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Germ cells --- Tumors --- Physiology [Pathological ] --- Congresses --- Spermatozoa --- Testicular neoplasms --- Tumor stem cells

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Cell Line. --- Teratoma. --- Tumor Cells, Cultured. --- Neoplastic Stem Cells. --- Embryology, Experimental --- Embryonic stem cells --- Teratocarcinoma --- Teratoid carcinoma --- Cancer --- Teratoma --- Embryonal stem cells --- Stem cells --- Experimental embryology --- Embryology --- Neoplastic Colony-Forming Units --- Tumor Initiating Cells --- Cancer Stem Cells --- Colony-Forming Units, Neoplastic --- Stem Cells, Neoplastic --- Tumor Stem Cells --- Cancer Stem Cell --- Cell, Cancer Stem --- Cell, Neoplastic Stem --- Cell, Tumor Initiating --- Cell, Tumor Stem --- Cells, Cancer Stem --- Cells, Neoplastic Stem --- Cells, Tumor Initiating --- Cells, Tumor Stem --- Colony Forming Units, Neoplastic --- Colony-Forming Unit, Neoplastic --- Initiating Cell, Tumor --- Initiating Cells, Tumor --- Neoplastic Colony Forming Units --- Neoplastic Colony-Forming Unit --- Neoplastic Stem Cell --- Stem Cell, Cancer --- Stem Cell, Neoplastic --- Stem Cell, Tumor --- Stem Cells, Cancer --- Stem Cells, Tumor --- Tumor Initiating Cell --- Tumor Stem Cell --- Unit, Neoplastic Colony-Forming --- Units, Neoplastic Colony-Forming --- Cultured Neoplastic Cells --- Cultured Tumor Cells --- Neoplastic Cells, Cultured --- Cell, Cultured Neoplastic --- Cell, Cultured Tumor --- Cells, Cultured Neoplastic --- Cells, Cultured Tumor --- Cultured Neoplastic Cell --- Cultured Tumor Cell --- Neoplastic Cell, Cultured --- Tumor Cell, Cultured --- Coculture Techniques --- Culture Techniques --- Teratoma, Benign --- Teratoma, Immature --- Teratoma, Malignant --- Dysembryoma --- Teratoid Tumor --- Teratoma, Cystic --- Teratoma, Mature --- Benign Teratoma --- Benign Teratomas --- Dysembryomas --- Immature Teratoma --- Immature Teratomas --- Malignant Teratoma --- Malignant Teratomas --- Teratoid Tumors --- Teratomas --- Teratomas, Benign --- Teratomas, Immature --- Teratomas, Malignant --- Tumor, Teratoid --- Tumors, Teratoid --- Cell Lines --- Line, Cell --- Lines, Cell --- Embryology, Experimental. --- Embryonic stem cells. --- Teratocarcinoma. --- Cell line --- TUMOR CELLS, CULTURED --- TUMOR STEM CELLS --- Cell line. --- TUMOR CELLS, CULTURED. --- TUMOR STEM CELLS. --- Embryology, experimental. --- Tumor cells, cultured. --- Tumor stem cells. --- Cell Line --- Neoplastic Stem Cells --- Tumor Cells, Cultured

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The book is based on the Cancers journal Special Issue entitled “Immunotherapy, Tumor Microenvironment and Survival Signaling", and focuses on important problems concerning tumors and tumor microenvironment interactions, as well as novel immunotherapies such as CAR-T cell therapy. Immunotherapies have recently shown remarkable results in the treatment of cancer patients. However, there are still many questions that remain to be solved in regards to more effective therapies, such as the tumor heterogeneous profile, tumor microenvironment, and tumor survival epigenetic and genetic pathways, all of which make patients resistant to the presently available treatments for cancer. This book demonstrates different approaches to overcome the challenges faced by immunotherapies due to suppressive tumor microenvironments. This book includes 18 papers that can be divided into three chapters: 1. novel immunotherapies; 2. targeting tumor microenvironment and novel approaches; 3. targeting tumors and tumor microenvironment in different types of cancer.

