Investigation of the adolescent female breast transcriptome and the impact of obesity
Abstract Background Early life environmental exposures affect breast development and breast cancer risk in adulthood. The breast is particularly vulnerable during puberty when mammary epithelial cells proliferate exponentially. In overweight/obese (OB) women, inflammation increases breast aromatase...
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| Format: | Article |
| Language: | English |
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BMC
2020-05-01
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| Series: | Breast Cancer Research |
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| Online Access: | http://link.springer.com/article/10.1186/s13058-020-01279-6 |
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doaj-3b9b6561778645f392d730240f469810 |
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Article |
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DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Adam Burkholder Dennis Akrobetu Arun R. Pandiri Kiki Ton Sue Kim Brian I. Labow Laura C. Nuzzi Joseph M. Firriolo Sallie S. Schneider Suzanne E. Fenton Natalie D. Shaw |
| spellingShingle |
Adam Burkholder Dennis Akrobetu Arun R. Pandiri Kiki Ton Sue Kim Brian I. Labow Laura C. Nuzzi Joseph M. Firriolo Sallie S. Schneider Suzanne E. Fenton Natalie D. Shaw Investigation of the adolescent female breast transcriptome and the impact of obesity Breast Cancer Research Adolescent Obesity RNA-seq |
| author_facet |
Adam Burkholder Dennis Akrobetu Arun R. Pandiri Kiki Ton Sue Kim Brian I. Labow Laura C. Nuzzi Joseph M. Firriolo Sallie S. Schneider Suzanne E. Fenton Natalie D. Shaw |
| author_sort |
Adam Burkholder |
| title |
Investigation of the adolescent female breast transcriptome and the impact of obesity |
| title_short |
Investigation of the adolescent female breast transcriptome and the impact of obesity |
| title_full |
Investigation of the adolescent female breast transcriptome and the impact of obesity |
| title_fullStr |
Investigation of the adolescent female breast transcriptome and the impact of obesity |
| title_full_unstemmed |
Investigation of the adolescent female breast transcriptome and the impact of obesity |
| title_sort |
investigation of the adolescent female breast transcriptome and the impact of obesity |
| publisher |
BMC |
| series |
Breast Cancer Research |
| issn |
1465-542X |
| publishDate |
2020-05-01 |
| description |
Abstract Background Early life environmental exposures affect breast development and breast cancer risk in adulthood. The breast is particularly vulnerable during puberty when mammary epithelial cells proliferate exponentially. In overweight/obese (OB) women, inflammation increases breast aromatase expression and estrogen synthesis and promotes estrogen-receptor (ER)-positive breast cancer. In contrast, recent epidemiological studies suggest that obesity during childhood decreases future breast cancer risk. Studies on environmental exposures and breast cancer risk have thus far been limited to animal models. Here, we present the first interrogation of the human adolescent breast at the molecular level and investigate how obesity affects the immature breast. Methods We performed RNA-seq in 62 breast tissue samples from adolescent girls/young women (ADOL; mean age 17.8 years) who underwent reduction mammoplasty. Thirty-one subjects were non-overweight/obese (NOB; mean BMI 23.4 kg/m2) and 31 were overweight/obese (OB; BMI 32.1 kg/m2). We also compared our data to published mammary transcriptome datasets from women (mean age 39 years) and young adult mice, rats, and macaques. Results The ADOL breast transcriptome showed limited (30%) overlap with other species, but 88% overlap with adult women for the 500 most highly expressed genes in each dataset; only 43 genes were shared by all groups. In ADOL, there were 120 differentially expressed genes (DEG) in OB compared with NOB samples (p adj < 0.05). Based on these DEG, Ingenuity Pathway Analysis (IPA) identified the cytokines CSF1 and IL-10 and the chemokine receptor CCR2 as among the most highly activated upstream regulators, suggesting increased inflammation in the OB breast. Classical ER targets (e.g., PR, AREG) were not differentially expressed, yet IPA identified the ER and PR and growth factors/receptors (VEGF, HGF, HER3) and kinases (AKT1) involved in hormone-independent ER activation as activated upstream regulators in OB breast tissue. Conclusions These studies represent the first investigation of the human breast transcriptome during late puberty/young adulthood and demonstrate that obesity is associated with a transcriptional signature of inflammation which may augment estrogen action in the immature breast microenvironment. We anticipate that these studies will prompt more comprehensive cellular and molecular investigations of obesity and its effect on the breast during this critical developmental window. |
