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italic>Salmonella has emerged as a promising tumor-targeting strategy in recent years due to its good tumor targeting ability and certain safety. In order to further optimize its therapeutic effect, scientists have tried to modify Salmonella, including its attenuation and drug loading. This paper summarizes the mechanism and research progress of Salmonella-mediated targeted tumor therapy, and introduces the strategies and related progress of its modification and optimization. At the same time, the advantages, current challenges and future development directions of Salmonella-mediated tumor therapy are summarized.
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Pancreatic cancer is one of the most common tumors in digestive system, which is characterized by insidious clinical symptoms, strong invasion, easy metastasis and high mortality. In recent years, immunotherapy is a new direction to the treatment of solid tumors, but its applica-tion in pancreatic cancer is limited by tumor microenvironment of pancreatic cancer. The authors systematically analyze the tumor microenvironment of pancreatic cancer, summarize the clinical researches related to pancreatic cancer immunotherapy, and discuss the prospect of pancreatic cancer immunotherapy.
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@#In recent years, the chimeric antigen receptor T-cell (CAR-T) therapy has achieved breakthrough progress in the treatment of hematologic malignancies. However, when it comes to solid tumors, numerous challenges persist.These include limited CAR-T cell infiltration, susceptibility to T cell exhaustion, off-target effects, and more.Thus, novel therapeutic strategies are imperative to enhance the efficacy of CAR-T therapy for solid tumors. In comparison to standalone CAR-T approaches, the combination of CAR-T with other tumor treatment modalities has demonstrated remarkable effectiveness in both preclinical and clinical research.This review article summarizes the advancements in combining CAR-T with various solid tumor treatments: antibody drugs, oncolytic viruses, tumor vaccines, and nanomedicines.The objective is to furnish a theoretical foundation and novel perspectives for the development of innovative CAR-T combination strategies tailored for solid tumor therapy.
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Gene editing technology CRISPR/Cas9 and its derivative editing technologies including base editor and prime editor can precisely edit the target genome sequences, having been widely used in tumor therapy and achieved remarkable clinical results in tumor immunotherapy, human papilloma virus infection treatment and oncolytic virotherapy, providing a new means for tumor therapy.
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Objective:To study the effect of splenic lymphocytes isolated from mouse models of colorectal carcinoma with liver metastases induced by oncolytic herpes simplex virus type Ⅱ(oHSV2) on the growth of pulmonary metastases of colorectal carcinoma.Methods:A total of 18 6-week-old BALB/c female mice were selected, colorectal carcinoma cell line CT26 of mice in logarithmic phase was inoculated at the right back (2×10 5 per mouse) and spleen (1×10 5 per mouse) of mice, and tumor cells had hematogenous metastasis to liver through splenic vein. CT26 colorectal carcinoma with liver metastases model was constructed. All mice were respectively divided into oHSV2 group and phosphatic buffered saline (PBS) group, 9 mice in each group according to the random number table method. Mice in oHSV2 group were treated with subcutaneous intratumoral multi-point injection of 100 μl oHSV2 (the multiplicity of infection was 1) for 6 cycles, while mice in PBS group were treated with subcutaneous intratumoral multi-point injection of 100 μl PBS for 6 cycles in total, once injection every other day; the survival of mice was analyzed by using Kaplan-Meier method and tumor growth was observed. The mice of both groups in mouse models of colorectal carcinoma with liver metastases were killed on day 20 and their splenic lymphocytes were isolated. After investigation of the most suitable inoculation number and the optimal observation time of colorectal carcinoma with pulmonary metastases CT26 cell lines, 9 6-week-old BALB/c female mice were divided into the experimental group, the negative control group and the blank control group according to the random number table method, with 3 mice in each group. Mice in the experimental group were injected with splenic lymphocytes (4×10 7 per mouse) and CT26 cells (2×10 5 per mouse) isolated from mouse models induced by oHSV2 via the tail vein, mice in the negative control group were injected with splenic lymphocytes (4×10 7 per mouse) and CT26 cells (2×10 5 per mouse) isolated from normal mice with same weeks old via the tail vein, and mice in the blank control group were injected with only CT26 cells (2×10 5 per mouse) via the tail vein. The above 3 groups were executed on day 10 after inoculation, and tumor growth, histopathological changes of mice were also observed; the survival of mice was analyzed by using Kaplan-Meier method. Results:In models of colorectal carcinoma with liver metastases, liver metastases lesions were not detected in 7 mice and 2 mice had 1-2 liver metastases lesions with long diameter less than 2 mm of oHSV2 group; in PBS group, 9 mice all had multiple liver metastases lesions with tumor long diameter ranging from 1 to 10 mm. And mice in oHSV2 group survived much longer than that of mice in PBS group ( P < 0.001). In models of pulmonary metastases, the optimal number of CT26 cells in mouse tail vein was 2×10 5 per mouse; the best observation time point was day 10 after tail vein injection. On day 24 after inoculation, all mice in the negative control group and the blank control group died, while mice in the experimental group all survived on day 60, and the difference of the overall survival in the above 3 groups was statistically significant ( P = 0.007). HE staining results showed that the lung tissues of the experimental group did not show clear tumor cells, whereas the lung tissues of the negative control group and the blank control group showed extensive diffuse tumor cells. Conclusions:Splenic lymphocytes produced by oHSV2 induction in mouse models of colorectal carcinoma with liver metastases can effectively inhibit the development of pulmonary metastases in colorectal carcinoma CT26 cell of mice.
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Abstract Background: Viruses are being used as alternative and complementary tools for treating cancers. Oncolytic viruses exhibit tumor tropism, ability to enhance anti-tumor immunity and ability to be used in combination with conventional chemotherapy and radiotherapy. We have recently selected some rotavirus isolates which are adapted to efficiently infect and kill tumor cell lines. Aim: We tested five tumor cell-adapted rotavirus isolates for their ability to infect the human adenocarcinoma cell line MCF-7. Methods: Cell surface membrane-associated proteins mediating virus particle attachment were characterized using ELISA, immunoprecipitation, FACS analysis, and antibody blocking. Results: It was found that heat shock proteins (HSPs) such as Hsp90, Hsp70, Hsp60, and Hsp40 are expressed on the cell surface forming complexes with protein disulfide isomerase (PDI), integrin β3, and heat shock cognate protein 70 (Hsc70) in lipid raft microdomains. Interaction of rotavirus isolates with these cellular proteins was further confirmed by a competition assay and an inhibition assay involving the HSPs tested. Conclusion: Our findings suggest that the tumor cell-adapted rotavirus isolates studied here offer a promising tool for killing tumor cells, thus encouraging further research into this topic, including animal models.
Resumen Antecedentes: Los virus se utilizan como herramientas alternativas y complementarias para el tratamiento del cáncer. Los virus oncolíticos exhiben tropismo por tumores, capacidad para intensificar la inmunidad antitumoral y la capacidad para utilizarse en combinación con quimioterapia y radioterapia convencionales. Recientemente, hemos seleccionado algunos aislamientos de rotavirus que están adaptados para infectar y eliminar de manera eficiente líneas de células tumorales. Objetivo: Se ensayaron cinco aislamientos de rotavirus adaptados a células tumorales para determinar su capacidad para infectar la línea celular de adenocarcinoma humano MCF-7. Métodos: Las proteínas asociadas a la membrana de la superficie celular que median la unión de partículas de virus se caracterizaron mediante ELISA, inmunoprecipitación, análisis FACS y bloqueo de anticuerpos. Resultados: Se encontró que las proteínas de choque térmico (HSPs) como Hsp90, Hsp70, Hsp60 y Hsp40 se expresan en la superficie celular formando complejos con la proteína disulfuro isomerasa (PDI), la integrina β3 y la proteína análoga de choque térmico 70 (Hsc70) en microdominios lipídicos (rafts). La interacción de los aislamientos de rotavirus con estas proteínas celulares se confirmó adicionalmente mediante un ensayo de competición y un ensayo de inhibición que incluía las HSP ensayadas. Conclusión: Nuestros hallazgos sugieren que los aislamientos de rotavirus adaptados a las células tumorales estudiados aquí ofrecen una herramienta prometedora para eliminar las células tumorales, lo que estimula más investigaciones sobre este tema, incluidos los modelos animales.
