Mouse mammary tumor virus: Difference between revisions
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{{Short description|Species of virus}} |
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{{Taxobox |
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| species = Mouse mammary tumor virus |
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| virus_group = vi |
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| ordo = ''Unassigned'' |
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| familia = ''[[Retroviridae]]'' |
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| subfamilia = ''[[Orthoretrovirinae]]'' |
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| species = '''''Mouse mammary tumor virus''''' |
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'''Mouse mammary tumor virus''' ('''MMTV''') is a milk-transmitted [[retrovirus]] like the [[HTLV|HTL]] viruses, [[HIV|HI]] viruses, and [[Bovine leukemia virus|BLV]]. It belongs to the genus ''[[Betaretrovirus]]''. MMTV was formerly known as '''Bittner virus''', and previously the "milk factor", referring to the extra-chromosomal vertical transmission of [[murine]] breast cancer by adoptive nursing, demonstrated in 1936, by [[John Joseph Bittner]] while working at the [[Jackson Laboratory]] in Bar Harbor, Maine. Bittner established the theory that a cancerous agent, or "milk factor", could be transmitted by cancerous mothers to young mice from a virus in their mother's milk.<ref name=Bittner_1936>{{Cite journal |
'''Mouse mammary tumor virus''' ('''MMTV''') is a milk-transmitted [[retrovirus]] like the [[HTLV|HTL]] viruses, [[HIV|HI]] viruses, and [[Bovine leukemia virus|BLV]]. It belongs to the genus ''[[Betaretrovirus]]''. MMTV was formerly known as '''Bittner virus''', and previously the "milk factor", referring to the extra-chromosomal vertical transmission of [[murine]] breast cancer by adoptive nursing, demonstrated in 1936, by [[John Joseph Bittner]] while working at the [[Jackson Laboratory]] in Bar Harbor, Maine. Bittner established the theory that a cancerous agent, or "milk factor", could be transmitted by cancerous mothers to young mice from a virus in their mother's milk.<ref name=Bittner_1936>{{Cite journal |
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| last1 = Bittner | first1 = J. J. |
| last1 = Bittner | first1 = J. J. |
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| title = Some Possible Effects of Nursing on the Mammary Gland Tumor Incidence in Mice |
| title = Some Possible Effects of Nursing on the Mammary Gland Tumor Incidence in Mice |
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| doi = 10.1126/science.84.2172.162 |
| doi = 10.1126/science.84.2172.162 |
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| journal = Science |
| journal = Science |
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| volume = 84 |
| volume = 84 |
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| issue = 2172 |
| issue = 2172 |
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| page = 162 |
| page = 162 |
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| year = 1936 |
| year = 1936 |
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| pmid = 17793252 |
| pmid = 17793252 |
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| pmc = |
| pmc = |
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| bibcode = 1936Sci....84..162B |
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| s2cid = 31163817 |
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⚫ | }}</ref><ref>{{cite news|url=http://www.time.com/time/magazine/article/0,9171,934488,00.html|archive-url=https://web.archive.org/web/20110219235156/http://www.time.com/time/magazine/article/0,9171,934488,00.html|url-status=dead|archive-date=February 19, 2011|title=Medicine: Cancer Virus|newspaper=[[TIME magazine]]|date=18 March 1946}}</ref> The majority of mammary tumors in mice are caused by mouse mammary tumor virus. |
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==Infection and life cycle== |
==Infection and life cycle== |
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Several mouse strains carry the virus endogenously, but it is also [[Vertical transmission|transmitted vertically]] via milk from mother to pup. It is contained as a DNA [[provirus]] integrated in the DNA of milk [[lymphocyte]]s. The viruses become transported through the gastrointestinal tract to the [[Peyer's patches]] where they infect the new host's [[macrophages]], and then lymphocytes. |
Several mouse strains carry the virus endogenously, but it is also [[Vertical transmission|transmitted vertically]] via milk from mother to pup. It is contained as a DNA [[provirus]] integrated in the DNA of milk [[lymphocyte]]s. The viruses become transported through the gastrointestinal tract to the [[Peyer's patches]] where they infect the new host's [[macrophages]], and then lymphocytes.{{citation needed|date=November 2022}} |
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[[File:MMTV genome.jpg|thumb|upright=1.5|MMTV genome map]] |
