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C-C motif chemokine ligand 2(CCL2)and its receptor CCR2 are closely related to tumorigenesis and tumor progression.The CCL2/CCR2 signaling axis promotes tumor progression through multiple mechanisms:CCL2 binds to CCR2 on the surface of tumor cells,and thus promotes tumor growth/survival and metastasis;more importantly,CCL2 recruits a variety of immunosuppressive cells to aggregate in the tumor microenvironment,and inhibits the function and activity of immune cells,promoting tumor progression.The article reviews the CCL2/CCR2 signaling axis and its role in tumors and tumor microenvironment,with particular focus on the advances in clinical research on drugs targeting CCL2/CCR2 signaling axis,in order to gain an in-depth and overall understanding of the mechanism of action of CCL2/CCR2 axis in tumor progression and develop more effective anti-tumor immunotherapeutic agents.
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The pathogenesis theory of"spleen deficiency and stasis toxin"in gastric cancer holds that spleen is the source of generation and transformation of qi and blood,that spleen deficiency is the internal basis of disease and throughout the disease.Stasis toxin is based on spleen deficiency,which is the fundamental pathogenesis of gastric cancer.In the pathological process of gastric cancer,a variety of metabolic substances in tumor cells and tumor microenvironment,mainly glucose metabolic reprogramming,undergo metabolic changes to reconstruct the phenotype and function of tumor-related macrophages,which is consistent with the pathogenesis theory of"spleen deficiency and stasis toxin".Therefore,this article focused on the reprogramming of glucose metabolism in tumor microenvironment to drive the phenotypic remodeling of tumor-related macrophages,explored the scientific connotation of the pathogenesis theory of"spleen deficiency and stasis toxin"of gastric cancer,and provided references for the theoretical and clinical research on the treatment of gastric cancer by TCM.
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Tumor-associated macrophages (TAMs) are the predominant immune cells in the tumor microenvironment (TME). They have been shown to play an important immunosuppressive role in the development of TME and promote tumor immune escape, growth and metastasis. It is a current research hotspot to regulate the functional polarization of TAMs through trained immunity (metabolic reprogramming, epigenetic remodeling) to affect the occurrence and development of tumors. Therefore, in-depth research in this field not only presents a more comprehensive perspective on the pathogenesis of immune-mediated diseases, but also can provide new strategies for clinical anti-tumor immunotherapy. This paper outlines the origin of TAMs and the phenotypes and mechanisms of TAMs polarization, discusses the mechanisms by which metabolic reprogramming and epigenetic remodeling regulate TAMs, summarizes the regulation of TAMs activation and polarization by them, and provides an overview of the progress in TAMs at the current stage of clinical practice, hoping to provide reference for the development of new immunoprevention and treatment strategies.
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Tumor metastasis is the major cause of death for tumor patients and the key bottleneck of clinical treatment. In recent years, basic and clinical studies have recognized that tumor microenvironment (TME) is highly correlated with tumor metastasis, which provides hope for anti-metastatic drug development and clinical treatment. At present, the mainstream studies on TME represented by immune checkpoint inhibitors (ICIs) mainly focus on the rectification of immune function of T cells and B cells. However, a large number of studies have shown that the significance of other members of TME for tumor metastasis cannot be ignored, which greatly reflects the progress of anti-metastatic research based on TME regulation. This review focused on tumor metastasis, summarized the mechanism of action of non-T and non-B immune cells [tumor-associated macrophages (TAMs) and tumor-associated neutrophils (TANs)] and non-immune members [vascular endothelial cells (ECs), tumor-associated fibroblasts (CAFs), and blood platelet] in the process of tumor metastasis in TME based on the literature over the recent five years, and explored their key value in the treatment of metastasis. At the treatment level, this review focused on the perspective of the integration of frontier and traditional methods and took the functional homeostasis remodeling of TME as the entry point to summarize the activity and mechanism of traditional Chinese medicine (TCM) regulation of non-T and non-B immune cells and non-immune members and highlight its advantages and characteristics in clinical intervention of metastasis. This review helps to break through the limitations of over-reliance on T and B immune cells in anti-metastatic research, make the research rely on a wider range of cell groups, explore the potential value of TME in anti-metastatic drug intervention, and enrich the idea and strategy of understanding the anti-metastatic pharmacological activity. The review is also expected to provide a broader vision for the research and development of new anti-metastatic drugs.
