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12.5 Cancer and the cell cycle  (Page 3/2)

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Introduction

While there are several chronic diseases more destructive to life than cancer, none is more feared.
Charles Mayo, 1926

Mayo's words are still true today; a diagnosis of cancer is a fearful thing. But what is cancer? Cancer is a collective name for many different diseases caused by a common mechanism: uncontrolled cell division. Despite the redundancy and overlapping levels of control of cell division, errors occur. One of the critical processes monitored by the cell-cycle checkpoint surveillance mechanism is the proper replication of DNA during the S phase. Even when all of the cell-cycle controls are fully functional, a small percentage of replication errors (mutations) will be passed on to the daughter cells. If one of these changes to the DNA nucleotide sequence occurs within a gene, a gene mutation results. All cancers begin when a gene mutation gives rise to a faulty protein that participates in the process of cell reproduction. The change in the cell that results from the malformed protein may be minor. Even minor mistakes, however, may allow subsequent mistakes to occur more readily. Over and over, small, uncorrected errors are passed from parent cell to daughter cells and accumulate as each generation of cells produces more non-functional proteins from uncorrected DNA damage. Eventually, the pace of the cell cycle speeds up as the effectiveness of the control and repair mechanisms decreases. Uncontrolled growth of the mutated cells outpaces the growth of normal cells in the area, and a cancerous tumor can result.

Some definitions

All of us have heard the words cancer, tumor, malignancy, metastasis, etc. But it is important to understand the definitions of these words, and others, before we get into a discussion of the causes of the disease we know as cancer. In previous sections you learned about the cell cycle, which controls mitosis, and thus controls the growth of cells, tissues, and organs. If there is a malfunction at one of the checkpoints of the cell cycle, leading to mitosis in cells that would otherwise not divide, it would result in a population of cells which have lost control over how and when they divide. This accumulation of cells is called a neoplasm (from the Greek νεο- neo- "new" and πλάσμα plasma "formation, creation"). A neoplasm that forms a visible or palpable lump in the body is called a tumor . Tumors can be benign , or malignant , depending on how fast they grow and how readily (or not) they spread to other tissues. An example of a benign tumor would be a wart. These usually grow slowly and the cells, although they have lost cell-cycle control, do not spread to adjacent or distant tissues. A malignant neoplasm is what most people would call cancer; it grows more rapidly and can spread to adjacent or even distant sites in the body (a process known as metastasis . The number of blood vessels providing nutrients to the tumor may also increase (a process known as tumor angiogenesis ).

Characteristics of cancer cells

What are the characteristics of a cancer cell, and how does it differ from a normal cell? Over the decades scientists have discovered many morphological and physiological differences ( [link] ), and studying those differences led to many of the advances in our knowledge of the cell cycle and its regulation. Cancer biologists have summarized and analyzed many of these known differences. It is known that cancer can result from mutations in many genes, and that cancers in different organs differ in their physiology, appearance, growth rate, and many other parameters. But when they filtered through all the data, they concluded that there are six essential alterations in cell physiology that are important hallmarks of the malignant state.

Cancer and normal cells

Comparison of normal and cancerous cells
Some characteristics of cancer cells, compared to normal cells. Figure courtesy of Dr. Wayne LaMorte, Boston University School of Public Health.
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Source:  OpenStax, Principles of biology. OpenStax CNX. Aug 09, 2016 Download for free at http://legacy.cnx.org/content/col11569/1.25
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