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⚫ | The mouse mammary tumor virus (MMTV) has formerly been classified as a simple [[retrovirus]]; however, it has recently been established, that MMTV encodes an extra self-regulatory [[mRNA]] export protein, Rem, with resemblance to the human immunodeficiency virus ([[HIV]]) [[Regulator of Virion|Rev]] protein, and is therefore the first complex murine retrovirus to be documented.<ref>{{cite journal|last=Mertz|first=JA|author2=Simper, MS |author3=Lozano, MM |author4=Payne, SM |author5= Dudley, JP |title=Mouse mammary tumor virus encodes a self-regulatory RNA export protein and is a complex retrovirus.|journal=Journal of Virology|date=December 2005|volume=79|issue=23|pages=14737–47|pmid=16282474|pmc=1287593|doi=10.1128/JVI.79.23.14737-14747.2005}}</ref><ref>{{cite journal|last=Indik|first=S|author2=Gunzburg, WH |author3=Salmons, B |author4=Rouault, F |title=A novel, mouse mammary tumor virus encoded protein with Rev-like properties.|journal=Virology|date=June 2005|volume=337|issue=1|pages=1–6|pmid=15914215 |doi=10.1016/j.virol.2005.03.040|doi-access=free}}</ref> Rem appears to shuttle between the nucleus and the cytoplasm.<ref>{{Cite journal |last=Indik |first=Stanislav |last2=Günzburg |first2=Walter H. |last3=Salmons |first3=Brian |last4=Rouault |first4=Francoise |date=2005-06-20 |title=A novel, mouse mammary tumor virus encoded protein with Rev-like properties |url=https://linkinghub.elsevier.com/retrieve/pii/S004268220500190X |journal=Virology |volume=337 |issue=1 |pages=1–6 |doi=10.1016/j.virol.2005.03.040 |issn=0042-6822}}</ref> In contrast to Rem, which exports exclusively unspliced gag/pol mRNA, the HIV-1 Rev protein mediates cytoplasmic accumulation of both unspliced and singly-spliced mRNAs.<ref>{{Cite journal |last=Hohenadl |first=Christine |last2=Gunzburg |first2=Walter H. |last3=Salmons |first3=Brian |last4=Indik |first4=Stanislav |date=2012 |title=The 5′ leader sequence of mouse mammary tumor virus enhances expression of the envelope and reporter genes |url=https://www.microbiologyresearch.org/content/journal/jgv/10.1099/vir.0.035196-0 |journal=Journal of General Virology |volume=93 |issue=2 |pages=308–318 |doi=10.1099/vir.0.035196-0 |issn=1465-2099}}</ref> |
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⚫ | MMTV codes for the retroviral structural genes and additionally for a [[superantigen]]. This stimulates [[T lymphocytes]] with a certain type of V beta chain in their [[T cell receptor]], which in turn stimulates [[B cell]] proliferation increasing the population of cells that can be infected.<ref>{{cite journal|last=Reuss|first=FU|author2=Coffin, JM|title=Mouse mammary tumor virus superantigen expression in B cells is regulated by a central enhancer within the pol gene|journal=Journal of Virology|date=July 1998|volume=72|issue=7|pages=6073–82|pmid=9621071|url= |pmc=110413|quote=MMTV encodes a superantigen (Sag) that, when expressed on the surface of B cells or other antigen-presenting cells, activates a large number of T cells by interaction with specific T-cell receptor β chains. The resulting T-cell response in turn stimulates the infected B cells to proliferate and thus amplifies the number of virus-infected cells and potential target bystander cells|doi=10.1128/JVI.72.7.6073-6082.1998}}</ref> During puberty, the virus enters the mammary glands with migrating lymphocytes and infects proliferating mammary gland epithelial cells.<ref name=colovkina1998>{{cite journal|last=Golovkina|first=TV|author2=Dudley, JP |author3=Ross, SR |title=B and T cells are required for mouse mammary tumor virus spread within the mammary gland|journal=Journal of Immunology|date=Sep 1, 1998|volume=161|issue=5|pages=2375–82|doi=10.4049/jimmunol.161.5.2375 |pmid=9725233|s2cid=26055839 |url=http://www.jimmunol.org/content/161/5/2375.full|quote=However, the ultimate targets of MMTV are mammary gland cells, which begin dividing during puberty...The infected lymphoid cells then bring virus to the cells of the developing mammary gland, thereby also allowing the virus to overcome its spatial problem... SAg activity is required for efficient viral infection of the mammary epithelial cells and consequent tumorigenesis...Thus, SAg-mediated stimulation of lymphoid cells is needed for their infection and for virus spread between mammary gland cells |doi-access=free}}</ref> |
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⚫ | The mouse mammary tumor virus (MMTV) has formerly been classified as a simple [[retrovirus]]; however, it has recently been established, that MMTV encodes an extra self-regulatory [[mRNA]] export protein, Rem, with resemblance to the |
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⚫ | As a retrovirus the MMTV is able to insert its viral genome in the host genome. The virus RNA genome is reverse transcribed by [[reverse transcriptase]] into DNA. This DNA intermediate state of the virus is called the [[provirus]]. When the virus DNA is inserted inside or even near a gene, it is able to change the expression of that gene and potentially produce an [[oncogene]] which might eventually develop into cancer.<ref name=okeoma2007>{{cite journal|last=Okeoma|first=Chioma M.|author2=Lovsin, Nika |author3=Peterlin, B. Matija |author4= Ross, Susan R. |title=APOBEC3 inhibits mouse mammary tumour virus replication in vivo|journal=[[Nature (journal)|Nature]]|date=28 January 2007|volume=445|issue=7130|pages=927–930|doi=10.1038/nature05540 |pmid=17259974|bibcode=2007Natur.445..927O|s2cid=4316435}}</ref> The viral genome is able to cause cancer only if it alters the expression of an oncogene. If the viral genome is inserted in a "silent" region of the host genome then it is harmless or may cause other diseases. High levels of MMTV are expressed in lymphoid leukemias of mouse strain GR and DBA/2 which contain extra integrated MMTV proviruses. These leukemias are active when cells are transferred to other mice.<ref name=Michalides1982>{{cite journal|last=Michalides|first=Rob|author2=Wagenaar, Els |author3=Hilkens, John|author4=Hilgers, Jo|author5=Groner, Bernd|author6=Hynes, Nancy |title=Acquisition of Proviral DNA of mouse mammary tumor virus in thymic leukemi cells from GR mice|journal=[[Journal of Virology]]|date=September 1982|volume=43|issue=3|pages=819–829 |pmid=6292463 |pmc=256192 |doi=10.1128/JVI.43.3.819-829.1982}}</ref> |
