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Book
ISBN: 1615040633 1615040641 Year: 2010 Publisher: [San Rafael, Calif.?] : Morgan & Claypool Life Sciences,
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The fibroblast growth factors (FGFs) represent one of the relatively few families of extracellular signalling peptides that have been shown in recent decades to be key regulators of metazoan development. FGFs are required for multiple processes in both protostome and deuterostome groups. Given the wide range of regulatory roles attributed to the FGFs, it is perhaps not surprising that misregulation of this signalling pathway has been implicated in a number of human disease conditions. The focus of the present review is to look at the fundamental components of the FGF pathway and illustrate how this highly conserved regulatory cassette has been deployed to regulate multiple, diverse processes during vertebrate development. This review will explore examples from several vertebrate model organisms and include discussions of the role of FGF signalling in regulating the establishment of the mesoderm, neural patterning, morphogenesis, myogenesis, limb development, and the establishment of right-left asymmetry.
Fibroblast growth factors. --- Vertebrates -- Development. --- Vertebrates -- Growth & development. --- Fibroblast Growth Factors --- Chordata --- Intercellular Signaling Peptides and Proteins --- Animals --- Biological Factors --- Proteins --- Eukaryota --- Peptides --- Amino Acids, Peptides, and Proteins --- Organisms --- Chemicals and Drugs --- Fibroblast Growth Factor 1 --- Vertebrates --- Zoology --- Human Anatomy & Physiology --- Health & Biological Sciences --- Animal Biochemistry --- Animal Anatomy & Embryology --- Growth factors. --- Growth. --- Fibroblast Growth Factors. --- growth & development. --- Fibroblast growth factor --- Mesoderm --- Neurectoderm --- Xenopus --- Organogenesis --- Somites --- Limb --- MyoD --- Somitogenesis --- Morphogenesis --- Left-right asymmetry --- MAPK --- Sprouty --- ERK --- Map kinase phosphatase --- Signal transduction
Book
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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Fibroblast growth factor (FGF) signal transmission has an essential function in embryonic development and tissue repair, and is dysregulated in the vast majority of malignancies studied. The FGF signaling in the tumor cells is usually increased by autocrine and paracrine mechanisms and gives them a high growth potential, resistance to apoptosis, neoangiogenesis and metastasis, all essential parameters relevant for tumor progression. This makes FGFs, and their tyrosine kinase receptors FGFRs, valuable targets for therapeutic interventions. This book is a collection of 15 recent articles—both original work and reviews—that summarize the current research state effectively. The content covers FGF signaling aspects in gastric, skin, liver, esophageal cancer, melanoma, mesothelioma and glioblastoma, including one article that addresses the role of FGF in the tumor-microenvironment cross-talk. Several reports describe the development of compounds targeting FGFRs, their structure and interaction with the receptor molecules, and their effectivity in preclinical and clinical testing. In summary, the papers demonstrate the complexity of the topic, with various FGF ligands and receptors involved and the need for further research. They also present results that fuel hope that targeting cancer with dysfunctional FGF signaling can become a realistic treatment option.
Medicine --- FGFR4 --- FGF19 --- gene regulation --- cancer signaling --- anticancer --- FRS2 --- FGFR --- NVP-BGJ398 --- LY2874455 --- sarcoma --- cancer-associated fibroblasts --- GPER --- breast cancer --- estrogen --- FGFR1 --- FGF2 --- optogenetics --- ERK --- AKT --- receptor kinase --- neurite outgrowth --- HEK293 --- PC12 --- fibroblast growth factor receptors --- signaling --- receptor cross-talk --- coreceptor --- membrane proteins --- FGFR2 --- ERK1/2 --- phosphorylation --- serine --- negative feedback loop --- cancer --- prognosis --- HCC --- inhibitors --- FGF --- fibroblast growth factor --- autocrine signaling --- skin --- melanoma --- squamous and basal cell carcinoma --- seborrheic keratosis --- targeted therapy --- resistance --- structure --- kinase inhibitor --- gastric cancer --- monoclonal antibody --- small molecule --- FGFR2c --- autophagy --- keratinocyte --- MTOR --- JNK1 --- review --- malignant glioma --- brain cancer --- astrocytoma --- Sprouty proteins --- FGF-mediated signaling --- tumor suppressor --- tumor promoter --- malignant pleural mesothelioma --- overall survival --- immunohistochemistry --- infigratinib sensitivity --- FGF8 --- FGF18 --- adenocarcinoma of the esophagogastric junction --- neoadjuvant therapy --- FGFR4 --- FGF19 --- gene regulation --- cancer signaling --- anticancer --- FRS2 --- FGFR --- NVP-BGJ398 --- LY2874455 --- sarcoma --- cancer-associated fibroblasts --- GPER --- breast cancer --- estrogen --- FGFR1 --- FGF2 --- optogenetics --- ERK --- AKT --- receptor kinase --- neurite outgrowth --- HEK293 --- PC12 --- fibroblast growth factor receptors --- signaling --- receptor cross-talk --- coreceptor --- membrane proteins --- FGFR2 --- ERK1/2 --- phosphorylation --- serine --- negative feedback loop --- cancer --- prognosis --- HCC --- inhibitors --- FGF --- fibroblast growth factor --- autocrine signaling --- skin --- melanoma --- squamous and basal cell carcinoma --- seborrheic keratosis --- targeted therapy --- resistance --- structure --- kinase inhibitor --- gastric cancer --- monoclonal antibody --- small molecule --- FGFR2c --- autophagy --- keratinocyte --- MTOR --- JNK1 --- review --- malignant glioma --- brain cancer --- astrocytoma --- Sprouty proteins --- FGF-mediated signaling --- tumor suppressor --- tumor promoter --- malignant pleural mesothelioma --- overall survival --- immunohistochemistry --- infigratinib sensitivity --- FGF8 --- FGF18 --- adenocarcinoma of the esophagogastric junction --- neoadjuvant therapy
Book
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
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- EndNote
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Fibroblast growth factor (FGF) signal transmission has an essential function in embryonic development and tissue repair, and is dysregulated in the vast majority of malignancies studied. The FGF signaling in the tumor cells is usually increased by autocrine and paracrine mechanisms and gives them a high growth potential, resistance to apoptosis, neoangiogenesis and metastasis, all essential parameters relevant for tumor progression. This makes FGFs, and their tyrosine kinase receptors FGFRs, valuable targets for therapeutic interventions. This book is a collection of 15 recent articles—both original work and reviews—that summarize the current research state effectively. The content covers FGF signaling aspects in gastric, skin, liver, esophageal cancer, melanoma, mesothelioma and glioblastoma, including one article that addresses the role of FGF in the tumor-microenvironment cross-talk. Several reports describe the development of compounds targeting FGFRs, their structure and interaction with the receptor molecules, and their effectivity in preclinical and clinical testing. In summary, the papers demonstrate the complexity of the topic, with various FGF ligands and receptors involved and the need for further research. They also present results that fuel hope that targeting cancer with dysfunctional FGF signaling can become a realistic treatment option.