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Humans , Adenocarcinoma , Rotavirus , Oncolytic Viruses , Heat-Shock Proteins , Adenocarcinoma/therapy , HSC70 Heat-Shock Proteins , MCF-7 CellsABSTRACT
OBJECTIVE:To study the effects and mechanism of oncolytic virus M 1(called M 1 virus for short )inducing the apoptosis of cervical cancer C-33A cells. METHODS :MTT assay was used to detect survival rate of C- 33A cells that were treated with different titers (0,0.001,0.01,0.1,1,10 PFU/cell)of M 1 virus. C- 33A cells were divided into control group (0 PFU/cell), low-dose,medium-dose and high-dose groups of M 1 virus(0.001,0.01,0.1 PFU/cell). After treated with corresponding titers of M1 virus for 48 h,flow cytometry was used to detect the apoptotic rate and infection rate of cells;Western blot was performed to detect the protein expression of C/EBP homologous proteins (CHOP),caspase-12,caspase-3 and cleaved-caspase- 3. RESULTS : After treated with different titers of M 1 virus,the survival rate of C- 33A cells decreased significantly (P<0.01),and showed a dose-dependent tr end. Compared with control group ,the apoptotic rate and infection rate of cells in M 1 virus groups as well as the protein expression of CHOP ,caspase-12 and cleaved-caspase- 3(except for medium-dose group )in M 1 virus medium-dose and high-dose groups were increased significantly (P<0.01). CONCLUSIONS :M1 virus can induce the apoptosis of cervical cancer C-33A cells ,and its mechanism may be related to the activation of endoplasmic reticulum stress pathway.
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Objective To analyze the type and gene features of 11 unverified HAdVs in China. Methods We downloaded HAdV genome sequences of 67 strains with clear genotypes and the HAdV reference genome sequences of 7 strains from GenBank database, analyzed them together with eleven unverified HAdV gene sequences and classified the species of each sequence based on the genetic structure, sequence similarity and phylogenetic analysis. Results Phylogenetic analysis results predicted the classification of six sequences: two of them belonged to HAdV-B and two belonged to HAdV-D (the gene homology were 97.8% and 92.8% in comparison with reference gene respectively), the rest of two sequences were not conclusive. Multiple sequence alignment was used to predict the species of five HAdVs. All of them belonged to species HAdV-B, the sequence similarity compared with reference gene was 97.9%. Conclusion Genotyping of the unverified HAdV genome from a genetic point of view predicts that seven strains might belong to species HAdV-B, two strains might belong to species HAdV-D and two strains could not be classified. The seven HAdV-B strains might be suitable for the treatment of osteosarcoma as oncolytic adenovirus.
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BACKGROUND@#Lung cancer is one of the leading causes of cancer-related morbidity and mortality. Oncolytic virotherapy is an emerging therapeutic modality that utilizes replication-competent viruses to destroy cancers. As a powerful tool to kill tumor cells with excellent safety profile, attenuated measles virus of the Edmonston strain (MV-Edm) has been widely applied in the development of tumor therapy and preclinical trials. The aim of this study was to investigate the synergistic effect of nuclear factor kappa B (NF-κB) signaling pathway inhibitor and oncolytic measles virus vaccine against lung cancer and the involved mechanisms.@*METHODS@#Using Western blot to detect MV-Edm infection of A549 and H1299 were infected by MV-Edm alone or used the NF-κB pathway inhibitor PS1145/cell autophagy related siRNA, expression level of p-IκBα, IκBα, PARP and BAX were determined by western blot. Using flow cytometry to analysis the rate of apoptosis, and using MTT [3-(4,5)-dimethylthiahiazo(-z-y1)-3,5-di-phenytetrazoliumromide] method to detect the cell survival rate.@*RESULTS@#Inhibition of cell autophagy could obviously inhibit the MV-Edm infection induced the NF-κB pathway activation in A549 and H1299. In MV-Edm infected A549 and H1299, p-IκBα level increased and IκBα level decreased over infection time, compared with control group. Inhibition of the NF-κB pathway by PS1145 could promote the apoptosis of MV-Edm infected A549 and H1299 and amplify the tumor killing effect.@*CONCLUSIONS@#The combination of NF-κB signaling pathway inhibitor pS1145 and oncolytic measles virus vaccine strains can promote the apoptosis of human lung cancer cells A549 and H1299 and enhance their oncolytic effect.
