Canine transmissible venereal tumor

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Canine transmissible venereal tumor
File:Canine transmissible venereal tumor cytology.JPG
CTVT cells stained and viewed under an optical microscope.
Scientific classification
Kingdom:
Animalia
Phylum:
Chordata
Class:
Mammalia
Order:
Carnivora
Family:
Canidae
Genus:
Canis
Species:
C. lupus
Subspecies:
Incertae sedis
Binomial name
Canis lupus

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Canine transmissible venereal tumors (CTVTs), also called transmissible venereal tumors (TVTs), canine transmissible venereal sarcoma (CTVS), sticker tumors and infectious sarcoma is a histiocytic tumor of the external genitalia of the dog and other canines, and is transmitted from animal to animal during mating. It is one of only four known transmissible cancers; another is devil facial tumor disease, a cancer which occurs in Tasmanian devils.

The tumor cells are themselves the infectious agents, and the tumors that form are not genetically related to the host dog.[1] Although the genome of a CTVT is derived from a canid (probably a dog, wolf or coyote), it is now essentially living as a unicellular, asexually reproducing (but sexually transmitted) pathogen.[2] Sequence analysis of the genome suggests it diverged from canids over 6,000 years ago; possibly much earlier.[2] The most recent estimates of its time of origin place date it to about 11,000 years ago.[3] However, the most recent common ancestor of extant tumors is more recent: it probably originated 200 to 2,500 years ago.[1][4]

Canine TVTs were initially described by Russian veterinarian M.A. Novinsky (1841–1914) in 1876, when he demonstrated that the tumor could be transplanted from one dog to another by infecting them with tumor cells.[5]

Biology

Canine transmissible venereal tumors are histiocytic tumors that may be transmitted among dogs through coitus, licking, biting and sniffing tumor affected areas. The concept that the tumor is naturally transmissible as an allograft came from three important observations. First, CTVTs can only be experimentally induced by transplanting living tumor cells, and not by killed cells or cell filtrates. Second, the tumor karyotes is aneuploid but has characteristic marker chromosomes in all tumors collected in different geographic regions. Third, a long interspersed nuclear element (LINE-1) insertion near c-myc has been found in all tumors examined so far and can be used as a diagnostic marker to confirm that a tumor is a CTVT.[4]

The CTVT cells have fewer chromosomes than normal cells. Dog cells normally have 78 chromosomes; The cancer cells contain 57–64 chromosomes[5] that are very different in appearance from normal dog chromosomes. All dog chromosomes except X and Y are acrocentric, having a centromere very near to the end of the chromosome, while many of the CTVT chromosomes are metacentric or submetacentric, having a centromere nearer to the middle.[6] There is no evidence that the tumor is caused by a virus or virus-like organism. The infectious agent of canine transmissible venereal tumor is the cancer cell itself and the tumor is clonal in origin. All tumor cells of this type of cancer share extremely similar genetic code, often if not always unrelated to the DNA of their host. Specifically, the LINE-1 element in the tumor cells is in a different location than in normal canine DNA.[4] This demonstrates that the tumors do not arise from separate cancerous transformation in individual animals. Rather, the malignant tumor cells from one dog are transferred to another.[4][7]

Canine transmissible venereal tumors are most commonly seen in sexually active dogs in tropical and subtropical climates. The disease is spread when dogs mate, and it can even be transmitted to other canine species, such as foxes and coyotes.[8] Spontaneous regression of the tumor can occur, probably due to a response from the immune system.[9] CTVT undergoes a predictable cycle: the initial growth phase of four to six months (P phase), a stable phase, and a regression phase (R phase),[10] although not all CTVTs will regress. The tumor does not often metastasize (occurring in about 5 percent of cases),[11] except in puppies and immunocompromised dogs. Metastasis is most commonly to regional lymph nodes, but can also be seen in the skin, brain, eye, liver, spleen, testicle, and muscle.[12] A biopsy is necessary for diagnosis.

The success of this single cell lineage, believed to be the longest continually propagated cell lineage in the world, can be attributed to the tumor’s mode of transmission in a specific host system. Although direct contact is generally not a highly efficient mode of transfer, CTVTs take advantage of the popular sire effect of domestic dogs. A single male can produce dozens of litters over his lifetime, allowing the tumor to affect many more females than it could if a monogamous species were the host. Understanding the epidemiology of CTVTs is hoped to provide insights for populations that may experience CTVT exposure and information about disease prevalence. Canine transmissible venereal tumors are more often found in temperate climates where there are large populations of stray dogs, but little is known about the details of transmission.[13]

Signs and symptoms

In male dogs, the tumor affects the penis and foreskin. In female dogs, it affects the vulva. Rarely, the mouth or nose are affected.[14] The tumor often has a cauliflower-like appearance. Signs of genital TVT include a discharge from the prepuce and in some cases urinary retention, from blockage of the urethra.[6] Signs of a nasal TVT include nasal fistulae, nosebleeds and other nasal discharge, facial swelling, and enlargement of the submandibular lymph nodes.[15]

Treatment

Surgery may be difficult due to the location of these tumors. Surgery alone often leads to recurrence. Chemotherapy is very effective for TVTs. The prognosis for complete remission with chemotherapy is excellent.[16] The most common chemotherapy agents used are vincristine, vinblastine, and doxorubicin.[9] Radiotherapy may be required if chemotherapy does not work.[12]

References

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  3. Strakova A, Murchison EP (2015)The cancer which survived: insights from the genome of an 11000 year-old cancer. Curr Opin Genet Dev. 2015 Apr 7;30:49-55. doi: 10.1016/j.gde.2015.03.005
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  7. Dingli D, Nowak MA. Cancer biology: infectious tumour cells. Nature. 2006 Sep 7;443(7107):35–6. B).
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  13. Bridgett M. vonHoldt and Elaine A. Ostrander. The Singular History of a Canine Transmissible Tumor. Cell. 126. 2006.
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External links

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