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⚫ | MMTV codes for the retroviral structural genes and additionally for a [[superantigen]]. This stimulates [[T lymphocytes]] with a certain type of V beta chain in their [[T cell receptor]], which in turn stimulates [[B cell]] proliferation increasing the population of cells that can be infected.<ref>{{cite journal|last=Reuss|first=FU|author2=Coffin, JM|title=Mouse mammary tumor virus superantigen expression in B cells is regulated by a central enhancer within the pol gene|journal=Journal of Virology|date=July 1998|volume=72|issue=7|pages=6073–82|pmid=9621071|url= |
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⚫ | When the virus genome is inserted inside the host genome it is then able to transcribe its own viral genes. In F. U. Reuss and J. M. Coffin (2000) experiments it is mentioned that the expression of the virus genome is activated by an enhancer element that is present in the U3 region of the long terminal repeat of the genome.<ref name=reuss2000>{{cite journal|last=Reuss|first=F. U.|author2=Coffin, J. M.|title=The Mouse Mammary Tumor Virus Transcription Enhancers for Hematopoietic Progenitor and Mammary Gland Cells Share Functional Elements|journal=Journal of Virology|date=1 September 2000|volume=74|issue=17|pages=8183–7|doi=10.1128/JVI.74.17.8183-8187.2000|pmid=10933730 |pmc=112353 |
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⚫ | As a retrovirus the |
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⚫ | When the virus genome is inserted inside the host genome it is then able to transcribe its own viral genes. In F. U. Reuss and J. M. Coffin (2000) experiments it is mentioned that the expression of the virus genome is activated by an enhancer element that is present in the U3 region of the long terminal repeat of the genome.<ref name=reuss2000>{{cite journal|last=Reuss|first=F. U.|author2=Coffin, J. M.|title=The Mouse Mammary Tumor Virus Transcription Enhancers for Hematopoietic Progenitor and Mammary Gland Cells Share Functional Elements|journal=Journal of Virology|date=1 September 2000|volume=74|issue=17|pages=8183–7|doi=10.1128/JVI.74.17.8183-8187.2000 |
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}}</ref> In addition the expression of the genome is activated specifically in the mammary gland cells.<ref name=reuss2000 /> [[Estrogen]] is able to further activate the expression of the viral genome.<ref name=okeoma2007 /> The expression of ''sag'' gene which is present in the provirus is responsible for the production of a superantigen.<ref name=colovkina1998 /> |
}}</ref> In addition the expression of the genome is activated specifically in the mammary gland cells.<ref name=reuss2000 /> [[Estrogen]] is able to further activate the expression of the viral genome.<ref name=okeoma2007 /> The expression of ''sag'' gene which is present in the provirus is responsible for the production of a superantigen.<ref name=colovkina1998 /> |
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MMTV can be transferred either through an exogenous or endogenous route. If the virus is transferred exogenously, it is passed from the mother mouse to her pups through her milk.<ref name=mant2004>{{cite journal|last=Mant|first=C|author2=Gillett, C |author3=D'Arrigo, C |author4= Cason, J |title=Human murine mammary tumour virus-like agents are genetically distinct from endogenous retroviruses and are not detectable in breast cancer cell lines or biopsies|journal=Virology|date=Jan 5, 2004|volume=318|issue=1|pages=393–404|pmid=14972564|doi=10.1016/j.virol.2003.09.027}}</ref> |
MMTV can be transferred either through an exogenous or endogenous route. If the virus is transferred exogenously, it is passed from the mother mouse to her pups through her milk.<ref name=mant2004>{{cite journal|last=Mant|first=C|author2=Gillett, C |author3=D'Arrigo, C |author4= Cason, J |title=Human murine mammary tumour virus-like agents are genetically distinct from endogenous retroviruses and are not detectable in breast cancer cell lines or biopsies|journal=Virology|date=Jan 5, 2004|volume=318|issue=1|pages=393–404|pmid=14972564|doi=10.1016/j.virol.2003.09.027|doi-access=free}}</ref> |
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Alternatively, pups can be infected [[Vertical transmission|vertically]] through endogenous infection, inheriting the virus directly from their mother in the germline. Mice that become infected in this way have higher rates of occurrence of tumors. A retrovirus is endogenous to its host once the proviral DNA is inserted into the chromosomal DNA. As a result, mice with endogenous MMTV have the |
Alternatively, pups can be infected [[Vertical transmission|vertically]] through endogenous infection, inheriting the virus directly from their mother in the germline. Mice that become infected in this way have higher rates of occurrence of tumors. A retrovirus is endogenous to its host once the proviral DNA is inserted into the chromosomal DNA. As a result, mice with endogenous MMTV have the virus's DNA in every cell of its body, as the virus is present in the DNA of the sperm or egg cell from which the animal is conceived.{{citation needed|date=October 2013}} |
