 was significantly lighter than that in the mixed culture cells group 〔(67.3±5.1) g, P=0.031〕, simple DC group 〔(75.0±8.3) g, P=0.019〕, and blank control group 〔(86.6±10.5) g, P=0.008〕, respectively. The number of tumorspecific CTL of rats in the fusion vaccine group was also significantly higher than that in the other three groups (P=0.019, P=0.025, and P=0.001, respectively). The MVD of tumor tissue in the fusion vaccine group was (24.12±2.32) vessels/HP, which was significantly lower than that in the mixed culture cells group 〔(40.34±1.29) vessels/HP, P=0.025〕, simple DC group 〔(42.36±3.16) vessels/HP, P=0.035〕, and blank control group 〔(56.48±5.16) vessels/HP, P=0.006〕, respectively. The MVD of tumor tissue in the mixed cultured cells group and simple DC group was similar (P=0.165), however, which was significantly lower than that in the blank control group (P=0.040 and P=0.043). The positive rate of VEGFA protein expression was 23.2% in the fusion vaccine group, which was significantly lower than that in the mixed culture cells group (42.5%, P=0.031), simple DC group (61.3%, P=0.019), and blank control group (89.6%, P=0.003), respectively. The positive rate of VEGF-A protein expression in the mixed cultured cells and simple DC groups was similar (P=0.089), however, which was significantly lower than that in the blank control group (P=0.027 and P=0.038). The positive rate of ANG-1 protein expression in the fusion vaccine group (43.2%) was not different from that in the mixed culture cells group (46.3%, P=0.292), simple DC group (51.3%, P=0.183), or blank control group (49.6%, P=0.179), respectively, and the difference of pairwise comparison in latter three groups was not significant (P=0.242, P=0.347, and P=0.182). The positive rate of ANG2 protein expression was 19.2% in the fusion vaccine group, which was significantly lower than that in the mixed culture cells group (62.3%, P=0.007), simple DC group (67.3%, P=0.005), and blank control group (71.6%, P=0.004), respectively, however, the difference of pairwise comparison in latter three groups was not significant (P=0.634, P=0.483, and P=0.379). ConclusionFused vaccine can induce CD8+ CTL aiming at tumor cells and establish the effective antitumor immunity in vivo and also downregulate the level of VEGF and ANG-2 to suppress tumor angiogenesis and thereby achieve the purpose of curing tumor.
ObjectivesTo systematically review the clinical response rate of CD19 chimeric antigen receptor modified-T cells (CD19CART) in the treatment of B cell hematological malignancies.MethodsPubMed, EMbase, CNKI, WanFang Data and VIP databases were searched to collect cohort studies about CD19CART in the treatment of B cell hematological malignancies from 2000 to 2016. Two reviewers independently screened literature, extracted data and assessed the risk of bias of included studies. Then, a single rate meta-analysis was performed by R software and SPSS 16.0 software.ResultsA total of 13 prospective cohort studies were included. The results of single group rate meta-analysis showed that the overall pooled response rate of CD19 CART was 68% (95%CI 0.51 to 0.82). The 6 months and 1-year PFS after CD19 CART infused by Kaplan-Meier were 46% (95%CI 0.35 to 0.56) and 24% (95%CI 0.16 to 0.34), respectively. The median duration was 180 days (95%CI 138 to 222). The COX regression model showed lymphodepletion to be the only influence factor of PFS.ConclusionsCD19 CART has a good clinical response rate in the treatment of B cell hematological malignancies. Lymphodepletion is the only important impact on the response rate and PFS. Due to limited quality and quantity of included studies, more high quality studies are required to verify the above conclusions.
Cancer immunotherapy refers to the therapeutic effect of controlling or eliminating tumor cells by interfering with the immune system to restore the anti-tumor immune response. Immune checkpoint inhibitor therapy that blocks programmed death -1/programmed cell death ligand-1/cytotoxic T lymphocyte-associated antigen 4 is one of the most commonly used tumor immunotherapies, with good efficacy and wide application. These drugs cause immune-related ocular complications such as uveitis, autoimmune retinopathy, and scleritis, which represent a new etiology of ocular inflammation. The ophthalmologist's grasp of the clinical characteristics of these diseases is helpful for timely diagnosis. At the same time, the ophthalmologist will work closely with the oncologist to make a comprehensive judgment based on the patient's primary tumor, survival prognosis, severity of adverse reactions related to ocular immunotherapy, and visual prognosis, and develop suitable therapeutic strategie, thereby saving the patients' vision and improving the quality of life.