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【Objective】 To analyze the association between copper death-related genes and prognosis of prostate cancer and immune cell infiltration based on the cancer genome atlas (TCGA). 【Methods】 The mRNA transcriptome data of all prostate cancer patients were downloaded from TCGA, including 501 prostate cancer tissues and 52 normal tissues.The expression matrix of copper death-related genes was extracted with R software.Differential analysis and multivariate regression analysis were conducted to screen out the prognostic genes, which were then analyzed to explore the correlation between prognosis-related genes and immune cells. 【Results】 GCSH gene was significantly correlated with the prognosis of prostate cancer, and significantly correlated with dendritic cells, CD8+ T cells and plasma cells (P<0.05). 【Conclusion】 GCSH gene plays an important role in the occurrence and development of prostate cancer, and may become a prognostic marker of the disease.
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The prostate is surrounded by adipose tissue called periprostatic adipose tissue (PPAT).This article reviews the correlation between PPAT and prostate cancer, the boundaries and methods of PPAT measurement, and the role of PPAT in prostate tumor microenvironment, so as to provide new treatment strategies and risk stratification factors for prostate cancer.
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Prostate cancer (PCa) is one of the most common tumors in men.In recent years, various researches on this disease and clinical applications have benefited patients.Exosome is a subclass of extracellular vesicles (EVs).Many studies have explored the mechanisms of exosome in mediating epithelial mesenchymal transformation, angiogenesis, tumor microenvironment establishment, immune escape and drug resistance acquisition in PCa, which provides a new perspective for finding new diagnostic markers.This article reviews the role of exosome in the pathogenesis of PCa and its diagnostic application.
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Breast cancer (BC) ranks first in the incidence rate of female malignant tumor, the notable features of which include high invasive behavior, high malignant degree and poor prognosis. Resveratrol, a plant antioxidant, has been identified as a potential therapeutic agent for the occurrence and progress of BC. This article explores the mechanism of resveratrol intervention in BC by evaluating several in vitro and in vivo studies. It was found that resveratrol can weaken the proliferation and survival ability of BC cells, suppress their growth, metastasis, and invasion, and reverse their resistance to adriamycin by promoting cell apoptosis, regulating autophagy, inhibiting glycolysis and regulating the tumor microenvironment, expressions of matrix metalloproteinases, epithelial-mesenchymal transition and drug-resistant proteins, etc. The limited number of clinical trial studies on resveratrol, mainly focusing on prevention effect of it on breast cancer, may be one of the reasons that affect the comprehensive evaluation of the anti-cancer efficacy of resveratrol.
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Breast cancer (BC) ranks first in the incidence rate of female malignant tumor, the notable features of which include high invasive behavior, high malignant degree and poor prognosis. Resveratrol, a plant antioxidant, has been identified as a potential therapeutic agent for the occurrence and progress of BC. This article explores the mechanism of resveratrol intervention in BC by evaluating several in vitro and in vivo studies. It was found that resveratrol can weaken the proliferation and survival ability of BC cells, suppress their growth, metastasis, and invasion, and reverse their resistance to adriamycin by promoting cell apoptosis, regulating autophagy, inhibiting glycolysis and regulating the tumor microenvironment, expressions of matrix metalloproteinases, epithelial-mesenchymal transition and drug-resistant proteins, etc. The limited number of clinical trial studies on resveratrol, mainly focusing on prevention effect of it on breast cancer, may be one of the reasons that affect the comprehensive evaluation of the anti-cancer efficacy of resveratrol.
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Inflammatory markers in peripheral blood, such as neutrophil-lymphocyte ratio and platelet-lymphocyte ratio, can reflect the reactive hyperplasia of inflammatory cells in tumors. The metabolic parameters of 18F-FDG PET/CT are also correlated with the reactive hyperplasia of inflammatory cells in tumors. However, only a few reports exist on the relationship between tumor metabolic parameters and peripheral blood inflammatory markers. Therefore, this review starts from three aspects: tumor peripheral blood inflammatory markers, inflammatory cell reactive hyperplasia in tumors, and 18F-FDG PET/CT metabolic parameters. The correlation between 18F-FDG PET/CT metabolic parameters and peripheral blood inflammatory markers is reviewed.