Medicine --- Clinical & internal medicine --- Autophagy --- colorectal cancer --- immunotherapy --- tumor stroma --- tumor microenvironment --- immune checkpoint inhibitors --- chemotherapy --- tyrosine kinase inhibitors --- angiogenesis --- check point inhibitors --- programmed cell death protein 1 --- programmed cell death 1 ligand 1 --- cardiotoxicity --- lung metastasis --- CAR-T --- hypoxia --- tumor --- microenvironment --- CD19 --- BCMA --- cancer --- melanoma --- immune escape --- antigen loss --- chimeric antigen receptor --- electroporation --- lentivirus --- lentiviral transduction --- macrophages --- leukemia cells --- lytic peptides --- targeted therapy --- dendritic cells --- pathogenesis --- risk factors --- breast cancer --- resistance --- checkpoint --- targeted treatment --- personalized medicine --- pediatric solid tumors --- chimeric antigen receptors --- cancer vaccines --- oncolytic viral therapy --- immunomodulation --- DCLK1 --- tumor stem cells --- clonogenicity --- mitochondria --- mitochondrial transfer --- tunneling nanotubes --- triple-negative breast cancer --- immune checkpoint inhibitor --- combination therapy --- cancer nanomedicine --- tumor antigens --- cancer metabolism --- cancer immunotherapy --- nanoparticles --- immunotherapeutic agent --- immunomodulators --- tuft cells --- cancer stem cells --- immunotherapies --- myeloid-derived suppressor cells --- regulatory T cells --- crosstalk --- tumor immune evasion --- cell-cell contact --- β2 integrins --- CD18 --- CD11 --- CAR-T cells --- CD37 --- cell therapy --- tumor antigen --- lymphoma --- CAR macrophage --- CAR T cell --- solid tumors --- immunometabolism --- miRNA --- immunogenic cell death --- Autophagy --- colorectal cancer --- immunotherapy --- tumor stroma --- tumor microenvironment --- immune checkpoint inhibitors --- chemotherapy --- tyrosine kinase inhibitors --- angiogenesis --- check point inhibitors --- programmed cell death protein 1 --- programmed cell death 1 ligand 1 --- cardiotoxicity --- lung metastasis --- CAR-T --- hypoxia --- tumor --- microenvironment --- CD19 --- BCMA --- cancer --- melanoma --- immune escape --- antigen loss --- chimeric antigen receptor --- electroporation --- lentivirus --- lentiviral transduction --- macrophages --- leukemia cells --- lytic peptides --- targeted therapy --- dendritic cells --- pathogenesis --- risk factors --- breast cancer --- resistance --- checkpoint --- targeted treatment --- personalized medicine --- pediatric solid tumors --- chimeric antigen receptors --- cancer vaccines --- oncolytic viral therapy --- immunomodulation --- DCLK1 --- tumor stem cells --- clonogenicity --- mitochondria --- mitochondrial transfer --- tunneling nanotubes --- triple-negative breast cancer --- immune checkpoint inhibitor --- combination therapy --- cancer nanomedicine --- tumor antigens --- cancer metabolism --- cancer immunotherapy --- nanoparticles --- immunotherapeutic agent --- immunomodulators --- tuft cells --- cancer stem cells --- immunotherapies --- myeloid-derived suppressor cells --- regulatory T cells --- crosstalk --- tumor immune evasion --- cell-cell contact --- β2 integrins --- CD18 --- CD11 --- CAR-T cells --- CD37 --- cell therapy --- tumor antigen --- lymphoma --- CAR macrophage --- CAR T cell --- solid tumors --- immunometabolism --- miRNA --- immunogenic cell death

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The analysis of circulating tumor cells (CTCs) as a real-time liquid biopsy approach can be used to obtain new insights into metastasis biology, and as companion diagnostics to improve the stratification of therapies and to obtain insights into the therapy-induced selection of cancer cells. In this book, we will cover all the different facets of CTCs to assemble a huge corpus of knowledge on cancer dissemination: technologies for their enrichment, detection, and characterization; their analysis at the single-cell level; their journey as CTC microemboli; their clinical relevance; their biology with the epithelial-to-mesenchymal transition (EMT); their stem-cell properties; their potential to initiate metastasis at distant sites; their ex vivo expansion; and their escape from the immune system.

