Invasion and Immunity Notes PDF

Summary

These notes detail the processes of invasion and metastasis in cancer, along with mechanisms of evading the immune system. They discuss interactions between cancer cells and the surrounding stroma, various steps in metastasis, the role of the immune system in cancer, and the mechanisms of tumor evasion.

Full Transcript

Invasion and metastasis  Invasion and metastasis are the results of complex interactions between cancer cells and normal stroma and are the major causes of cancer-related morbidity and mortality.  Studies in mice and humans reveal that although millions of cells are released into the...

Invasion and metastasis  Invasion and metastasis are the results of complex interactions between cancer cells and normal stroma and are the major causes of cancer-related morbidity and mortality.  Studies in mice and humans reveal that although millions of cells are released into the circulation each day from a primary tumor, only a few metastases are produced  Invasion occurs in four steps: loosening of cell-cell contacts, degradation of ECM, attachment to novel ECM components, and migration of tumor cells. 1. Cell-cell separation / loosening of cell-cell junctions  Inactivation, alterations, downregulation of epithelial surface protein & intercellular adhesion molecules (e.g. cadherins)  Upregulation of certain mesenchymal markers (e.g., vimentin and smooth muscle actin) 2. Basement membranes and ECM degradation  Benign tumors of the breast, colon, and stomach show little type IV collagenase activity, whereas their malignant counterparts overexpress this enzyme.  Mediated by proteolytic enzymes: matrix metalloproteases and cathepsins.  Release of stored growth factors  Degradation products are also angiogenic and chemotactic  concentrations of metalloproteinase inhibitors are reduced 3. ECM alterations  Fragmented ECM fibers expose different adhesion sites and increases aberrant crosslink and stiffness  Induction of stromal fibroblast to remodel the ECM →also increases stiffness o Löffek et all. Tension in Cancer. Int J Mol Sci. 2016;17(11):1910.  Integrins response changed to avoid apoptosis and stimulate oncogenes  Mechanoreceptors sensing altered environment may promote or block tumor progression: Dombroski et all Channeling the Force: Piezo1 Mechanotransduction in Cancer Metastasis. Cells. 2021;10(11):2815 4. Locomotion / migration  CCs must attach to the matrix at the leading edge, detach from the matrix at the trailing edge, and contract the actin cytoskeleton to ratchet forward  Need stiffer support to move and chemotactic factors: autocrine and stromal  Vascular Dissemination and Homing of Tumor Cells o Many tumors arrest in the first capillary bed they encounter (lung and liver). o Once in the circulation, tumor cells are vulnerable to destruction (mechanical shear stress, apoptosis stimulated by loss of adhesion, and innate and adaptive immune defenses). o Within the circulation, tumor cells tend to aggregate in clumps. Dr M Hossu Notes 162  adhesions among tumor cells  adhesion between tumor cells and blood cells, particularly platelets o Some tumors show organ tropism: ← expression of adhesion or chemokine receptors whose ligands are expressed by endothelial cells at the metastatic site. o Even when metastases are established, they may grow to only small, clinically insignificant sizes.  May enter dormancy = prolonged survival of micrometastases without progression (well described in melanoma, breast cancer, and prostate cancer). o Metastatic CCs secrete cytokines, growth factors, and ECM molecules that act on the resident stromal cells, which in turn make the metastatic site habitable for CCs  e.g. breast cancer metastases to bone are osteolytic because of the activation of osteoclasts in the metastatic site Evading immunity  Tumor cells can and at least in the initial phases are recognized by the immune system as nonself and destroyed.  Immunosuppressed patients have an increased risk for development of cancer (~200 times the rate in immunocompetent individuals), particularly types caused by oncogenic DNA viruses  Cell proteins that are presented on the cell surface by MHC class I molecules and are recognized by CD8+ CTLs → may become tumor an gens o products of mutated genes, o overexpressed or aberrantly expressed proteins, o tumor antigens produced by oncogenic viruses.  Antitumor activity is mediated by predominantly cell-mediated mechanisms. o T-Cell mediated cytotoxicity:  clear protective role against virus-associated neoplasms (e.g., EBV- and HPV- induced tumors)  the number of tumor-infiltrating CD8+ CTLs correlates with a better prognosis in a variety of cancers  requires Tumor antigen to be presented by APC with costimulators in lymph nodes  most co-stimulators are Danger Associated Molecules (DAMP) released by necrosis o Natural killer cell cytotoxicity  are capable of destroying tumor cells without prior sensitization and thus may provide the first line of defense against tumor cells  preferentially kill cells that possess low levels of MHC class I molecules. o Macrophage-mediated-cytotoxicity  Activated macrophages exhibit cytotoxicity against tumor cells in vitro. Dr M Hossu Notes 163  IFN secreted by T cells and NK cells, is a potent activator of macrophages o some antigens from dead CC may enter CD4 path and lead to Antibody-dependent- cell mediated-cytotoxicity and Complement-mediated cytotoxicity  In immunocompetent patients, tumors may avoid the immune system o selective outgrowth of antigen-negative variants o reduced (but not loss) expression of histocompatibility molecules, o immunosuppression through secreted molecules (factors)  TGF-β: inactivates B cells and Macrophages, blocks cells progress through G1 phase  Decoy molecules: for NK cells receptors  Induction of immunosuppressive regulatory T cells  Switching macrophages to M2  Immune check factors e.g. PD-1 ligands – inactivate CTL Chronic inflammation  Necrosis induces inflammation that becomes chronic and extensive o inflammatory reaction can be so extensive as to cause systemic signs and symptoms: anemia (due to inflammation-induced sequestration of iron and downregulation of erythropoietin production), fatigue, and cachexia.  Infiltrating leukocytes and activated stromal cells have been shown to secrete o growth factors and cytokines that promote angiogenesis, fibroblast proliferation, and collagen deposition o Proteases →degrade ECM = remove one of the barrier to growth o Express adhesion molecules such as integrins that promote direct physical interactions with tumor cells maintaining them “alive”. o stromal cell–cancer cell interactions increase the resistance of cancer cells to chemotherapy Dr M Hossu Notes 164

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