Illustration of a cat in a lab with DNA linking to human and dog cancer genes for a news article on feline tumor study.
Illustration of a cat in a lab with DNA linking to human and dog cancer genes for a news article on feline tumor study.
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Study of nearly 500 cat tumors finds cancer-gene overlaps with humans and dogs

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A genetic analysis of 493 tumors from domestic cats collected across five countries found that feline cancers share many of the same cancer-driving genes seen in people and dogs, including frequent FBXW7 mutations in feline mammary tumors that are linked to poorer outcomes in some human breast cancers. The results were published in Science.

An international research team genetically analyzed tumors from 493 domestic cats, using tissue samples that veterinarians had already collected for diagnostic purposes. According to a University of Guelph research release carried by ScienceDaily, the samples came from cats in five countries, and the work represents a first large-scale effort to profile the genetics of cancer in domestic cats.

Among the findings, the team reported that the FBXW7 gene was the most frequently altered in feline mammary tumors, with mutations appearing in more than half of the mammary tumors studied. The release noted that FBXW7 mutations in human breast cancer have been associated with poorer outcomes, and said the pattern seen in cats broadly mirrors that human clinical picture.

The researchers also reported genetic similarities between feline cancers and human cancers in tumor types affecting the blood, bones, lungs, skin, gastrointestinal tract and central nervous system, adding to evidence that some of the same core pathways drive cancer across species. The authors said the results could help guide future comparative-oncology research and, eventually, inform treatment strategies for pets and people.

Separately, the release said laboratory tests on the collected tumor tissue suggested that some chemotherapy drugs appeared to work better in mammary tumor samples carrying mutated FBXW7—an observation the researchers described as preliminary and limited to tissue samples, not clinical outcomes in cats or humans.

사람들이 말하는 것

Recent posts highlight excitement over shared cancer genes in cats, humans, and dogs, with users noting potential for cross-species breakthroughs in treatments. Science accounts shared study details on feline oncogenome. Skeptical notes on related topics like vaccines appeared but were less direct.

관련 기사

Microscopic illustration of DNA damage in tumor cells due to excessive EXO1 activity.
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Study finds excessive EXO1 DNA-repair activity can destabilize genomes and may mark tumors sensitive to some therapies

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Researchers at Penn State College of Medicine report that unusually high activity of the DNA-repair gene EXO1 can damage newly replicated DNA and create BRCA-like weaknesses in some tumors, potentially helping identify patients who could respond to certain treatments used for BRCA-mutant cancers.

Researchers have identified how reduced levels of the GATA6 factor enable colorectal cancer cells to adopt a fetal-like state and metastasize to the liver. The findings point to epigenetic changes rather than genetic mutations as a key driver of this deadly progression.

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Researchers comparing appendage regrowth in salamanders, fish and mice report that two related genes, SP6 and SP8, are activated in regenerating skin tissue across species and are required for normal bone regrowth in animal models—findings they say could inform future regenerative-medicine strategies.

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