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@#C-C motif chemokine ligand 2 (CCL2) and its receptor CCR2 are closely related to tumorigenesis and tumor progression. The CCL2/CCR2 signaling axis promotes tumor progression through multiple mechanisms: CCL2 binds to CCR2 on the surface of tumor cells, and thus promotes tumor growth/survival and metastasis; more importantly, CCL2 recruits a variety of immunosuppressive cells to aggregate in the tumor microenvironment, and inhibits the function and activity of immune cells, promoting tumor progression. The article reviews the CCL2/CCR2 signaling axis and its role in tumors and tumor microenvironment, with particular focus on the advances in clinical research on drugs targeting CCL2/CCR2 signaling axis, in order to gain an in-depth and overall understanding of the mechanism of action of CCL2/CCR2 axis in tumor progression and develop more effective anti-tumor immunotherapeutic agents.
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Tumor cells use glycolysis to provide material and energy under hypoxic conditions to meet the energy requirements for rapid growth and proliferation, namely the Warburg effect. Even under aerobic conditions, tumor cells mainly rely on glycolysis to provide energy. Therefore, glucose transporter protein 1(GLUT1), which is involved in the process of glucose metabolism, plays an important role in tumorigenesis, development and drug resistance, and is considered to be one of the important targets in the treatment of malignant tumors. In recent years, research on tumor glucose metabolism has gradually become a hot spot. It has been shown that various factors are involved in the regulation of tumor energy metabolism, among which the role of GLUT1 is the most critical. In this paper, the authors reviewed the latest research progress of GLUT1-targeted traditional Chinese medicine(TCM) active ingredient nano-delivery system in tumor therapy, aiming to reveal the feasibility and effectiveness of this system in the delivery of chemotherapeutic drugs. The GLUT1-targeted TCM active ingredient nano-delivery system can overcome the bottleneck of the traditional targeting strategy as well as the high-permeability long retention(EPR) effect. In summary, the authors believe that the GLUT1-targeted TCM active ingredient nano-delivery system provides a new strategy for targeted treatment of tumors and has a broad application prospect in tumor prevention and treatment.
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As a kind of immunosuppressive cells, myeloid-derived suppressor cells (MDSCs) are an important component of the immune microenvironment. MDSCs play a significant role in promoting tumor immune escape. In addition, non-immunological functions such as promoting angiogenesis can also promote tumor development with the deepening of research. MDSCs can promote tumor angiogenesis directly through vascular endothelial growth factor signaling pathway, or promote tumor growth and angiogenesis by secreting cytokines such as matrix metalloprotein-9, basic fibroblast growth factor, angiogenic peptide Bv8, platelet derived growth factor, exosomes, or interacting with other cells. Exploring the expansion, activation, recruitment and angiogenesis mechanism of MDSCs will provide new ideas for regulating the individualized diagnosis and treatment based on targeted MDSCs.
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In recent years, studies have found that breast microbiota differs between breast cancer tissue and normal breast tissue. Breast microbiota is closely related to the occurrence and development of breast cancer, and its mechanism includes affecting estrogen levels, lipid metabolism, immune regulation, and inflammatory response. Adjusting diet, rational use of antibiotics and oral probiotics can regulate breast microbiota, which is a new direction for the prevention and treatment of breast cancer.
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@#Objective To analyze the expression and clinical treatment and prognosis assessment significance of FAM83H-AS1 in breast cancer by bioinformatics analysis.Methods The expression of FAM83H-AS1 in various cancer types was analyzed in the Cancer Genome Atlas(TCGA)database by R language.Additionally the expression in breast cancer was examined by Gene Expression Profiling Interactive Analysis(GEPIA)online database.Survival data were downloaded from TCGA to analyze the correlation between FAM83H-AS1 expression levels and prognosis among breast cancer patients.GEPIA and Kaplan-Meier Plotter were used for dual verification.Clinical information was obtained from TCGA for further analysis on the relationship between FAM83H-AS1 and clinical characteristics.And the relationship between FAM83H-AS1 and tumor microenvironment,immunodetection point-related genes and tumor mutation burden(TMB)was analyzed using R language.Gene set enrichment analysis(GSEA)was performed.Results The expression of FAM83H-AS1 was abnormal in many cancers,particularly exhibiting a significant increase in breast cancer.High expression of FAM83H-AS1 is associated with significantly reduced overall survival in breast cancer patients.Furthermore,the expression level of FAM83H-AS1 varies among breast cancer patients with different clinical stages.FAM83H-AS1 exhibits negative correlation with stromal cell score and immune cell score in breast cancer samples,and correlated with immune detection point-related gene.TMB radar map results suggest that the expression of FAM83H-AS1 in breast cancer is positively correlated with tumor mutational burden.GSEA revealed a positive correlation between the expression of FAM83H-AS1 and the function of mismatch repair.Conclusion FAM83H-AS1 is highly expressed in breast cancer,and is related to poor prognosis.Its expression correlates with clinicopathological stage,tumor microenvironment and TMB of breast cancer patients.Furthermore,FAM83H-AS1 exhibits associations with certain immune checkpoint-related genes and mismatch repair genes.These findings provide a important theoretical basis for clinical treatment,prognosis prediction and development of gene-target drugs.