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==Hormonal responsiveness of integrated MMTV DNA== |
==Hormonal responsiveness of integrated MMTV DNA== |
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| last2 = Bolander Jr | first2 = F. F. |
| last2 = Bolander Jr | first2 = F. F. |
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| title = Prolactin regulation of mouse mammary tumor virus (MMTV) expression in normal mouse mammary epithelium |
| title = Prolactin regulation of mouse mammary tumor virus (MMTV) expression in normal mouse mammary epithelium |
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| journal = Molecular and |
| journal = Molecular and Cellular Endocrinology |
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| volume = 62 |
| volume = 62 |
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| issue = 1 |
| issue = 1 |
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| pmid = 2545485 |
| pmid = 2545485 |
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| doi=10.1016/0303-7207(89)90109-3 |
| doi=10.1016/0303-7207(89)90109-3 |
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| s2cid = 40515926 |
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}}</ref> |
}}</ref> |
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When the mouse reaches puberty the virus begins to express its messenger RNA in the estrogen sensitive tissues. As a result, after puberty all mammary cells will contain the active retrovirus and begin to replicate in the genome and express viral messenger RNA |
When the mouse reaches puberty the virus begins to express its messenger RNA in the estrogen sensitive tissues. As a result, after puberty all mammary cells will contain the active retrovirus and begin to replicate in the genome and express viral messenger RNA in all new mammary tissue cells.<ref name=mant2004 /> |
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==The MMTV promoter in models of human breast cancer== |
==The MMTV promoter in models of human breast cancer== |
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The LTR ([[long terminal repeat]]) of MMTV contains a [[glucocorticoid]] [[hormone response element]]. This glucocorticoid element is a promoter that is often used to construct mice which develop a breast cancer-like disease, because an [[mouse models of breast cancer metastasis|animal model system for breast cancer]] close to the human disease is very much looked for.{{citation needed|date=October 2013}} |
The LTR ([[long terminal repeat]]) of MMTV contains a [[glucocorticoid]] [[hormone response element]]. This glucocorticoid element is a promoter that is often used to construct mice which develop a breast cancer-like disease, because an [[mouse models of breast cancer metastasis|animal model system for breast cancer]] close to the human disease is very much looked for.{{citation needed|date=October 2013}} |
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The MMTV promoter is used in the PyMT model system of [[mouse models of breast cancer metastasis]]. Here Py is the abbreviation of polyoma and MT is the abbreviation for middle T. There are more model systems of breast cancer which use the MMTV promoter. The polyoma middle T-antigen is taken from the [[polyoma virus]]. The MMTV-PyMT model has been shown to be a reliable model of breast cancer metastasis.<ref>{{cite journal|last=Franci|first=C|author2=Zhou, J |author3=Jiang, Z |author4=Modrusan, Z |author5=Good, Z |author6=Jackson, E |author7= Kouros-Mehr, Hosein |title=Biomarkers of residual disease, disseminated tumor cells, and metastases in the MMTV-PyMT breast cancer model.|journal= |
The MMTV promoter is used in the PyMT model system of [[mouse models of breast cancer metastasis]]. Here Py is the abbreviation of polyoma and MT is the abbreviation for middle T. There are more model systems of breast cancer which use the MMTV promoter. The polyoma middle T-antigen is taken from the [[polyoma virus]]. The MMTV-PyMT model has been shown to be a reliable model of breast cancer metastasis.<ref>{{cite journal|last=Franci|first=C|author2=Zhou, J |author3=Jiang, Z |author4=Modrusan, Z |author5=Good, Z |author6=Jackson, E |author7= Kouros-Mehr, Hosein |title=Biomarkers of residual disease, disseminated tumor cells, and metastases in the MMTV-PyMT breast cancer model.|journal=PLOS ONE|date=2013|volume=8|issue=3|pages=e58183|pmid=23520493|doi=10.1371/journal.pone.0058183 |pmc=3592916|bibcode=2013PLoSO...858183F|doi-access=free}}</ref> In human breast cancer the polyoma middle T- antigen was not found.<ref>{{cite journal |vauthors=Dankort DL, Muller WJ |title=Signal transduction in mammary tumorigenesis: a transgenic perspective |journal=Oncogene |volume=19 |issue= 8|pages=1038–44 |year=2000 |pmid=10713687 |doi=10.1038/sj.onc.1203272|doi-access= }}</ref> |
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{{Further|Human betaretrovirus}} |
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==Notes== |
==Notes== |
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{{Reflist|2}} |
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==References== |
==References== |
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{{Refbegin}} |
