Abstract
Familial thyroid cancer originating from follicular cells accounts for 5–15% of all the thyroid carcinoma cases in humans. Previously, we described thyroid follicular cell carcinomas in a large number of the Dutch German longhaired pointers (GLPs) with a likely autosomal recessive inheritance pattern. Here, we investigated the genetic causes of the disease using a combined approach of genome-wide association study and runs of homozygosity (ROH) analysis based on 170k SNP array genotype data and whole-genome sequences. A region 0–5 Mb on chromosome 17 was identified to be associated with the disease. Whole-genome sequencing revealed many mutations fitting the recessive inheritance pattern in this region including two deleterious mutations in the TPO gene, chr17:800788G>A (686F>V) and chr17:805276C>T (845T>M). These two SNP were subsequently genotyped in 186 GLPs (59 affected and 127 unaffected) and confirmed to be highly associated with the disease. The recessive genotypes had higher relative risks of 16.94 and 16.64 compared to homozygous genotypes for the reference alleles, respectively. This study provides novel insight into the genetic causes leading to the familial thyroid follicular cell carcinoma, and we were able to develop a genetic test to screen susceptible dogs.
Highlights
In humans, thyroid cancer constitutes 3.4% of cancers diagnosed worldwide annually [1]
From the affected German longhaired pointers (GLPs) we previously described, 25 follicular cell carcinomas (FCC) affected GLPs were selected for SNP array genotyping
We identified a region located between positions 0 and 5 Mb on chromosome 17 that is associated with FCC in the Dutch GLPs using a combination of genome-wide association study (GWAS) and runs of homozygosity (ROH) analyses
Summary
Thyroid cancer constitutes 3.4% of cancers diagnosed worldwide annually [1]. Thyroid carcinoma (TC) originating from follicular cells have two main types: follicular thyroid carcinoma (FTC) and papillary thyroid carcinoma (PTC). FTC accounts for 14% and PTC accounts for 81% [2] of thyroid carcinomas. Thyroid follicular cell carcinomas (FCC) are mainly classified into four types: FTC, PTC, compact thyroid carcinoma (CTC), and follicular-compact thyroid carcinoma (FCTC). These FCCs in dogs are remarkably similar in histology and biological behavior to thyroid carcinoma with follicular origin in humans [3]. Similarity in cell origin and histology of FCC indicates that dogs might be able to serve as a thyroid cancer model for research and treatments development
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