Medicine --- FGFR4 --- FGF19 --- gene regulation --- cancer signaling --- anticancer --- FRS2 --- FGFR --- NVP-BGJ398 --- LY2874455 --- sarcoma --- cancer-associated fibroblasts --- GPER --- breast cancer --- estrogen --- FGFR1 --- FGF2 --- optogenetics --- ERK --- AKT --- receptor kinase --- neurite outgrowth --- HEK293 --- PC12 --- fibroblast growth factor receptors --- signaling --- receptor cross-talk --- coreceptor --- membrane proteins --- FGFR2 --- ERK1/2 --- phosphorylation --- serine --- negative feedback loop --- cancer --- prognosis --- HCC --- inhibitors --- FGF --- fibroblast growth factor --- autocrine signaling --- skin --- melanoma --- squamous and basal cell carcinoma --- seborrheic keratosis --- targeted therapy --- resistance --- structure --- kinase inhibitor --- gastric cancer --- monoclonal antibody --- small molecule --- FGFR2c --- autophagy --- keratinocyte --- MTOR --- JNK1 --- review --- malignant glioma --- brain cancer --- astrocytoma --- Sprouty proteins --- FGF-mediated signaling --- tumor suppressor --- tumor promoter --- malignant pleural mesothelioma --- overall survival --- immunohistochemistry --- infigratinib sensitivity --- FGF8 --- FGF18 --- adenocarcinoma of the esophagogastric junction --- neoadjuvant therapy --- n/a
Book
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Fibroblast growth factor (FGF) signal transmission has an essential function in embryonic development and tissue repair, and is dysregulated in the vast majority of malignancies studied. The FGF signaling in the tumor cells is usually increased by autocrine and paracrine mechanisms and gives them a high growth potential, resistance to apoptosis, neoangiogenesis and metastasis, all essential parameters relevant for tumor progression. This makes FGFs, and their tyrosine kinase receptors FGFRs, valuable targets for therapeutic interventions. This book is a collection of 15 recent articles—both original work and reviews—that summarize the current research state effectively. The content covers FGF signaling aspects in gastric, skin, liver, esophageal cancer, melanoma, mesothelioma and glioblastoma, including one article that addresses the role of FGF in the tumor-microenvironment cross-talk. Several reports describe the development of compounds targeting FGFRs, their structure and interaction with the receptor molecules, and their effectivity in preclinical and clinical testing. In summary, the papers demonstrate the complexity of the topic, with various FGF ligands and receptors involved and the need for further research. They also present results that fuel hope that targeting cancer with dysfunctional FGF signaling can become a realistic treatment option.
FGFR4 --- FGF19 --- gene regulation --- cancer signaling --- anticancer --- FRS2 --- FGFR --- NVP-BGJ398 --- LY2874455 --- sarcoma --- cancer-associated fibroblasts --- GPER --- breast cancer --- estrogen --- FGFR1 --- FGF2 --- optogenetics --- ERK --- AKT --- receptor kinase --- neurite outgrowth --- HEK293 --- PC12 --- fibroblast growth factor receptors --- signaling --- receptor cross-talk --- coreceptor --- membrane proteins --- FGFR2 --- ERK1/2 --- phosphorylation --- serine --- negative feedback loop --- cancer --- prognosis --- HCC --- inhibitors --- FGF --- fibroblast growth factor --- autocrine signaling --- skin --- melanoma --- squamous and basal cell carcinoma --- seborrheic keratosis --- targeted therapy --- resistance --- structure --- kinase inhibitor --- gastric cancer --- monoclonal antibody --- small molecule --- FGFR2c --- autophagy --- keratinocyte --- MTOR --- JNK1 --- review --- malignant glioma --- brain cancer --- astrocytoma --- Sprouty proteins --- FGF-mediated signaling --- tumor suppressor --- tumor promoter --- malignant pleural mesothelioma --- overall survival --- immunohistochemistry --- infigratinib sensitivity --- FGF8 --- FGF18 --- adenocarcinoma of the esophagogastric junction --- neoadjuvant therapy --- n/a
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