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*{{cite journal|last=Bhadra|first=Sanchita|author2=Lozano, Mary M. |author3=Payne, Shelley M. |author4= Dudley, Jaquelin P. |title=Endogenous MMTV Proviruses Induce Susceptibility to Both Viral and Bacterial Pathogens|journal= |
* {{cite journal|last=Bhadra|first=Sanchita|author2=Lozano, Mary M. |author3=Payne, Shelley M. |author4= Dudley, Jaquelin P. |title=Endogenous MMTV Proviruses Induce Susceptibility to Both Viral and Bacterial Pathogens|journal=PLOS Pathogens|date=1 January 2006|volume=2|issue=12|page=e128|doi=10.1371/journal.ppat.0020128 |pmid=17140288 |pmc=1665650 |doi-access=free }} |
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*{{cite encyclopedia|title=Bittner factor or Bittner particle former name for murine mammary tumour virus|encyclopedia=Oxford Dictionary of Biochemistry and Molecular Biolog|editor-first=Richard|editor-last=Cammack|editor2-first=Anthony Donald|editor2-last=Smith|editor3-first=Teresa K.|editor3-last=Attwood|editor4-first=Peter|display-editors = 3 |editor4-last=Campbell|page=79}} |
* {{cite encyclopedia|title=Bittner factor or Bittner particle former name for murine mammary tumour virus|encyclopedia=Oxford Dictionary of Biochemistry and Molecular Biolog|editor-first=Richard|editor-last=Cammack|editor2-first=Anthony Donald|editor2-last=Smith|editor3-first=Teresa K.|editor3-last=Attwood|editor4-first=Peter|display-editors = 3 |editor4-last=Campbell|page=79}} |
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*{{cite journal|last=Courreges|first=M. C.|author2=Burzyn, D. |author3=Nepomnaschy, I. |author4=Piazzon, I. |author5= Ross, S. R. |title=Critical Role of Dendritic Cells in Mouse Mammary Tumor Virus In Vivo Infection|journal=Journal of Virology|date=31 January 2007|volume=81|issue=8|pages=3769–77 |doi=10.1128/JVI.02728-06 |pmid=17267484 |pmc=1866091 |
* {{cite journal|last=Courreges|first=M. C.|author2=Burzyn, D. |author3=Nepomnaschy, I. |author4=Piazzon, I. |author5= Ross, S. R. |title=Critical Role of Dendritic Cells in Mouse Mammary Tumor Virus In Vivo Infection|journal=Journal of Virology|date=31 January 2007|volume=81|issue=8|pages=3769–77 |doi=10.1128/JVI.02728-06 |pmid=17267484 |pmc=1866091 }} |
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*{{cite journal|last=Fernandez-Cobo|first=Mariana|author2=Melana, Stella M |author3=Holland, James F |author4= Pogo, Beatriz GT |title=Transcription profile of a human breast cancer cell line expressing MMTV-like sequences|journal=Infectious Agents and Cancer|date=1 January 2006|volume=1|issue=1|page=7|doi=10.1186/1750-9378-1-7 |
* {{cite journal|last=Fernandez-Cobo|first=Mariana|author2=Melana, Stella M |author3=Holland, James F |author4= Pogo, Beatriz GT |title=Transcription profile of a human breast cancer cell line expressing MMTV-like sequences|journal=Infectious Agents and Cancer|date=1 January 2006|volume=1|issue=1|page=7|doi=10.1186/1750-9378-1-7|pmid=17173685 |pmc=1764410 |doi-access=free }} |
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*{{cite journal|last=Indik|first=S.|title=Mouse Mammary Tumor Virus Infects Human Cells|journal=Cancer Research|date=1 August 2005|volume=65|issue=15|pages=6651–9 |doi=10.1158/0008-5472.CAN-04-2609|url=http://cancerres.aacrjournals.org/content/65/15/6651.full |pmid=16061645 }} |
* {{cite journal|last=Indik|first=S.|title=Mouse Mammary Tumor Virus Infects Human Cells|journal=Cancer Research|date=1 August 2005|volume=65|issue=15|pages=6651–9 |doi=10.1158/0008-5472.CAN-04-2609|url=http://cancerres.aacrjournals.org/content/65/15/6651.full |pmid=16061645 |doi-access=free}} |
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*{{cite journal|last=Indik|first=Stanislav|author2=Günzburg, Walter H |author3=Kulich, Pavel |author4=Salmons, Brian |author5= Rouault, Francoise |title=Rapid spread of mouse mammary tumor virus in cultured human breast cells|journal=Retrovirology|date=1 January 2007|volume=4|issue=1|page=73|doi=10.1186/1742-4690-4-73 |
* {{cite journal|last=Indik|first=Stanislav|author2=Günzburg, Walter H |author3=Kulich, Pavel |author4=Salmons, Brian |author5= Rouault, Francoise |title=Rapid spread of mouse mammary tumor virus in cultured human breast cells|journal=Retrovirology|date=1 January 2007|volume=4|issue=1|page=73|doi=10.1186/1742-4690-4-73|pmid=17931409 |pmc=2169256 |doi-access=free }} |
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*{{cite journal|last=Lawson|first=JS|author2=Günzburg, WH |author3=Whitaker, NJ |title=Viruses and human breast cancer|journal=Future Microbiology|date=June 2006|volume=1|issue=1|pages=33–51|pmid=17661684|doi=10.2217/17460913.1.1.33}} |
* {{cite journal|last=Lawson|first=JS|author2=Günzburg, WH |author3=Whitaker, NJ |title=Viruses and human breast cancer|journal=Future Microbiology|date=June 2006|volume=1|issue=1|pages=33–51|pmid=17661684|doi=10.2217/17460913.1.1.33}} |
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*{{cite journal|last=Levine|first=Paul H.|author2=Pogo, Beatriz G.-T. |author3=Klouj, Afifa |author4=Coronel, Stephanie |author5=Woodson, Karen |author6=Melana, Stella M. |author7=Mourali, Nejib |author8= Holland, James F. |title=Increasing evidence for a human breast carcinoma virus with geographic differences|journal=Cancer|date=15 August 2004|volume=101|issue=4|pages=721–6|doi=10.1002/cncr.20436 |pmid=15305401}} |