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@#[Abstract] Objective: To explore the anti-tumor activity of oncolytic adenovirus co-expressing lymphocyte activation gene 3 (LAG-3) antibody (aLAG) against glioblastoma. Methods: aLAG sequence was inserted into the skeleton of oncolytic adenovirus Ad3 to obtain recombinant oncolytic adenovirus (Ad3-aLAG). The expression of aLAG in infected gliblastoma GL261 cells was detected by WB. The cytotoxicity of recombinant oncolytic adenovirus against glioblastoma was detected by MTT method. The tumor inhibitory activity of recombinant oncolytic adenovirus against glioblastoma in vivo was evaluated with mice subcutaneous xenograft model. Tumor infiltrating T cells were detected by immunohistochemical staining, and the levels of cytokines TNF-α and IFN-γ secreted by tumor infiltrating T cells were detected by Flow cytometry. Results: The recombinant oncolytic adenovirus was successfully constructed, which could effectively express aLAG and kill GL261 cells in vitro (all P<0.01). Experimental results of mice subcutaneous xenograft model showed that the tumor inhibition ability of recombinant oncolytic adenovirus Ad3-aLAG was stronger than that of Ad3 oncolytic adenovirus (P<0.01), and Ad3-aLAG could effectively enhance the infiltration of CD3+ T cells in tumor tissue (P<0.01) and enhance the IFN-γ secretion ability of infiltrating T cells (P<0.01). Conclusion: Ad3-aLAG recombinant oncolytic adenovirus can significantly inhibit the growth of glioblastoma cells in vivo and in vitro, and enhance the anti-tumor immune response in vivo, which is promising to provide a new scheme for the treatment of glioblastoma.
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Insufficiency of standard cancer therapeutic agents and a high degree of toxicity associated with chemotherapy and radiotherapy have created a dearth of therapeutic options for metastatic cancers. Oncolytic viruses (OVs) are an emerging therapeutic option for the treatment of various human cancers. Several OVs, including poxviruses, are currently in preclinical and clinical studies and have shown to be effective in treating metastatic cancer types. Tanapoxvirus (TANV), a member of the Poxviridae family, is being developed as an OV for different human cancers due to its desirable safety and efficacy features. TANV causes a mild self-limiting febrile disease in humans, does not spread human to human, and its large genome makes it a relatively safer OV for use in humans. TANV is relatively well characterized at both molecular and clinical levels. Some of the TANV-encoded proteins that are a part of the virus' immune evasion strategy are also characterized. TANV replicates considerably slower than vaccinia virus. TANV has been shown to replicate in different human cancer cells in vitro and regresses human tumors in a nude mouse model. TANV is currently being developed as a therapeutic option for several human cancers including breast cancer, ovarian cancer, colorectal cancer, pancreatic cancer, retinoblastoma, and melanoma. This review provides a comprehensive summary from the discovery to the development of TANV as an OV candidate for a wide array of human cancers
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Introduction: Cancer is the second leading cause of death in the United States, surpassed only by cardiovascular disease. However, cancer has now overtaken cardiovascular disease as the main cause of death in 12 countries in Western Europe. The burden of cancer is posing a major challenge to health care systems worldwide and demanding improvements in methods for cancer prevention, diagnosis, and treatment. Alternative and complementary strategies for orthodox surgery, radiotherapy, and chemotherapy need to be developed. Objective: To determine the oncolytic potential of tumor cell-adapted rotavirus in terms of their ability to infect and lysate murine myeloma Sp2/0-Ag14 cells. Materials and methods: We inoculated rotaviruses Wt1-5, WWM, TRUYO, ECwt-O, and WTEW in Sp2/0-Ag14 cells and we examined their infectious effects by immunocytochemistry, immunofluorescence, flow cytometry, and DNA fragmentation assays. Results: Rotavirus infection involved the participation of some heat shock proteins, of protein disulfide isomerase (PDI), and integrin ß3. We detected the accumulation of viral antigens within the virus-inoculated cells and in the culture medium in all the rotavirus isolates examined. The rotavirus-induced cell death mechanism in Sp2/0-Ag14 cells involved changes in cell membrane permeability, chromatin condensation, and DNA fragmentation, which were compatible with cytotoxicity and apoptosis. Conclusions: The ability of the rotavirus isolates Wt1-5, WWM, TRUYO, ECwt-O, and WTEW to infect and cause cell death of Sp2/0-Ag14 cells through mechanisms that are compatible with virus-induced apoptosis makes them potential candidates as oncolytic agents.
