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'''Protooncogenes''' are genes that are commonly found in the body and are responsible for proliferation. If the mutation occurs, there is an increase in protein expression or hyperactivity. As a result of excessive cell division. This mutated form is called '''oncogene'''.
{{Was checked|20120215172551| [[User:OSeda|Ondřej Šeda, MD, PhD]]|8311}}
__NOTOC__
'''Protooncogenes''' are [[gene]]s that code for proteins responsible for proliferation. [[Mutation]]s in protooncogenes can lead to an increase in protein expression, hyperactivity (i.e. gain-of-function ) and/or loss of regulation. This mutated form is called '''oncogene'''.


Another mechanism leading to tumor proliferation is a mutation of antiproliferative ''tumor-suppressor genes''. Usually, both copies of tumor-suppressor gene have to be mutated so the effect is manifested (two-hit hypothesis). Protooncogenes, however, differ in that area – [[mutation]] of one copy of the protooncogene to oncogene is often sufficient to induce cancer. There are several possible ways of protooncogene activation:
* '''point-mutation''';
* '''amplification''' (many copies of normal oncogene);
* '''translocation to a transcriptionally active site''' (e.g. Burkitt lymphoma due to translocation of ''MYC'' oncogene into immunoglobulin locus);
* '''chimeric (fusion) gene creation due to chromosomal rearrangement''' (e.g. Philadelphia chromosome).


Another mechanism of tumor proliferation is a mutation of antiproliferative ''tumor-suppressor genes''. They always occur in the genome in two copies, and their damage is the intervention of both copies. Protooncogenes, however, differs in that area - mutation of one copy of the protooncogene to oncogene is enough of a speech (the dominant character).
[[File:Oncogene.jpg|thumb|300 px| Difference between normal cell and cancerous cell.]]
Protooncogenes can encode a wide variety of proteins with multiple functions (cell differentiation genes, signaling molecules, surface receptors, [[cell cycle]] regulatory genes, secreted growth factors ...). The functional consequences of protooncogene activation include situations when:
* protein begins to be formed in cells in which they normally do not form;
* protein is made in appropriate cells, but in excessive amounts;
* protein is formed in a form that can not be regulated by normal mechanisms.


== Examples of (proto)Oncogenes ==
Currently, about '''40 genes are known to be protooncogenes'''. In 16 of them direct correlation with tumor proliferation was shown, such as:
* ''ERBB2 (HER2)'': [[breast cancer]], by amplification;
* ''KRAS'': tumors of the eosophagus, colon, pancreas, by point mutation;
* beta-Catenin: [[Pancreatic cancer]];
* Cyclin E: liver tumors;
* ''BRAF'': [[melanoma]]s;
* ''BCR-ABL'': [[chronic myeloid leukemia]].


Protooncogenes can encode a wide variety of proteins with multiple functions (cell differentiation genes, signaling molecules, surface receptors, regulatory genes ,...). If there is damage signaling pathways such as protein, may alter the reactivity of cells to the action of growth factors. The following significant cell division. This may be caused by ''several mechanisms'':
== Cellular and Viral Oncogenes ==
* protein begins to be formed in cells in which they normally do not form
Oncogenes were originally identified in viruses causing cancers. These are called ''transformation viruses'' (often retrovirus) as they change the growth pattern of cells from normal to tumor-like. The viral oncogenes are designated with an "'''v-'''" prefix, such as '''''v-src'' gene'''. The viral oncogenes originated as copies of cellular protooncogenes, designated with an "'''c-'''" prefix. So the ''v-myc'' is the viral homologue of ''C-MYC'' (i.e. ''MYC'' gene, as is reflected in its official gene name: v-myc myelocytomatosis viral oncogene homolog (avian) ).
* protein is made up of appropriate cells, but in excessive amounts
* protein is formed in a form that can not be regulated by normal mechanisms
 
 
New research links appeared relationship between the activation of protooncogenes to oncogenes through microRNAs. MicroRNAs are parts of RNA which have size of 21-25 nucleotides. You can control the expression of these genes with their down-regulation. In the future they could possibly be used to block the activity of oncogenes.
 
 
Currently, '''40 species known protooncogenes'''. That in 16 of them were proven direct correlation with tumor proliferation, such as:
* Her-2 / neu: breast cancer
* K-ras: tumors of the esophagus, colon, pancreas
* beta-Catenin: Pancreatic cancer
* Cyclin E: liver tumors
* mutant B-Raf: melanomas
 
 
== Examples of (proto) oncogenes ==
Among oncogenes include forms derived growth factor PDGF, receptors for growth hormones or proteins, intracellular signaling pathways. All these cells are characterized by similar behavior - responding as if they constantly receive instructions for signaling division. The cells are so completely beyond regulatory control.
 
 
Among oncogenes include the viral '''src gene'''. Viruses that cause cancer are called ''transformation viruses'' (often it is a retrovirus). Normally, the src protein kinase regulates gene controlling cell division. Individual structures of oncogene and protooncogene differ in several amino acids.
 
 
'''Viral oncogenes - normal function protooncogene - tumors caused by mutations:'''
* abl oncogene - Tyr-specific protein kinase - pre-B-lymphocytic leukemia
* crest-B - epidermal growth factor (EGF) - erytroleukémie
* fos, jun - gene regulation - osteosarcomas, fibrosarcomas
* myc - regulation of gene expression - sarcomas and carcinomas
* src - Tyr-specific protein kinase - sarcomas


'''Viral oncogenes – normal function of protooncogene – tumors caused by mutations:'''
* ''v-abl'' – Tyr-specific protein kinase – pre-B-lymphocytic leukemia;
* ''v-erbb'' – epidermal growth factor receptor (''EGFR'') – erythroleukemia;
* ''v-fos'', ''v-jun'', ''v-myc'' – gene regulation (DNA-binding protein)– osteosarcomas, fibrosarcomas;
* ''v-src'' – Tyr-specific protein kinase – sarcomas.