* {{cite journal|last=Levine|first=Paul H.|author2=Pogo, Beatriz G.-T. |author3=Klouj, Afifa |author4=Coronel, Stephanie |author5=Woodson, Karen |author6=Melana, Stella M. |author7=Mourali, Nejib |author8= Holland, James F. |title=Increasing evidence for a human breast carcinoma virus with geographic differences|journal=Cancer|date=15 August 2004|volume=101|issue=4|pages=721–6|doi=10.1002/cncr.20436 |pmid=15305401|s2cid=42247400}} |
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*{{cite journal|last=Salmons|first=B|author2=Lawson, JS |author3=Gunzburg, WH |title=Recent developments linking retroviruses to human breast cancer: infectious agent, enemy within or both?|journal=Journal of General Virology|date=December 2014|volume=95|issue=12|pages=2589–93|pmid=25217613|doi=10.1099/vir.0.070631-0}} |
* {{cite journal|last=Salmons|first=B|author2=Lawson, JS |author3=Gunzburg, WH |title=Recent developments linking retroviruses to human breast cancer: infectious agent, enemy within or both?|journal=Journal of General Virology|date=December 2014|volume=95|issue=12|pages=2589–93|pmid=25217613|doi=10.1099/vir.0.070631-0|doi-access=free}} |
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{{Refend}} |
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{{taxonbar}} |
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{{Retroviruses}} |
{{Retroviruses}} |
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{{Taxonbar|from=Q1775519}} |
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{{Authority control}} |
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{{DEFAULTSORT:Mouse Mammary Tumor Virus}} |
{{DEFAULTSORT:Mouse Mammary Tumor Virus}} |
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[[Category:Betaretroviruses]] |
[[Category:Betaretroviruses]] |
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[[Category:Rodent diseases]] |
[[Category:Rodent diseases]] |
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[[Category:Animal |
[[Category:Animal viral diseases]] |
Latest revision as of 12:29, 3 October 2024
Mouse mammary tumor virus | |
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Virus classification | |
(unranked): | Virus |
Realm: | Riboviria |
Kingdom: | Pararnavirae |
Phylum: | Artverviricota |
Class: | Revtraviricetes |
Order: | Ortervirales |
Family: | Retroviridae |
Genus: | Betaretrovirus |
Species: | Mouse mammary tumor virus
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Mouse mammary tumor virus (MMTV) is a milk-transmitted retrovirus like the HTL viruses, HI viruses, and BLV. It belongs to the genus Betaretrovirus. MMTV was formerly known as Bittner virus, and previously the "milk factor", referring to the extra-chromosomal vertical transmission of murine breast cancer by adoptive nursing, demonstrated in 1936, by John Joseph Bittner while working at the Jackson Laboratory in Bar Harbor, Maine. Bittner established the theory that a cancerous agent, or "milk factor", could be transmitted by cancerous mothers to young mice from a virus in their mother's milk.[1][2] The majority of mammary tumors in mice are caused by mouse mammary tumor virus.
Infection and life cycle
[edit]Several mouse strains carry the virus endogenously, but it is also transmitted vertically via milk from mother to pup. It is contained as a DNA provirus integrated in the DNA of milk lymphocytes. The viruses become transported through the gastrointestinal tract to the Peyer's patches where they infect the new host's macrophages, and then lymphocytes.[citation needed]
The mouse mammary tumor virus (MMTV) has formerly been classified as a simple retrovirus; however, it has recently been established, that MMTV encodes an extra self-regulatory mRNA export protein, Rem, with resemblance to the human immunodeficiency virus (HIV) Rev protein, and is therefore the first complex murine retrovirus to be documented.[3][4] Rem appears to shuttle between the nucleus and the cytoplasm.[5] In contrast to Rem, which exports exclusively unspliced gag/pol mRNA, the HIV-1 Rev protein mediates cytoplasmic accumulation of both unspliced and singly-spliced mRNAs.[6]
MMTV codes for the retroviral structural genes and additionally for a superantigen. This stimulates T lymphocytes with a certain type of V beta chain in their T cell receptor, which in turn stimulates B cell proliferation increasing the population of cells that can be infected.[7] During puberty, the virus enters the mammary glands with migrating lymphocytes and infects proliferating mammary gland epithelial cells.[8]
As a retrovirus the MMTV is able to insert its viral genome in the host genome. The virus RNA genome is reverse transcribed by reverse transcriptase into DNA. This DNA intermediate state of the virus is called the provirus. When the virus DNA is inserted inside or even near a gene, it is able to change the expression of that gene and potentially produce an oncogene which might eventually develop into cancer.[9] The viral genome is able to cause cancer only if it alters the expression of an oncogene. If the viral genome is inserted in a "silent" region of the host genome then it is harmless or may cause other diseases. High levels of MMTV are expressed in lymphoid leukemias of mouse strain GR and DBA/2 which contain extra integrated MMTV proviruses. These leukemias are active when cells are transferred to other mice.[10]
When the virus genome is inserted inside the host genome it is then able to transcribe its own viral genes. In F. U. Reuss and J. M. Coffin (2000) experiments it is mentioned that the expression of the virus genome is activated by an enhancer element that is present in the U3 region of the long terminal repeat of the genome.[11] In addition the expression of the genome is activated specifically in the mammary gland cells.[11] Estrogen is able to further activate the expression of the viral genome.[9] The expression of sag gene which is present in the provirus is responsible for the production of a superantigen.[8]