Objective To investigate the effect of B7-1 and IL-12 gene expression on the immunogenicity of hepatocellular carcinoma (HCC) HepG2 cells. Methods Plasmids encoding B7-1 and IL-12 molecules were retrovirally introduced into human HCC cells,empty vector as control. PBLs were cocultured with HepG2/B7-1,HepG2/IL-12 and HepG2/neo cells. Three days later,PBLs were submitted to specific cytotoxicity test and nonspecific cytotoxicity test against K562 cells by MTT assay.Results HLA-Ⅰ molecules on PBLs were detected by FACS.HLA-Ⅰ molecules expressing on PBL cocultured with HepG2/B7-1,HepG2/IL-12 cells were enhanced by 16.95% and 14.71% than those of HepG2/neo group, respectively(P<0.05). Specific cytotoxicity against HepG2/B7-1 cells was 12.5% higher than that of against HepG2/neo cell,while no increase in that of against HepG2/IL-12 cells. Cytotoxicities against K562 cells in HepG2/B7-1,HepG2/IL-12 groups were 19.38% and 14.78% higher than those of HepG2/neo group, but no significant difference between the first two groups.Conclusion B7-1 and IL-12 gene transfer could remarkably promote immunogenicity of hepatocellular carcinoma cells and induce b specific and nonspecific immunity against hepatocellular carcinoma in vitro.
Esophageal cancer is one of the malignant tumors that poses a threat to human health, with both high incidence and malignancy. Currently, surgery following neoadjuvant chemoradiotherapy is the standard treatment for locally advanced esophageal cancer; however, the long-term prognosis remains unsatisfactory. In recent years, inhibitors of programmed death protein-1 (PD-1) and its ligand (programmed death ligand-1, PD-L1) have achieved breakthrough progress in other solid tumors, and research on esophageal cancer is gradually being conducted. With the demonstration of good efficacy of PD-1/PD-L1 inhibitors in the first-line and second-line treatment of advanced unresectable esophageal cancer, their incorporation into neoadjuvant treatment regimens has become a hot topic. Therefore, this article reviews the mechanism of action of PD-1/PD-L1 inhibitors and their application in the neoadjuvant treatment of esophageal cancer.
【Abstract】Objective To explore the effect against gastric cancer induced by Newcastle disease virus modified autologous tumor vaccine (NDV-ATV)pulsed dendritic cells(DCs). Methods The Newcastle disease virus infected the gastric cancer lines (MNK45) and was lost its activity. Peripheral blood mononuclear cell (PBMC) were cultured under condition of recombinant human granulocyte macrophage-colony stimulating factor (1 000 u/ml)+IL-4(1 000 u/ml) + TNF-α(100 ng/ml). The tumor antigen specific cytotoxic T lymphocytes (CTL) was generated from activated autologous T cell by the Newcastle disease virus infected the MNK45 pulsed DC. And Cyto Tox 96TM in vitro assayed the cytotoxicity of CTL to MNK45. Thawed gastric cancer cell antigen were used as control in these experiments. Results The killing rate of MNK45 by antigen specific CTL reached (90.15±9.82)%, which was nearly twice as high as that of control(60.57±5.74)%. The CTL had much higher cytotoxicity to different differentiated type of gastric cancer cells such as MGC803〔(52.23±6.45)% 〕 and SGC7901〔 (61.75±8.84)%〕, as compared with LOVO〔(9.11±3.42)%〕 and HepG2 〔 (8.30±3.12)%〕tumor cells(P<0.05). Conclusion Efficient and specific of against gastric cancer immunoreaction can be induced in virtue of NDV-ATV pulsed DCs, NDV-ATV loaded DCs might provide a new kind of theraputic means for gastric cancer.
Chronic cerebral hypoperfusion (CCH) plays an important role in the occurrence and development of vascular dementia (VD). Recent studies have indicated that multiple stages of immune-inflammatory response are involved in the process of cerebral ischemia, drawing increasing attention to immune therapies for cerebral ischemia. This study aims to identify potential immune therapeutic targets for CCH using bioinformatics methods from an immunological perspective. We identified a total of 823 differentially expressed genes associated with CCH, and further screened for 9 core immune-related genes, namely RASGRP1, FGF12, SEMA7A, PAK6, EDN3, BPHL, FCGRT, HSPA1B and MLNR. Gene enrichment analysis showed that core genes were mainly involved in biological functions such as cell growth, neural projection extension, and mesenchymal stem cell migration. Biological signaling pathway analysis indicated that core genes were mainly involved in the regulation of T cell receptor, Ras and MAPK signaling pathways. Through LASSO regression, we identified RASGRP1 and BPHL as key immune-related core genes. Additionally, by integrating differential miRNAs and the miRwalk database, we identified miR-216b-5p as a key immune-related miRNA that regulates RASGRP1. In summary, the predicted miR-216b-5p/RASGRP1 signaling pathway plays a significant role in immune regulation during CCH, which may provide new targets for immune therapy in CCH.
Brain metastases are the most common intracranial malignant tumors in adults. Radiotherapy isa common treatment for brain metastases. In particular, stereotactic radiosurgery can control tumors well, and can significantly reduce the impact on cognitive function compared with whole brain radiation therapy. Immune checkpoint inhibitors have less toxic side effects in the treatment of patients with advanced tumors, and show good survival advantages. This article introduces radiotherapy, immunotherapy, stereotactic radiosurgery combined with immune checkpoint inhibitors for brain metastases, discusses the mechanism of stereotactic radiosurgery combined with immune checkpoint inhibitors, and its therapeutic value and research progress in brain metastases, aiming to provide a theoretical basis for the better application of stereotactic radiosurgery combined with immune checkpoint inhibitors to brain metastases.
