Cancer biology
Cancer biology is the study of the cellular and molecular basis of cancer, a group of diseases characterized by uncontrolled cell growth, invasion of surrounding tissues, and often metastasis to distant sites in the body. Understanding cancer biology is crucial for developing effective treatments and preventive strategies.
Introduction[edit | edit source]
Cancer arises from the transformation of normal cells into malignant ones through a multistep process that involves genetic and epigenetic changes. These changes lead to the disruption of normal cellular processes such as cell cycle regulation, apoptosis, and DNA repair.
Hallmarks of Cancer[edit | edit source]
The concept of the "hallmarks of cancer" was first proposed by Douglas Hanahan and Robert Weinberg in 2000 and updated in 2011. These hallmarks describe the essential characteristics that cancer cells acquire during tumorigenesis:
1. Sustaining proliferative signaling: Cancer cells can continuously signal themselves to grow and divide, often through mutations in growth factor receptors or downstream signaling pathways.
2. Evading growth suppressors: Tumor cells can bypass mechanisms that normally inhibit cell proliferation, such as the tumor suppressor proteins p53 and Rb.
3. Resisting cell death: Cancer cells evade apoptosis, the programmed cell death that removes damaged or unnecessary cells, often through mutations in pro-apoptotic genes or overexpression of anti-apoptotic proteins.
4. Enabling replicative immortality: Cancer cells can maintain their telomeres, allowing them to divide indefinitely, often through the activation of telomerase.
5. Inducing angiogenesis: Tumors stimulate the formation of new blood vessels to supply nutrients and oxygen, a process known as angiogenesis.
6. Activating invasion and metastasis: Cancer cells acquire the ability to invade surrounding tissues and spread to distant organs, forming metastases.
Genetic and Epigenetic Changes[edit | edit source]
Cancer is driven by genetic mutations and epigenetic alterations that affect key regulatory genes. These changes can be inherited or acquired due to environmental factors such as carcinogens, radiation, and viral infections.
Genetic mutations: These include point mutations, insertions, deletions, and chromosomal rearrangements that activate oncogenes or inactivate tumor suppressor genes.
Epigenetic changes: These involve modifications to DNA and histones that affect gene expression without altering the DNA sequence, such as DNA methylation and histone modification.
Cancer Microenvironment[edit | edit source]
The tumor microenvironment plays a critical role in cancer progression. It consists of cancer cells, stromal cells, immune cells, and the extracellular matrix. Interactions between these components can promote tumor growth and metastasis.
Stromal cells: These include fibroblasts, endothelial cells, and pericytes that support tumor growth and angiogenesis.
Immune cells: The immune system can both suppress and promote cancer, with tumor-associated macrophages and regulatory T cells often facilitating tumor progression.
Cancer Metastasis[edit | edit source]
Metastasis is the spread of cancer cells from the primary tumor to distant organs, a major cause of cancer-related mortality. The metastatic process involves several steps:
1. Local invasion: Cancer cells invade surrounding tissues.
2. Intravasation: Cancer cells enter the bloodstream or lymphatic system.
3. Circulation: Cancer cells travel through the circulatory system.
4. Extravasation: Cancer cells exit the bloodstream and invade distant tissues.
5. Colonization: Cancer cells establish new tumors in distant organs.
Cancer Treatment[edit | edit source]
Understanding cancer biology has led to the development of targeted therapies that specifically inhibit the molecular pathways driving cancer. These include:
1. Chemotherapy: Drugs that kill rapidly dividing cells.
2. Radiation therapy: High-energy radiation to destroy cancer cells.
3. Targeted therapy: Drugs that target specific molecules involved in cancer growth, such as tyrosine kinase inhibitors.
4. Immunotherapy: Treatments that enhance the immune system's ability to fight cancer, such as checkpoint inhibitors.
Also see[edit | edit source]
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Contributors: Prab R. Tumpati, MD