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Tumors continue to be a major challenge in human survival that we have yet to overcome. Despite the variety of treatment options available, we have not yet found an effective method. As more and more research is conducted, attention has been turned to a new field for tumor treatment—the tumor microenvironment (TME). This is a dynamic and complex environment consisting of various matrix cells surrounding cancer cells, including surrounding immune cells, blood vessels, extracellular matrix, fibroblasts, bone marrow-derived inflammatory cells, signaling molecules, and some specific cell types. Firstly, endothelial cells play a key role in tumor development and the immune system’s protection of tumor cells. Secondly, immune cells, such as macrophages, Treg cells, Th17 cells, are widely involved in various immune responses and activities in the human body, such as inflammation responses promoting survival carefully orchestrated by the tumor. Even though many studies have extensively researched the TME and found many research schemes, so far, no key effective method has been found to treat tumors by affecting the TME. The TME is a key interaction area between the host immune system and the tumor. Cells within the TME influence each other and interact with cancer cells to affect cancer cell invasion, tumor growth, and metastasis. This is a new direction for cancer treatment. In the complex environment of the TME, post-translational modifications (PTMs) of proteins have been proven to play an important role in the TME. PTMs are dynamic, strictly regulated changes to proteins that control their function by regulating their structure, spatial location, and interaction. Among PTMs, a reversible post-translational modification called SUMOylation is a common regulatory mechanism in cellular processes. It is a post-translational modification that targets lysine residues with a small ubiquitin-like modifier (SUMO) in a reversible post-translational modification manner. SUMOylation is widely involved in carcinogenesis, DNA damage response, cancer cell proliferation, metastasis, and apoptosis, playing a pivotal role in the TME, such as DNA damage repair, tumor metastasis, and also participates in immune cell differentiation, activation, and inhibition of immune cells. On the other hand, SUMO or sentrin-specific protease (SENP) inhibitors can interfere with the SUMOylation process, thereby affecting many biological processes, including immune response, carcinogenesis, cell cycle progression, and cell apoptosis, etc. In summary, this review aims to introduce the dynamic modification of protein SUMOylation on various immune cells and the application of various inhibitors, thereby exploring its role in the TME. This is a challenging but hopeful field, and we look forward to future research that can bring more breakthroughs. In conclusion, the TME is a complex and dynamic environment that plays a crucial role in the development and progression of tumors. Understanding the intricate interactions within the TME and the role of PTMs, particularly SUMOylation, could provide valuable insights into the mechanisms of tumor development and potentially lead to the development of novel therapeutic strategies. The study of SUMOylation and its effects on various immune cells in the TME is an exciting and promising area of research that could significantly advance our understanding of tumor biology and potentially lead to the development of more effective treatments for cancer. This is a challenging but hopeful field, and we look forward to future research that can bring more breakthroughs.
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Hepatocellular carcinoma (HCC) is one of the cancers with the highest incidence and mortality rates in China and often presents with insidious early clinical manifestations. This frequency results in the majority of patients being diagnosed at middle and advanced stage of the disease, thereby missing the opportunity for potentially curative surgical interventions. For patients who are ineligible for radical surgical resection, a variety of therapeutic approaches, including systemic antitumor therapy, local radiotherapy, interventional treatment, and liver transplantation, have been employed. Moreover, neoadjuvant therapies have transformed a subset of initially unresectable HCC cases into operable ones. Nevertheless, many patients fail to benefit from these treatments, underscoring the urgent need for novel therapeutic targets. Cancer-associated fibroblasts (CAFs), a principal component of the solid tumor microenvironment, play a pivotal role in the proliferation, migration, invasion, and treatment resistance of cancer cells. This review delineates the origins of CAFs and their mechanisms of action in the pathogenesis and progression of HCC and discusses potential therapeutic strategies targeting CAFs.
