Biology of oncogenesis

The formation of tumor tissue is a genetically determined process. Tumor cell proliferation has escaped the control of the Cell-division cycle, which is affected by specific genes. According to the proliferation activity, we distinguish two basic types of tumors Benign tumors
 * Benign tumors,
 * Malignant tumors.
 * grow relatively slowly in the original deposit,
 * do not show other aggressiveness,
 * preserve the character of the tissue from which they originated.

Malignant transformation
 * can affect cells of almost any tissue,
 * clonal proliferation produces malignant tumrors with autonomous, often unrestricted growth,
 * they grow from the initial deposit to the surroundings (invasive growth),
 * impair the structure and function of the body,
 * released tumor cells are transmitted by lymphatic and blood vessels to other organs – they metastasize.

The cause of metastasizing is among other things, caused by genetically gained changes in activity of proteolytic enzymes and changes in cell surface adhesion molecules.

Angiogenesis
náhled|Mechanismus angiogeneze

A fundamental feature of both primary tumors and metastases in distant organs, is the ability to induce the formation of their own vascular system - angiogenesis. The production of angiogenic factors is promoted both by tumor cell genes and by the activation of similar genes in neighboring non-tumor cells. Endothelial vascular cell proliferation and new vascularization occur.

These factors affect the formation of a new vascular system:
 * růstové faktory,
 * VEGF (vascular endothelial growth factor),
 * bFGF (basic fibroblast growth factor),
 * angiopoetin-1.

In a growing tumor occurs
 * insufficient oxygen supply at its center (hypoxia),
 * hypoxia activates genes whose products promote angiogenesis,
 * the adjacent microenvironment also contributes to the new vascularization,
 * signaling molecules present in the extracelular matrix,
 * components of the imunitního systému,
 * fibroblasts,
 * pericytes (stabilize blood vessel walls and have the ability to contract).

Cooperation between these components leads either to the proliferation of endothelial vascular cells or, conversely, to the inhibition of their proliferation. Among angiogenesis inhibitors is for example included tumor necrosis factor-beta (TNF-β).

The length of the malignant process
Depends on the:
 * type of cancer,
 * internal environment of the individual,
 * environmental conditions.

The malignant stage is preceded by the premalignant stage.

Polygenic principle of cancer
The genetic causes of malignant transformation are:
 * changes at the molecular level, where a multi-stage process turns a normal cell into a tumor cell.
 * These are mainly mutations mutace:
 * protoonkogenů;
 * tumor-supresorových genů;
 * mutátorových genů.

Proto-oncogenes regulate cell growth and differentiation. In particular, tumor suppresor genes regulate the buněčného cyklu. Mutator (repair) genes are responsible for genome stability.

Tumor growth may also be promoted by surrounding tissues; for example, inflammation that is accompanied by the production of cytokines, the excess of which may contribute to tumor growth.

The gradual accumulation of mutations in several different genes of the same cell causes a malignant cell reversal. Malignant transformation can be initiated by a single cell, and clonal proliferation of a cell with an accumulated number of mutations (see below) results in tumor formation (hypothesis of clonal tumor origin; confirmed for most tumors). For some types of tumors, there are known mutations of genes specific for them (marker genes). Cumulation of 2-3 mutated genes is common in hematological malignancies; carconomas and sarcomas are caused by the accumulation of a number of mutations (4-6). It has recently been confirmed that a tumor can arise from two different mutant clones, where malignant transformation has occured in cells due to different mechanisms by parakrinní signalizace ( the tumor is formed by mixing two mutant cell clones ). The onset of cancer is a complex and usually long-term process
 * genetic factors,
 * environmental facotrs.

Malignant tumors of the same organ can arise in different individuals by accumulating mutations in different genes.

Hereditary and sporadic tumors

 * Most human cancers have a random - sporadic occurrence in the population, meaning that gene mutations have occured in somatic cells.
 * The frequency of cancer cells in the family corresponds to the population risk.

Approximately every third citizen in the Czech republic will develop some form of cancer. The same type of cancer, which occurs sporadically, can have a hereditární incidence (5 %–10 % of cancers). In the case of hereditary occurrence, genomický imprinting (manifestation of certain genes depending on whether they were transmitted from the father or the mother) may apply.

Congenital predisposition tumorigenesis
The increased frequency of mutations in proto-oncogenes or tumor suppressor genes in some individuals causes defects in the genes responsible for repairing DNA damage. Failure of these genes increases the frequency of mutations.

Ataxia telangiectasia – movement disorder, growth retardation, neurological and immunological disorders. Numerous leukemias and lymphomas. Extreme X-ray sensitivity; the use of X-rays for diagnosis is recommended only when necessary.

Bloomův syndrom – low birth weight, extremely small stature. A typical rash on the face that worsens due to sunlight. Disposition to malignant tumors. Fanconiho anémie – various congenital skeletal anomalies (small figure, defects of fingers, thumbs), anomalies of the gastrointestinal tract and central nervous system, and loss of blood cells (pancytopenia). High risk of hematological malignancies (leukemie, lymfomy), as well as malignancies of the gastrointestinal tract and female genitals.

Xeroderma pigmentosum – extreme sensitivity to sun exposure associated with skin tumors (squamous cell carcinomas of the epithelium, melanomas) at a very early age (75 % of the patients have skin tumors up to the age of eight).

Aging of the organism and tumor incidence
Most cancers are diagnosed at an advanced age (eg colon and rectal tumors, breast tumors, prostate tumors). However, there are also certain types of tumors with a specific incidence in childhood and in younger individuals (eg retinoblastoma, Wilmsův nádor ledvin, leukemia, lymphomas).

The higher incidence of malignancies in aging individuals is related to the endogenous causes that accompany aging. In this regard, tumors can be considered a genetic disease of old cells in which mutations have accumulated during the aging process. The frequency of mutations is affected by both the quality of the environment and endogeneous DNA damage (eg DNA replication errors). The probability of mutations increases with age and schopnost chyby opravit decreases.

The higher incidence of cancer in the elderly may be due to telomere shortening.telomer erosion of somatic cell nuclear chromosomes can cause changes in the structure or number of chromosomes that either lead to genetically programované buněčné smrti or can cause malignant transformation.

In older individuals, there is increased DNA damage by free oxygen radicals. During chronological aging, superoxide dismutase activity decreases (participates in the reaction with free oxygen radicals) and as a result, free radicals decompose more slowly. The end result is the acceleration of degenerative changes in the tissues.

Immune system and cancer
In the early stages of cancer, an individual's immune system can recognize and eliminate transformed cells that have different antigenic determinants from normal cells. In particular, T-lymfocyty-mediated immunity is involved in anti-tumor immunity. Some cytokines show antitumor activity; eg interleukins, interferons, tumor necrosis factor (TNF alfa, TNF beta). NK cells (natural killers) and a category of cells called LAK (heterogeneous population of lymphokine activated cells) are significantly involved in the antitumor response. The activity of both NK and LAK cells is not bound to the presence of MHC molecules. NK cells respond immediately, being the first natural defense system in the early stages of tumor growth. {{Netisknout|

Související články

 * (Proto)onkogeny
 * Tumor supresorové geny
 * Mutatorové geny, stabilita buněčného genomu
 * Buněčná signalizace
 * Mutageny a mutageneze
 * Chromozomové aberace v etiologii neoplázií
 * Telomery a telomerasa
 * Reparační mechanismy nukleových kyselin
 * Molekulárně-biologická diagnostika v onkologii
 * Molekulární mechanizmy neovaskularizace
 * Nádorové mikroprostředí

Reference
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