Introducción. El cáncer es la segunda causa de muerte en los Estados Unidos, solamente superado por la enfermedad cardiovascular. Sin embargo, el cáncer aventaja a la enfermedad cardiovascular como primera causa de muerte en doce países de Europa occidental. Se requieren mejores métodos de prevención, diagnóstico y tratamiento para afrontar el gran desafío que el cáncer representa mundialmente para los sistemas de salud, y se necesita desarrollar estrategias alternativas y complementarias a la cirugía, la radioterapia y la quimioterapia convencionales. Objetivo. Evaluar el potencial oncolítico de rotavirus adaptados a células tumorales por su capacidad para infectar y lisar células Sp2/0-Ag14 de mieloma de ratón. Materiales y métodos. Los aislamientos de rotavirus Wt1-5, WWM, TRUYO, ECwt-O y WTEW se inocularon en células Sp2/0-Ag14 y se examinaron sus efectos infecciosos mediante inmunocitoquímica, inmunofluorescencia, citometría de flujo y ensayos de fragmentación del ADN. Resultados. La infección con los rotavirus Wt1-5, WWM, TRUYO, ECwt-O y WTEW implicó la participación de algunas proteínas de choque térmico, la proteína disulfuro isomerasa y la integrina ß3. La acumulación de antígenos virales intracelulares y extracelulares se detectó en todos los virus utilizados. Los mecanismos de muerte inducidos por los rotavirus en células Sp2/0-Ag14 indujeron cambios en la permeabilidad de la membrana celular, la condensación de cromatina y la fragmentación de ADN, los cuales fueron compatibles con citotoxicidad y apoptosis. Conclusiones. La capacidad de los rotavirus estudiados para infectar y causar la muerte de células Sp2/0-Ag14 mediante mecanismos compatibles con la apoptosis inducida viralmente los convierte en candidatos potenciales para ser utilizados como agentes oncolíticos.
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Oncolytic Viruses , Neoplasms/therapy , Rotavirus InfectionsABSTRACT
China is a country with a high incidence of gastric cancer, ranking the top three in terms of morbidity and mortality. More than 70% of new patients with gastric cancer have been diagnosed at advanced stage. Traditional chemotherapy drugs have hit the plateau. In recent years, oncolytic virus, which specifically kills tumor cells, has developed rapidly. It is considered to have the characteristics of targeting tumor. A large number of viruses replicate in tumor cells, leading to cell lysis or inducing immune response by releasing virus molecules and cytokines further to fight against tumor. The genetically engineered strains of oncolytic virus have shown effective anti-tumor ability both in vivo and in vitro. Its safety and effectiveness have been proved in clinical practice. So the oncolytic virotherapy is expected to be a new direction and breakthrough point in the treatment of gastric cancer. This paper reviews the anti-tumor mechanism, the research progress of genetically engineered strains in the treatment of gastric cancer and the existing challenges of oncolytic virus.
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Human adenoviruses are widespread causative agent that induces respiratory diseases, epidemic keratoconjunctivitis and other related diseases. Adenoviruses are commonly used in experimental and clinical areas. It is one of the most commonly used virus vectors in gene therapy, and it has attracted a lot of attention and has a high research potential in tumor gene therapy and virus oncolytic. Here, we summarize the biological characteristics, epidemiology and current application of adenovirus, in order to provide reference for engineering application of adenovirus.