<noinclude>
<noinclude>
== Links ==
=== Related articles ===
* [[Mutation]]
=== External links ===
=== External links ===
[http://www.news-medical.net/health/What-are-Proto-Oncogenes.aspx What are Proto-Oncogenes]
* [http://www.news-medical.net/health/What-are-Proto-Oncogenes.aspx What are Proto-Oncogenes]
 
* [http://www.nature.com/scitable/topicpage/proto-oncogenes-to-oncogenes-to-cancer-883 Proto-Oncogenes to Oncogenes to Cancer]
[http://www.nature.com/scitable/topicpage/proto-oncogenes-to-oncogenes-to-cancer-883 Proto-Oncogenes to Oncogenes to Cancer]
 
=== Bibliography ===
=== Bibliography ===
{{Cite
* {{Cite
| type = book
| type = book
| surname1 = ALBERTS, B – BRAY, D – JOHNSON, A
| surname1 = ALBERTS, B – BRAY, D – JOHNSON, A
| title = Základy buněčné biologie
| title = Základy buněčné biologie
| edition = 2.vydání
| edition = 2. vydání
| year = 2005
| year = 2005
| isbn = 80-902906-2-0
| isbn = 80-902906-2-0
}}
}}
{{Cite
* {{Cite
| type = book
| type = book
| surname1 = KUMAR, Vinay – ABBAS, Abul K – FAUSTO, Nelson, et al
| surname1 = KUMAR, Vinay – ABBAS, Abul K – FAUSTO, Nelson, et al
Line 60: Line 57:
| isbn = 978-1-4160-2973-1
| isbn = 978-1-4160-2973-1
}}
}}
 
* {{Cite
| type = book
| surname1 = STRACHAN, Tom - READ, Andrew
| title = Human Molecular Genetics
| edition = 4
| year = 2010
| isbn = 978-0-8153-4149-9
}}
</noinclude>
</noinclude>


[[Category:Genetics]]
[[Category:Genetics]]
[[Category:Biology]]
[[Category:Biology]]
[[Category:Oncology]]

Latest revision as of 23:20, 22 May 2016

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Protooncogenes are genes that code for proteins responsible for proliferation. Mutations in protooncogenes can lead to an increase in protein expression, hyperactivity (i.e. gain-of-function ) and/or loss of regulation. This mutated form is called oncogene.

Another mechanism leading to tumor proliferation is a mutation of antiproliferative tumor-suppressor genes. Usually, both copies of tumor-suppressor gene have to be mutated so the effect is manifested (two-hit hypothesis). Protooncogenes, however, differ in that area – mutation of one copy of the protooncogene to oncogene is often sufficient to induce cancer. There are several possible ways of protooncogene activation:

  • point-mutation;
  • amplification (many copies of normal oncogene);
  • translocation to a transcriptionally active site (e.g. Burkitt lymphoma due to translocation of MYC oncogene into immunoglobulin locus);
  • chimeric (fusion) gene creation due to chromosomal rearrangement (e.g. Philadelphia chromosome).
Difference between normal cell and cancerous cell.

Protooncogenes can encode a wide variety of proteins with multiple functions (cell differentiation genes, signaling molecules, surface receptors, cell cycle regulatory genes, secreted growth factors ...). The functional consequences of protooncogene activation include situations when:

  • protein begins to be formed in cells in which they normally do not form;
  • protein is made in appropriate cells, but in excessive amounts;
  • protein is formed in a form that can not be regulated by normal mechanisms.

Examples of (proto)Oncogenes[edit | edit source]

Currently, about 40 genes are known to be protooncogenes. In 16 of them direct correlation with tumor proliferation was shown, such as:

Cellular and Viral Oncogenes[edit | edit source]

Oncogenes were originally identified in viruses causing cancers. These are called transformation viruses (often retrovirus) as they change the growth pattern of cells from normal to tumor-like. The viral oncogenes are designated with an "v-" prefix, such as v-src gene. The viral oncogenes originated as copies of cellular protooncogenes, designated with an "c-" prefix. So the v-myc is the viral homologue of C-MYC (i.e. MYC gene, as is reflected in its official gene name: v-myc myelocytomatosis viral oncogene homolog (avian) ).

Viral oncogenes – normal function of protooncogene – tumors caused by mutations:

  • v-abl – Tyr-specific protein kinase – pre-B-lymphocytic leukemia;
  • v-erbb – epidermal growth factor receptor (EGFR) – erythroleukemia;
  • v-fos, v-jun, v-myc – gene regulation (DNA-binding protein)– osteosarcomas, fibrosarcomas;
  • v-src – Tyr-specific protein kinase – sarcomas.


Links[edit | edit source]

Related articles[edit | edit source]

External links[edit | edit source]

Bibliography[edit | edit source]

  • ALBERTS, B – BRAY, D – JOHNSON, A,. Základy buněčné biologie. 2. vydání edition. 2005. ISBN 80-902906-2-0.
  • KUMAR, VINAY – ABBAS, ABUL K – FAUSTO, NELSON, ET AL,. Robbins basic pathology. 8. edition. 2008. ISBN 978-1-4160-2973-1.
  • STRACHAN, TOM - READ, ANDREW,. Human Molecular Genetics. 4. edition. 2010. ISBN 978-0-8153-4149-9.
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