Abstract
Sporadic canine colorectal cancers (CRCs) should make excellent models for studying the corresponding human cancers. To molecularly characterize canine CRC, we investigated exonic sequence mutations of adenomatous polyposis coli (APC), the best known tumor suppressor gene of human CRC, in 23 sporadic canine colorectal tumors, including 8 adenomas and 15 adenocarcinomas, via exon-resequencing analysis. As a comparison, we also performed the same sequencing analysis on 10 other genes, either located at human 5q22 (the same locus as APC) or 18q21 (also frequently altered in human CRC), or known to play a role in human carcinogenesis. We noted that APC was the most significantly mutated gene in both canine adenomas and adenocarcinomas among the 11 genes examined. Significantly, we detected large deletions of ≥10 bases, many clustered near the mutation cluster region, as well as single or two base deletions in ∼70% canine tumors of both subtypes. These observations indicate that like in the human, APC is also frequently altered in sporadic colorectal tumors in the dog and its alteration is an early event in canine colorectal tumorigenesis. Our study provides further evidence demonstrating the molecular similarity in pathogenesis between sporadic human and canine CRCs. This work, along with our previous copy number abnormality study, supports that sporadic canine CRCs are valid models of human CRCs at the molecular level.
Highlights
Sporadic canine cancers should make excellent models for studying the corresponding human cancers for a number of reasons
Colorectal tumorigenesis is proposed to be initiated by inactivation of the adenomatous polyposis coli (APC) gene, as its alteration is the earliest event yet identified in sporadic colorectal tumorigenesis and .85% of sporadic human colorectal tumors carry somatic mutations of APC [16,17,18,19,29,30,31,32]
To investigate if these are true in dogs, we investigated APC in 23 sporadic canine colorectal tumors, including 8 adenomas and 15 adenocarcinomas (Table S1), of FFPE tissue samples archived at the William R
Summary
Sporadic canine cancers should make excellent models for studying the corresponding human cancers for a number of reasons. Risk factors for cancer development in dogs include air pollutants and other environmental toxins, diet and obesity, advancing age, and other similar factors [1]. These cancers are naturally occurring and heterogeneous, and capture the essence of sporadic human cancers, unlike most genetically modified or xenograft rodent cancer models [2]. The dog genome has been sequenced to 7.6-fold coverage and a relatively accurate version of its sequence assemblies is available [1], which is unlike another companion animal, the cat, whose genome has only been sequenced to 2.8-fold coverage [10,11]. The dog genome is rearranged when compared to the human genome [1,12]
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