Abstract
BackgroundEstrogens are essential for the development and proper function of several hormone-dependent organs. There are, however, several lines of evidence associating estrogens with mammary carcinogenesis. A marked individual genetic variability concerning estrogens biosynthesis, metabolism and mechanism of action was recognized and associated with human breast cancer susceptibility, clinical features and progression. Although some genetic variations in canine ESR1 gene were reported, their influence in clinicopathological features and progression of canine mammary tumors has not been fully evaluated. This study aims to assess the influence of SNPs in ESR1 gene (rs397512133, rs397510462, rs851327560, rs397510612, rs852887655, rs852684753 and rs852398698) in canine mammary tumors characteristics and progression. A group of 155 non-neutered bitches with mammary tumors was included in the study. Follow-up information was assessed 24 months after surgery.ResultsGenetic profiles associated with a later onset of mammary tumors and less aggressive clinicopathological features, namely smaller tumor size (≤ 3 cm) with extensive tubular differentiation and low canine-adapted prognostic index (vet-NPI), were identified in this study.ConclusionsOur data suggest that the ESR1 genetic profile may help on the decision regarding the selection of individual tailored preventive measures against canine mammary tumors development, such as early neutering.
Highlights
Estrogens are essential for the development and proper function of several hormone-dependent organs
The aim of this study is to investigate the association between seven single nucleotide polymorphisms (SNPs) in canine Estrogen receptor 1 (ESR1) gene and clinicopathological features of canine mammary tumors and the clinical outcome of the disease
Animals lost to follow-up (n = 16/88; 18.2%) and animals that died from causes not related to the mammary neoplasia (n = 7/88; 8%) were censored
Summary
Estrogens are essential for the development and proper function of several hormone-dependent organs. This study aims to assess the influence of SNPs in ESR1 gene (rs397512133, rs397510462, rs851327560, rs397510612, rs852887655, rs852684753 and rs852398698) in canine mammary tumors characteristics and progression. Estrogens play a pivotal role in the development of the mammary branching ductalalveolar system in puberty, throughout the menstrual cycle and during pregnancy [1,2,3,4,5]. Due to their pro-proliferative and anti-apoptotic affects, estrogens have been implicated in human breast cancer development and progression [6,7,8]. Levels of serum steroid hormones were reported to be higher in dogs with mammary carcinomas than in normal ones [18, 19]
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