Examples of cancer immunosurveillance in the following topics:
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- Cancer immunology examines the interaction between cancer cells and the immune system.
- Cancer immunology is the study of interactions between the immune system and cancer cells (also called tumors or malignancies).
- Over the past several years there has been notable progress and an accumulation of scientific evidence for the concept of cancer immunosurveillance and immunoediting based on (i) protection against development of spontaneous and chemically-induced tumors in animal systems and (ii) identification of targets for immune recognition of human cancer.
- Cancer immunosurveillance appears to be an important host protection process that inhibits carcinogenesis and maintains regular cellular homeostasis.
- It has also been suggested that immunosurveillance primarily functions as a component of a more general process of cancer immunoediting, a process by which a person is protected from cancer growth and the development of tumour immunogenicity by their immune system.
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- Immunodeficiency may also decrease cancer immunosurveillance.
- This includes many types of cancer, particularly those of the bone marrow and blood cells (leukemia, lymphoma, multiple myeloma), and certain chronic infections.
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- Immunodeficiency may also decrease cancer immunosurveillance.
- This includes many types of cancer, particularly those of the bone marrow and blood cells (those with leukemia, lymphoma, multiple myeloma, etc.), and certain chronic infections.
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- Figure 1 shows the correlation between smoking and lung cancer.
- Among the diseases that can be caused by smoking are vascular stenosis, lung cancer, heart attacks, and chronic obstructive pulmonary disease.
- Tobacco use leads most commonly to diseases affecting the heart and lungs, with smoking being a major risk factor for heart attacks, strokes, chronic obstructive pulmonary disease (COPD) (including emphysema and chronic bronchitis), and cancer (particularly lung cancer, cancers of the larynx and mouth, and pancreatic cancer).
- The primary risks of tobacco usage include many forms of cancer, particularly lung cancer, kidney cancer, cancer of the larynx and head and neck, breast cancer, bladder cancer, cancer of the esophagus, cancer of the pancreas, and stomach cancer.
- There is some evidence suggesting a small increased risk of myeloid leukemia, squamous cell sinonasal cancer, liver cancer, colorectal cancer, cancers of the gallbladder, the adrenal gland, the small intestine, and various childhood cancers.
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- Additionally, the vast majority of non-invasive cancers are non-melanoma skin cancers caused by non-ionizing ultraviolet radiation.
- Cancer is a stochastic effect of radiation, meaning that the probability of occurrence increases with effective radiation dose, but the severity of the cancer is independent of dose.
- Cancer starts with a single cell whose operation is disrupted.
- An increased risk of cancer has been shown to correlate with radiation dose.
- Recognize the relationship between radiation exposure and one's chance of acquiring cancer
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- Cervical cancer is a cancer that originates in the cervix of a female.
- One of the most common symptoms of cervical cancer is abnormal vaginal bleeding, but in some cases there may be no obvious symptoms until the cancer has progressed to an advanced stage.
- Very rarely, cancer can arise in other types of cells in the cervix.
- The early stages of cervical cancer may be completely asymptomatic.
- While the pap smear is an effective screening test, confirmation of the diagnosis of cervical cancer or pre-cancer requires a biopsy of the cervix.
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- Cancer epigenetics is the study of epigenetic modifications to the genome of cancer cells that do not involve a change in the nucleotide sequence.
- Epigenetic alterations are as important as genetic mutations in a cell's transformation to cancer.
- Increasingly, scientists are understanding how these epigenetic changes are altered in cancer.
- In cancer cells, silencing genes through epigenetic mechanisms is a common occurrence.
- Describe the role played by epigenetic alterations to gene expression in the development of cancer
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- There are many examples of translational or post-translational modifications of proteins that arise in cancer.
- An example of how the expression of an alternative form of a protein can have dramatically different outcomes is seen in colon cancer cells.
- However, in colon cancer cells, expression of the long form results in increased cell growth instead of cell death.
- Clearly, the expression of the wrong protein dramatically alters cell function and contributes to the development of cancer.
- Undoubtedly, more targeted therapies will be developed as scientists learn more about how gene expression changes can cause cancer .
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- Colorectal cancer, commonly known as bowel cancer, is a cancer from uncontrolled malignant cell growth in the colon, rectum, or appendix.
- Colorectal cancer, commonly known as bowel cancer, is a cancer from uncontrolled malignant cell growth in the colon, rectum, or appendix .
- Colorectal cancer is the fourth most commonly diagnosed cancer in the world, but it is more common in developed countries.
- Physical activity can moderately reduce the risk of colorectal cancer.
- More than 80% colorectal cancers arise from adenomatous polyps making this cancer amenable to screening .
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- A major hallmark of cancers is metastasis, the ability of the cancer to spread between tissues and organs within the body.
- Due to the wide variety of cancerous diseases, six hallmarks are used to group and define cancers:
- Carcinoma: Cancers derived from epithelial cells.
- Cancer is a disease of dysregulated cell proliferation.
- For certain types of cancer, such as early head and neck cancer, it may be used alone.