Shope papilloma virus: Difference between revisions

Shope Papilloma Virus (SPV), also known as Rabbit Papillomavirus or Cottontail Rabbit Papillomavirus, is a virus belonging to the Papillomaviridae family, which is responsible for causing skin tumors, commonly referred to as papillomas or warts, in its hosts. Initially discovered by Richard E. Shope in the 1930s, SPV was the first virus shown to cause cancer in mammals, marking a significant milestone in the field of oncology and virology.

Overview[edit]

Shope Papilloma Virus primarily affects rabbits, particularly the Eastern cottontail rabbit (Sylvilagus floridanus), leading to the development of horn-like tumors that can progress to carcinomas if left untreated. The virus is transmitted through direct contact with infected individuals or contaminated environments. SPV has played a crucial role in understanding the mechanisms of viral-induced carcinogenesis, serving as a model for studying other oncogenic viruses, including human papillomaviruses (HPVs) which are linked to cervical and other cancers in humans.

Genome and Structure[edit]

The genome of Shope Papilloma Virus is circular, double-stranded DNA. It encodes several proteins essential for viral replication and the transformation of host cells, leading to tumor formation. The structure of SPV is characterized by an icosahedral capsid, which is typical of viruses in the Papillomaviridae family. This structure facilitates the virus's ability to infect epithelial cells, where it replicates and induces cell proliferation.

Pathogenesis[edit]

Upon infection, SPV integrates its DNA into the host cell's genome, disrupting normal cell function and promoting uncontrolled cell growth. The virus exploits the host's cellular machinery to replicate, leading to the formation of papillomas. These growths can undergo malignant transformation, especially when the host's immune response is compromised or when co-infections with other pathogens occur.

Clinical Significance[edit]

The study of Shope Papilloma Virus has provided valuable insights into the mechanisms of viral oncogenesis and the role of viral infections in cancer development. It has also contributed to the development of vaccines and therapeutic strategies against HPV-related cancers in humans. The SPV model continues to be a vital tool in cancer research, particularly in understanding the interactions between viruses and their host cells, and in the development of novel anti-cancer therapies.

Prevention and Treatment[edit]

There is no specific treatment for SPV-induced tumors in rabbits; however, removal of the tumors through surgical excision or cryotherapy can be effective in some cases. Preventive measures include minimizing contact with infected animals and maintaining good hygiene in rabbit populations. Research into vaccines and antiviral therapies for SPV is ongoing, with the aim of providing insights into similar treatments for HPV in humans.

See Also[edit]

• Papillomavirus
• Viral oncogenesis
• Cancer research
• Human papillomavirus

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Shope_papilloma_virus[edit]

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  Rabbit shopes papilloma virus 3
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  Richard Edwin Shope
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  Lepus cornutus