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Humans , Adenovirus Infections, Human , Epidemiology , Virology , Adenoviruses, Human , Genetics , Genetic Engineering , Methods , Genetic Vectors , Oncolytic Virotherapy , Oncolytic Viruses , Genetics , Virus ReplicationABSTRACT
AIM:To establish a TaqMan RT-qPCR method for surveiling the spread of oncolytic virus M1 in tissue,helping control the dosage and assessing the safety of virus. METHODS:A TaqMan-based one-step RT-qPCR method for the detection and quantification of oncolytic virus M1 in the tissues was established. The virus load and distri-bution in the tissues of SD rats,cynomolgus monkeys and nude mice were also investigated. RESULTS:A pair of specific primers(Q3)and the standard viral RNA for SYBR Green RT-qPCR were screened and selected with the best specificity and amplification efficiency. By optimizing the experiment conditions,we found that the annealing temperature above 62℃reduced matrix effect but affected the amplification efficiency. So we established a one-step TaqMan RT-qPCR method and redesigned a pair of Q3 short primers(Q3S). Using the one-step TaqMan RT-qPCR and Q3S primer,the stan-dard RNA with low copy numbers was specifically detected under the background of mixed matrix RNA of SD rats or cyno-molgus monkeys. Furthermore,the method was verified to be suitable for detecting tissue distribution of M1 virus in the mice,SD rats and cynomolgus monkeys. CONCLUSION:The TaqMan-based one-step RT-qPCR constructed with Q3S primer can be used for M1 virus quantification in various tissue samples of different animals with better specificity and sen-sitivity,and may be further applied to the detection of clinical samples.
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Malignant glioma is the most common primary tumor of the central nervous system in adults, and it exhibits complex biological behavior and high malignancy. However, current therapies for malignant glioma are limited. Despite standard radiation therapy, maximal safe surgical resection, and combined radiochemotherapy, clinical outcomes remain dismal. Patients diagnosed with GBM only have a median survival of approximately 15 months. Several molecular targets and immunotherapies have recently emerged, and the field has made great progress, particularly with respect to oncolytic virus, which has received extensive attention among researchers because of its unique targeting, security, and antitumor effects. Oncolytic virus therapy has demonstrated considerable efficacy in basic and clinical research of various cancers. Furthermore, relevant investigations of malignant glioma are being conducted for its better understanding. Here, we review the recent clinical research progress in oncolytic virus therapy for treating malignant glioma.
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Morbidity and mortality rates of bladder cancer (BC) are still rising with a poor prognosis. Therefore, better biomarkers are urgently needed to advance the accurate diagnosis and treatment of BC. The limitations of the different detection techniques of circulating tumor cell (CTC) cause that the CTC as biomarkers of point of view of diagnosis and treatment of BC is not yet clear. This review first compares and analyzes the current CTC detection technology methods, and then reviews the five aspects of screening, diagnosis, staging, curative effect monitoring, prognostic evaluation, and personalized treatment of patients with malignant tumors with oncolytic virus and CTC. The application of oncolytic virus detection CTC in BC was evaluated. The results suggest that oncolytic virus with fluorescent protein combined with fluorescence microscopy and flow cytometer are used to detect CTC. This method can be only used to detect live CTCs, instead of dead CTCs. The CTC count is more accurate, efficient with high sensitivity and specificity. It can also perform phenotypic analysis of CTC and single-cell sequencing. It can be used for screening, diagnosis, and guidance of targeted therapy for bladder cancer, assessing efficacy and judging prognosis which has a very broad clinical application prospect for advancing the accurate diagnosis and treatment of BC.
