Abstract
BackgroundBreast cancer (BC) is the most common malignancy in women, in whom it reaches 20% of the total neoplasia incidence. Most BCs are considered sporadic and a number of factors, including familiarity, age, hormonal cycles and diet, have been reported to be BC risk factors. Also the gut microbiota plays a role in breast cancer development. In fact, its imbalance has been associated to various human diseases including cancer although a consequential cause-effect phenomenon has never been proven.MethodsThe aim of this work was to characterize the breast tissue microbiome in 34 women affected by BC using an NGS-based method, and analyzing the tumoral and the adjacent non-tumoral tissue of each patient.ResultsThe healthy and tumor tissues differed in bacterial composition and richness: the number of Amplicon Sequence Variants (ASVs) was higher in healthy tissues than in tumor tissues (p = 0.001). Moreover, our analyses, able to investigate from phylum down to species taxa for each sample, revealed major differences in the two richest phyla, namely, Proteobacteria and Actinobacteria. Notably, the levels of Actinobacteria and Proteobacteria were, respectively, higher and lower in healthy with respect to tumor tissues.ConclusionsOur study provides information about the breast tissue microbial composition, as compared with very closely adjacent healthy tissue (paired samples within the same woman); the differences found are such to have possible diagnostic and therapeutic implications; further studies are necessary to clarify if the differences found in the breast tissue microbiome are simply an association or a concausative pathogenetic effect in BC. A comparison of different results on similar studies seems not to assess a universal microbiome signature, but single ones depending on the environmental cohortsā locations.
Highlights
Breast cancer (BC) is the most common malignancy in women, in whom it reaches 20% of the total neoplasia incidence
Each sample obtained more than 90% of reads thereby passing quality filtering with an average quality value of 30 (Q30) >80%
In order to achieve an adequate compromise between the microbiome sampling and the number of retained samples, the Amplicon Sequence Variants (ASVs) table was rarefied using an equal sequencing depth of 15,000 (Additional File 1: Figure S1), 27 and 16 tumoral and non-tumoral samples were retained, respectively
Summary
Breast cancer (BC) is the most common malignancy in women, in whom it reaches 20% of the total neoplasia incidence. In recent years attention has focused on the relationship between the human microbiome and carcinogenesis to assess its role in BC onset and/or development [20,21,22,23,24] In this scenario, we analyzed (in paired samples from the same subject) the microbiome of tumor breast tissue and the adjacent normal one of women affected by BC in the attempt to get a closer view which may shed light on the potential involvement of microbial dysbiosis in breast cancer. We used next-generation-sequencing (NGS)-based methodology to analyze the 16 s ribosomal RNA of the microbiome tissue populations
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