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@#Objective To investigate the therapeutic effect of recombinant Salmonella SGN1 on murine melanoma model and the action mechanism,and to provide reference for clinical treatment of melanoma with SGN1.Methods The recombinant Salmonella SGN1 and control strain VNP-V were co-cultured with mouse melanoma B16F10 cells,and the effect of SGN1 on the proliferation of B16F10 cells in vitro was detected by cell counting method. The B16F10 subcutaneous tumor transplantation model in mice was constructed. SGN1,VNP-V and PBS(control group)were injected into the tumor at a single dose,with five mice in each group,and the inhibitory effect of SGN1 on tumor growth was observed. The pathological changes of tumor tissues in mice were observed by HE staining. The distribution of SGN1 in tumor tissues was observed by plate counting. Flow cytometry was used to evaluate the proportion of infiltrating T lymphocyte subsets. The expression of T-cell marker CD3 was detected by immunofluorescence and immunohistochemical staining.Results Compared with the control group,recombinant Salmonella SGN1 significantly inhibited the proliferation of mouse melanoma B16F10 cells in vitro(t = 6. 935,P < 0. 01). In tumor-bearing mice,SGN1 was tumor-targeted and significantly inhibited the growth of B16F10 subcutaneous transplanted melanoma in mice(t = 7. 566,P < 0. 001). HE staining showed that SGN1 significantly induced the necrosis of subcutaneous transplanted melanoma cells in mice. The results of immunofluorescence,immunohistochemistry and flow cytometry confirmed that SGN1 significantly increased tumor-infiltrating CD3~+ T-cells(t = 11. 91,8. 873 and 5. 300,respectively,each P < 0. 01).Conclusion The recombinant Salmonella SGN1 can significantly inhibit the proliferation of B16F10 cells and exert anti-tumor effects by promoting tumor cell necrosis and elevating CD3~+ tumor-infiltrating T-cells,providing a theoretical basis for the clinical treatment of melanoma with SGN1
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Most solid tumors suffer from inadequate blood perfusion and oxygenation, leading to a hypoxic microenvironment that accelerates tumor progression and adversely impacts prognosis. Thus, improving oxygenation in tumor tissues is crucial for enhancing the sensitivity and efficacy of tumor therapy. Hemoglobin-based oxygen carriers (HBOCs), as a type of oxygen-carrying nanoparticles, can not only carry and release oxygen but also reach the small blood vessels of obstructive microcirculation to deliver oxygen for anoxic tissues and organs, which are difficult for normal red blood cells to pass through. Studies have demonstrated that the application of HBOCs as a potential nanoscale efficient oxygen carrier in tumor therapy can enhance tissue oxygenation and hold great promise for applications in tumor therapy.This review summarizes the impact of hypoxia in tumors and highlights the progress and potential mechanisms of using HBOCs in tumor radiotherapy, chemotherapy, new kinetic therapy and immunotherapy.
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Objective:To investigate the impact of BMI1 expression in OSCC on the recruitment and differentiation of tumor-associat-ed macrophages(TAMs).Methods:BMI1 expression in 519 cases of OSCC tissues and 44 normal controls was analyzed using online datasets of GEPIA 2.0,and validated in 3 cases of OSCC samples and controls by qRT-PCR and western blotting.The function of BMI1/NF-κB axis during OSCC carcinogenesis was investigated by CCK8 assays,wound healing test and transwell assays.Macrophage phenotypes and recruitment were determined using qRT-PCR and western blotting following coculture of the cells with human monocyte cells(THP-1)by OSCC conditioned medium.Moreover,a cell line-derived xenograft(CDX)model was used to detect the effect of BMI1 on tumor growth in vivo.Results:Compared with the normal tissues and cells,the expression level of BMI1 in OSCC tissues and cells was significantly upregulated.BMI1 knockdown impaired the proliferation,migration,and invasion abilities of OSCC cell lines in NF-κB-dependent manner.Furthermore,OSCC cells with high BMI1 expression inhibited the migration of THP-1 cells,promoted M2-like macrophage polarization through NF-κB pathway in vitro.Xenograft experiments further confirmed the inhibitory effect of BMI1 knockdown on the tumorigenesis ability of OSCC cells in vivo.Conclusion:BMI1 promotes M2-like polarization by regulating NF-κB and may be used as a potential therapeutic target for antitumor immunity.