n/a --- FOLFIRINOX --- immunofluorescence imaging --- AR-V7 --- circulating tumour cells --- chemoradioresistance --- CTC-based treatment decisions --- rVAR2 --- immunophenotyping --- immune system --- CellSearch® --- flow cytometry --- clinical trials --- circulating tumor DNA --- synaptophysin --- stem cells --- colorectal cancer --- melanoma --- CTC biology --- platelets --- AR --- CTC capture technology --- castration resistant prostate cancer (CRPC) --- PD-L1 expression --- rovalpituzumab tesirine --- HMB-45 --- thymidylate synthase --- ctDNA --- tumor cell dissemination --- solid cancers --- metastasis --- locally advanced rectal cancer --- miRNA --- epithelial-to-mesenchymal transition (EMT) --- NSCLC --- tumor biomarkers --- tumor stem cells --- circulating tumor cells --- major histocompatibility complex class I (MHCI) --- bone marrow --- heterogeneity --- cerebrospinal liquid biopsy --- fish --- glioma --- in vivo flow cytometry --- colorectal surgery --- CellSearch --- single-cell analysis --- disseminated tumor cells --- EasyCount slides --- microsatellite instability --- circulating plasma cells --- circulating leukemia cells --- ARV7 --- SLUG --- androgen receptor --- metastatic colorectal cancer --- leukocyte-derived extracellular vesicles --- prostate cancer (PCa) --- neutrophils --- liquid biopsy --- enzalutamide --- CD133 --- enrichment and detection technologies --- biomarkers --- immune checkpoint inhibitors --- biomarker --- RAD23B --- microbiome --- integrin B1 --- ACCEPT --- emboli --- small-cell lung carcinoma --- EPISPOT --- microfluidics --- early breast cancer --- circulating tumor cells (CTC) --- tumor-initiating cells (TICs) --- immunomodulation --- xenograft models --- CTC-derived xenografts --- malaria --- circulating tumor cells (CTCs) --- clinical utility --- exosomes --- liquid surgery --- ctRNA --- CTCs --- epithelial–mesenchymal transition --- targeted therapy --- hematological cells --- gene expression analysis --- hepatocellular carcinoma (HCC) --- breast cancer --- EpCAM enrichment --- prostate cancer --- CTC --- abiraterone --- fibronectin --- CTC-derived ex vivo models --- CTMat --- chromogranin A --- CTM --- exosome --- epithelial-mesenchymal transition

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The book is based on the Cancers journal Special Issue entitled “Immunotherapy, Tumor Microenvironment and Survival Signaling", and focuses on important problems concerning tumors and tumor microenvironment interactions, as well as novel immunotherapies such as CAR-T cell therapy. Immunotherapies have recently shown remarkable results in the treatment of cancer patients. However, there are still many questions that remain to be solved in regards to more effective therapies, such as the tumor heterogeneous profile, tumor microenvironment, and tumor survival epigenetic and genetic pathways, all of which make patients resistant to the presently available treatments for cancer. This book demonstrates different approaches to overcome the challenges faced by immunotherapies due to suppressive tumor microenvironments. This book includes 18 papers that can be divided into three chapters: 1. novel immunotherapies; 2. targeting tumor microenvironment and novel approaches; 3. targeting tumors and tumor microenvironment in different types of cancer.

Autophagy --- colorectal cancer --- immunotherapy --- tumor stroma --- tumor microenvironment --- immune checkpoint inhibitors --- chemotherapy --- tyrosine kinase inhibitors --- angiogenesis --- check point inhibitors --- programmed cell death protein 1 --- programmed cell death 1 ligand 1 --- cardiotoxicity --- lung metastasis --- CAR-T --- hypoxia --- tumor --- microenvironment --- CD19 --- BCMA --- cancer --- melanoma --- immune escape --- antigen loss --- chimeric antigen receptor --- electroporation --- lentivirus --- lentiviral transduction --- macrophages --- leukemia cells --- lytic peptides --- targeted therapy --- dendritic cells --- pathogenesis --- risk factors --- breast cancer --- resistance --- checkpoint --- targeted treatment --- personalized medicine --- pediatric solid tumors --- chimeric antigen receptors --- cancer vaccines --- oncolytic viral therapy --- immunomodulation --- DCLK1 --- tumor stem cells --- clonogenicity --- mitochondria --- mitochondrial transfer --- tunneling nanotubes --- triple-negative breast cancer --- immune checkpoint inhibitor --- combination therapy --- cancer nanomedicine --- tumor antigens --- cancer metabolism --- cancer immunotherapy --- nanoparticles --- immunotherapeutic agent --- immunomodulators --- tuft cells --- cancer stem cells --- immunotherapies --- myeloid-derived suppressor cells --- regulatory T cells --- crosstalk --- tumor immune evasion --- cell–cell contact --- β2 integrins --- CD18 --- CD11 --- CAR-T cells --- CD37 --- cell therapy --- tumor antigen --- lymphoma --- CAR macrophage --- CAR T cell --- solid tumors --- immunometabolism --- miRNA --- immunogenic cell death --- n/a --- cell-cell contact