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Morbidity and mortality rates of bladder cancer (BC) are still rising with a poor prognosis. Therefore, better biomarkers are urgently needed to advance the accurate diagnosis and treatment of BC. The limitations of the different detection techniques of circulating tumor cell (CTC) cause that the CTC as biomarkers of point of view of diagnosis and treatment of BC is not yet clear. This review first compares and analyzes the current CTC detection technology methods, and then reviews the five aspects of screening, diagnosis, staging, curative effect monitoring, prognostic evaluation, and personalized treatment of patients with malignant tumors with oncolytic virus and CTC. The application of oncolytic virus detection CTC in BC was evaluated. The results suggest that oncolytic virus with fluorescent protein combined with fluorescence microscopy and flow cytometer are used to detect CTC. This method can be only used to detect live CTCs, instead of dead CTCs. The CTC count is more accurate, efficient with high sensitivity and specificity. It can also perform phenotypic analysis of CTC and single-cell sequencing. It can be used for screening, diagnosis, and guidance of targeted therapy for bladder cancer, assessing efficacy and judging prognosis which has a very broad clinical application prospect for advancing the accurate diagnosis and treatment of BC.
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Resumen Introducción. Los virus oncolíticos son virus atenuados, mutados o que por naturaleza se dirigen y matan específicamente células tumorales, sin afectar a las células normales. La administración intratumoral del virus ofrece la oportunidad de tratar el tumor primario pero no focos metastásicos, los cuales pueden ser alcanzados mediante la administración intravenosa. Sin embargo, su eficiencia puede disminuir por la presencia de una respuesta inmunológica preexistente en los sujetos tratados. Objetivo. Exponer las técnicas utilizadas para envolver y transportar los virus con el fin de eludir el sistema inmunológico antes de que el virus llegue al tumor. Materiales y métodos. Se realizó una búsqueda narrativa de la literatura original y de revisión en las bases de datos PubMed, JSTOR y EBSCO sobre métodos o técnicas utilizadas para el tratamiento del cáncer mediante el uso de virus oncolíticos. Resultados. La formación de nanocomplejos entre los virus oncolíticos y biopolímeros -ya sea mediante la unión química o mediante la unión a través de interacciones electrostáticas o el uso de micropartículas, células transportadoras, liposomas, ultrasonido o terapias combinadas- es eficaz para evitar la respuesta inmunológica del huésped contra el virus. Conclusión. Para evitar la respuesta inmunológica del huésped contra los virus oncolíticos se han desarrollo diversos métodos que permiten la liberación controlada y especifica de los mismos. Sin embargo, debido a la diversidad de los virus, se debe tener en cuenta que la eficacia de los métodos de protección y transporte depende de las características bioquímicas tanto del biomaterial como del virus.
Abstract Introduction: Oncolytic viruses are attenuated, mutated, or naturally ocurring viruses that specifically kill tumor cells without affecting normal cells. Intratumoral administration of the virus offers the opportunity to treat the primary tumor but not metastatic foci, which can be done through intravenous administration. However, its efficacy may be reduced by the presence of a pre-existing immune response in treated subjects. Objective: To present the techniques used to wrap and transport viruses in order to bypass the immune system before the virus reaches the tumor. Materials and methods: A narrative search of original and review literature was conducted in the PubMed, JSTOR and EBSCO databases on methods or techniques used for the treatment of cancer using oncolytic viruses. Results: The formation of nanocomplexes between oncolytic viruses and biopolymers -either by chemical binding or electrostatic interactions, or cell-derived microparticles, carrier cells, liposomes, ultrasound or combination therapies- is effective in preventing the host's immune response against the virus. Conclusion: Different methods that depend on the type of oncolytic virus have been developed to increase the efficacy of the therapeutic response. Controlled and specific-release virus delivery systems have been developed to avoid the immune response against them. However, due to the diversity of viruses, it should be borne in mind that the effectiveness of protection and transport methods depends on the biochemical characteristics of both the biomaterial and the virus.
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Oncolytic viruses have made great breakthroughs in cancer treatment, especially for reovirus, which can effectively induce the death of tumor cells without harming the normal tissues. More than 80% tumor cells are sensitive to reovirus infection. Reovirus induces the apoptosis of tumor cells and exerts anti-tumor immunity to achieve anti-tumor activity, and the curative effect of combination therapy with reovirus and chemotherapeutic drugs exceeds the effect of monotherapy. Reovirus can exert anti-tumor effects through different mechanisms, which is of great significance for the new and effective treatment of tumors in the future.