MMTV can be transferred either through an exogenous or endogenous route. If the virus is transferred exogenously, it is passed from the mother mouse to her pups through her milk.[12]
Alternatively, pups can be infected vertically through endogenous infection, inheriting the virus directly from their mother in the germline. Mice that become infected in this way have higher rates of occurrence of tumors. A retrovirus is endogenous to its host once the proviral DNA is inserted into the chromosomal DNA. As a result, mice with endogenous MMTV have the virus's DNA in every cell of its body, as the virus is present in the DNA of the sperm or egg cell from which the animal is conceived.[citation needed]
Hormonal responsiveness of integrated MMTV DNA
[edit]Endogenous MMTV reacts to the whole range of hormones that regulate normal mammary development and lactation, response has been demonstrated to steroid hormones (androgens, glucocorticoids and progestins),[13] as well as prolactin.[14]
When the mouse reaches puberty the virus begins to express its messenger RNA in the estrogen sensitive tissues. As a result, after puberty all mammary cells will contain the active retrovirus and begin to replicate in the genome and express viral messenger RNA in all new mammary tissue cells.[12]
The MMTV promoter in models of human breast cancer
[edit]The LTR (long terminal repeat) of MMTV contains a glucocorticoid hormone response element. This glucocorticoid element is a promoter that is often used to construct mice which develop a breast cancer-like disease, because an animal model system for breast cancer close to the human disease is very much looked for.[citation needed]
The MMTV promoter is used in the PyMT model system of mouse models of breast cancer metastasis. Here Py is the abbreviation of polyoma and MT is the abbreviation for middle T. There are more model systems of breast cancer which use the MMTV promoter. The polyoma middle T-antigen is taken from the polyoma virus. The MMTV-PyMT model has been shown to be a reliable model of breast cancer metastasis.[15] In human breast cancer the polyoma middle T- antigen was not found.[16]
Notes
[edit]- ^ Bittner, J. J. (1936). "Some Possible Effects of Nursing on the Mammary Gland Tumor Incidence in Mice". Science. 84 (2172): 162. Bibcode:1936Sci....84..162B. doi:10.1126/science.84.2172.162. PMID 17793252. S2CID 31163817.
- ^ "Medicine: Cancer Virus". TIME magazine. 18 March 1946. Archived from the original on February 19, 2011.
- ^ Mertz, JA; Simper, MS; Lozano, MM; Payne, SM; Dudley, JP (December 2005). "Mouse mammary tumor virus encodes a self-regulatory RNA export protein and is a complex retrovirus". Journal of Virology. 79 (23): 14737–47. doi:10.1128/JVI.79.23.14737-14747.2005. PMC 1287593. PMID 16282474.
- ^ Indik, S; Gunzburg, WH; Salmons, B; Rouault, F (June 2005). "A novel, mouse mammary tumor virus encoded protein with Rev-like properties". Virology. 337 (1): 1–6. doi:10.1016/j.virol.2005.03.040. PMID 15914215.
- ^ Indik, Stanislav; Günzburg, Walter H.; Salmons, Brian; Rouault, Francoise (2005-06-20). "A novel, mouse mammary tumor virus encoded protein with Rev-like properties". Virology. 337 (1): 1–6. doi:10.1016/j.virol.2005.03.040. ISSN 0042-6822.
- ^ Hohenadl, Christine; Gunzburg, Walter H.; Salmons, Brian; Indik, Stanislav (2012). "The 5′ leader sequence of mouse mammary tumor virus enhances expression of the envelope and reporter genes". Journal of General Virology. 93 (2): 308–318. doi:10.1099/vir.0.035196-0. ISSN 1465-2099.
- ^ Reuss, FU; Coffin, JM (July 1998). "Mouse mammary tumor virus superantigen expression in B cells is regulated by a central enhancer within the pol gene". Journal of Virology. 72 (7): 6073–82. doi:10.1128/JVI.72.7.6073-6082.1998. PMC 110413. PMID 9621071.
MMTV encodes a superantigen (Sag) that, when expressed on the surface of B cells or other antigen-presenting cells, activates a large number of T cells by interaction with specific T-cell receptor β chains. The resulting T-cell response in turn stimulates the infected B cells to proliferate and thus amplifies the number of virus-infected cells and potential target bystander cells
- ^ a b Golovkina, TV; Dudley, JP; Ross, SR (Sep 1, 1998). "B and T cells are required for mouse mammary tumor virus spread within the mammary gland". Journal of Immunology. 161 (5): 2375–82. doi:10.4049/jimmunol.161.5.2375. PMID 9725233. S2CID 26055839.
However, the ultimate targets of MMTV are mammary gland cells, which begin dividing during puberty...The infected lymphoid cells then bring virus to the cells of the developing mammary gland, thereby also allowing the virus to overcome its spatial problem... SAg activity is required for efficient viral infection of the mammary epithelial cells and consequent tumorigenesis...Thus, SAg-mediated stimulation of lymphoid cells is needed for their infection and for virus spread between mammary gland cells
- ^ a b Okeoma, Chioma M.; Lovsin, Nika; Peterlin, B. Matija; Ross, Susan R. (28 January 2007). "APOBEC3 inhibits mouse mammary tumour virus replication in vivo". Nature. 445 (7130): 927–930. Bibcode:2007Natur.445..927O. doi:10.1038/nature05540. PMID 17259974. S2CID 4316435.
