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Non-tech. summaries 2014: projects on oncology

Projects granted during 2014 that have a primary purpose of basic research: oncology.

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Non-technical summaries: projects granted in 2014, volume 14

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Details

This document outlines the projects granted under the Animals (Scientific Procedures) Act 1986 during 2014 with a primary purpose of basic research: oncology.

The following projects were granted:

  • identification and validation of novel therapeutic targets for human cancer (oncogenes, tumour suppressor genes, immune system, small molecule inhibitor, catechins)

  • significance of alternative slicing in vivo (tumours, metastasis, splice factors)

  • controlling CD8+ T cell-mediated immune responses to tumours (cancer tumour immunity)

  • pathogenesis of avian oncogenic viruses (Marek’s disease, avian leukosis, lymphomas, reticuloendotheliosis, multiple infections)

  • studies on cancer cachexia and obesity/type II diabetes (cachexia, tumour factors, weight loss, diabetes)

  • studies on urological cancer (prostate cancer, bladder cancer, kidney cancer)

  • brain metastasis: imaging and inflammation (brain, tumour, imaging, inflammation, metabolism)

  • role of inflammation in pancreatic cancer (cancer, inflammation, tumour micro environment, pancreas)

  • generation and characterisation of human derived tumour xenografts or PDXs (breast cancer in vivo expansion engraftment)

  • FAP+ stromal cell response to biological stress (cancer, lymphocytes, cachexia, metabolism, development)

  • metabolic dysfunction in cancer progression (mitochondria, autophagy, CAFs, oxidative phosphorylation, caveolin)

  • ribosomal and metabolic stress responses in cancer (ribosome, metabolism, cancer, therapy, stress)

  • signalling pathways in physiology and oncogenesis (genes, cells, signalling, development, cancer)

  • targeted mouse models for pre-clinical studies (genetically engineered mouse models, cancer, targeted therapeutics, pre-clinical)

  • targeted therapy for cancer (cancer, gene therapy, radiation, radiosensitiser, virus therapy)

  • temporal analysis of cancer evolution in vivo (cancer, biomarker, therapy)

  • manipulating cellular and microenvironment crosstalk in chronic inflammation and cancer (lung cancer, inflammation, micro environment)

  • gene function in tumorigenesis (cancer, colorectal cancer, drug targets, targeted drug delivery, diagnosis)

  • biochemical investigations of the heart (heart failure, metabolism, mitochondria, contractile dysfunction)

  • analysis of cancer gene phenotypes (oncogene, tumour suppressor gene, tumour formation)

  • genetic determinants of cancer metastasis (cancer, metastasis)

  • bispecific antibodies for use in cancer therapies (cancer, immunotherapy, bispecific antibodies)

  • diagnosis and therapy of gastrointestinal cancer (cancer, abdomen, optical imaging)

  • action of and intervention in control pathways in cancer (kinase, cancer, drugs)

  • investigation of RAS oncogene mutant cancers (lung cancer, therapy, early detection)

  • investigating cellular protein production (cancer, protein production, gene expression)

  • the phosphoinositide-network in health and disease (inflammation, cancer)

  • understanding the molecular basis for invasion and metastasis of melanoma and pancreatic cancer (cancer metastasis, pancreatic cancer, melanoma)

  • PTEN and the PI 3-kinase signalling pathway (cancer, signalling, pten, tumour suppressor)

  • cancer biology including host immunity in zebrafish (cancer, immunity, zebrafish)

  • the tumour micro environment in cancer progression (cell death, inflammation, lymphoma)

  • mechanisms of normal and leukaemic haematopiesis (haematopoietic stem cells; leukaemia; haematopoiesis)

  • understanding the repair of damaged DNA (DNA damage; repair; cancer; chemotherapy)

  • mechanisms of cancer development (cancer, heterogeneity, stem cells, epigenetic)

  • development and refinement of small animal imaging (imaging, development, biomarkers)

  • novel therapies for malignant germ cell tumours (MicroRNA, germ cell tumour)

  • molecular imaging of cancer (imaging, cancer, instrumentation, contrast)

  • genetics and treatment of acute lymphoblastic leukaemia (acute lymphoblastic leukaemia, measles virus)

  • progressive multifocal leukoencephalopathy (PML) and its network in tissue development and disease (cancer, stem cells)

  • models of lymphomas to identify therapeutic targets (lymphoma, micro environment, targeted therapy)

  • targeted molecular and immune therapies for cancer (cancer, melanoma, immune response, inflammation, immunotherapy)
  • regeneration and cancer in epithelial tissues (stem-cells; regeneration; tumour; epithelial tissues)

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Published 25 April 2016

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