- ^ Michalides, Rob; Wagenaar, Els; Hilkens, John; Hilgers, Jo; Groner, Bernd; Hynes, Nancy (September 1982). "Acquisition of Proviral DNA of mouse mammary tumor virus in thymic leukemi cells from GR mice". Journal of Virology. 43 (3): 819–829. doi:10.1128/JVI.43.3.819-829.1982. PMC 256192. PMID 6292463.
- ^ a b Reuss, F. U.; Coffin, J. M. (1 September 2000). "The Mouse Mammary Tumor Virus Transcription Enhancers for Hematopoietic Progenitor and Mammary Gland Cells Share Functional Elements". Journal of Virology. 74 (17): 8183–7. doi:10.1128/JVI.74.17.8183-8187.2000. PMC 112353. PMID 10933730.
- ^ a b Mant, C; Gillett, C; D'Arrigo, C; Cason, J (Jan 5, 2004). "Human murine mammary tumour virus-like agents are genetically distinct from endogenous retroviruses and are not detectable in breast cancer cell lines or biopsies". Virology. 318 (1): 393–404. doi:10.1016/j.virol.2003.09.027. PMID 14972564.
- ^ Ham, J.; Thomson, A.; Needham, M.; Webb, P.; Parker, M. (1988). "Characterization of response elements for androgens, glucocorticoids and progestins in mouse mammary tumour virus". Nucleic Acids Research. 16 (12): 5263–76. doi:10.1093/nar/16.12.5263. PMC 336766. PMID 2838812.
- ^ Muñoz, B.; Bolander Jr, F. F. (1989). "Prolactin regulation of mouse mammary tumor virus (MMTV) expression in normal mouse mammary epithelium". Molecular and Cellular Endocrinology. 62 (1): 23–29. doi:10.1016/0303-7207(89)90109-3. PMID 2545485. S2CID 40515926.
- ^ Franci, C; Zhou, J; Jiang, Z; Modrusan, Z; Good, Z; Jackson, E; Kouros-Mehr, Hosein (2013). "Biomarkers of residual disease, disseminated tumor cells, and metastases in the MMTV-PyMT breast cancer model". PLOS ONE. 8 (3): e58183. Bibcode:2013PLoSO...858183F. doi:10.1371/journal.pone.0058183. PMC 3592916. PMID 23520493.
- ^ Dankort DL, Muller WJ (2000). "Signal transduction in mammary tumorigenesis: a transgenic perspective". Oncogene. 19 (8): 1038–44. doi:10.1038/sj.onc.1203272. PMID 10713687.
References
[edit]- Bhadra, Sanchita; Lozano, Mary M.; Payne, Shelley M.; Dudley, Jaquelin P. (1 January 2006). "Endogenous MMTV Proviruses Induce Susceptibility to Both Viral and Bacterial Pathogens". PLOS Pathogens. 2 (12): e128. doi:10.1371/journal.ppat.0020128. PMC 1665650. PMID 17140288.
- Cammack, Richard; Smith, Anthony Donald; Attwood, Teresa K.; et al. (eds.). "Bittner factor or Bittner particle former name for murine mammary tumour virus". Oxford Dictionary of Biochemistry and Molecular Biolog. p. 79.
- Courreges, M. C.; Burzyn, D.; Nepomnaschy, I.; Piazzon, I.; Ross, S. R. (31 January 2007). "Critical Role of Dendritic Cells in Mouse Mammary Tumor Virus In Vivo Infection". Journal of Virology. 81 (8): 3769–77. doi:10.1128/JVI.02728-06. PMC 1866091. PMID 17267484.
- Fernandez-Cobo, Mariana; Melana, Stella M; Holland, James F; Pogo, Beatriz GT (1 January 2006). "Transcription profile of a human breast cancer cell line expressing MMTV-like sequences". Infectious Agents and Cancer. 1 (1): 7. doi:10.1186/1750-9378-1-7. PMC 1764410. PMID 17173685.
- Indik, S. (1 August 2005). "Mouse Mammary Tumor Virus Infects Human Cells". Cancer Research. 65 (15): 6651–9. doi:10.1158/0008-5472.CAN-04-2609. PMID 16061645.
- Indik, Stanislav; Günzburg, Walter H; Kulich, Pavel; Salmons, Brian; Rouault, Francoise (1 January 2007). "Rapid spread of mouse mammary tumor virus in cultured human breast cells". Retrovirology. 4 (1): 73. doi:10.1186/1742-4690-4-73. PMC 2169256. PMID 17931409.
- Lawson, JS; Günzburg, WH; Whitaker, NJ (June 2006). "Viruses and human breast cancer". Future Microbiology. 1 (1): 33–51. doi:10.2217/17460913.1.1.33. PMID 17661684.
- Levine, Paul H.; Pogo, Beatriz G.-T.; Klouj, Afifa; Coronel, Stephanie; Woodson, Karen; Melana, Stella M.; Mourali, Nejib; Holland, James F. (15 August 2004). "Increasing evidence for a human breast carcinoma virus with geographic differences". Cancer. 101 (4): 721–6. doi:10.1002/cncr.20436. PMID 15305401. S2CID 42247400.
- Salmons, B; Lawson, JS; Gunzburg, WH (December 2014). "Recent developments linking retroviruses to human breast cancer: infectious agent, enemy within or both?". Journal of General Virology. 95 (12): 2589–93. doi:10.1099/vir.0.070631-0. PMID 25217613.