| topic |
Adolescent Obesity RNA-seq |
| url |
http://link.springer.com/article/10.1186/s13058-020-01279-6 |
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AT adamburkholder investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT dennisakrobetu investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT arunrpandiri investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT kikiton investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT suekim investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT brianilabow investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT lauracnuzzi investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT josephmfirriolo investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT salliesschneider investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT suzanneefenton investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity AT nataliedshaw investigationoftheadolescentfemalebreasttranscriptomeandtheimpactofobesity |
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doaj-3b9b6561778645f392d730240f4698102021-04-02T14:04:59ZengBMCBreast Cancer Research1465-542X2020-05-0122111410.1186/s13058-020-01279-6Investigation of the adolescent female breast transcriptome and the impact of obesityAdam Burkholder0Dennis Akrobetu1Arun R. Pandiri2Kiki Ton3Sue Kim4Brian I. Labow5Laura C. Nuzzi6Joseph M. Firriolo7Sallie S. Schneider8Suzanne E. Fenton9Natalie D. Shaw10Integrative Bioinformatics, National Institute of Environmental Health Sciences (NIEHS)Clinical Research Branch, National Institute of Environmental Health SciencesCellular and Molecular Pathology Branch, Division of National Toxicology Program (DNTP), NIEHSCellular and Molecular Pathology Branch, Division of National Toxicology Program (DNTP), NIEHSClinical Research Branch, National Institute of Environmental Health SciencesAdolescent Breast Clinic, the Department of Plastic and Oral Surgery, Division of Adolescent/Young Adult Medicine, Boston Children’s Hospital and Harvard Medical SchoolAdolescent Breast Clinic, the Department of Plastic and Oral Surgery, Division of Adolescent/Young Adult Medicine, Boston Children’s Hospital and Harvard Medical SchoolAdolescent Breast Clinic, the Department of Plastic and Oral Surgery, Division of Adolescent/Young Adult Medicine, Boston Children’s Hospital and Harvard Medical SchoolBiospecimen Resource and Molecular Analysis Facility, Baystate Medical CenterNational Toxicology Program Laboratory, DNTP, NIEHSClinical Research Branch, National Institute of Environmental Health SciencesAbstract Background Early life environmental exposures affect breast development and breast cancer risk in adulthood. The breast is particularly vulnerable during puberty when mammary epithelial cells proliferate exponentially. In overweight/obese (OB) women, inflammation increases breast aromatase expression and estrogen synthesis and promotes estrogen-receptor (ER)-positive breast cancer. In contrast, recent epidemiological studies suggest that obesity during childhood decreases future breast cancer risk. Studies on environmental exposures and breast cancer risk have thus far been limited to animal models. Here, we present the first interrogation of the human adolescent breast at the molecular level and investigate how obesity affects the immature breast. Methods We performed RNA-seq in 62 breast tissue samples from adolescent girls/young women (ADOL; mean age 17.8 years) who underwent reduction mammoplasty. Thirty-one subjects were non-overweight/obese (NOB; mean BMI 23.4 kg/m2) and 31 were overweight/obese (OB; BMI 32.1 kg/m2). We also compared our data to published mammary transcriptome datasets from women (mean age 39 years) and young adult mice, rats, and macaques. Results The ADOL breast transcriptome showed limited (30%) overlap with other species, but 88% overlap with adult women for the 500 most highly expressed genes in each dataset; only 43 genes were shared by all groups. In ADOL, there were 120 differentially expressed genes (DEG) in OB compared with NOB samples (p adj < 0.05). Based on these DEG, Ingenuity Pathway Analysis (IPA) identified the cytokines CSF1 and IL-10 and the chemokine receptor CCR2 as among the most highly activated upstream regulators, suggesting increased inflammation in the OB breast. Classical ER targets (e.g., PR, AREG) were not differentially expressed, yet IPA identified the ER and PR and growth factors/receptors (VEGF, HGF, HER3) and kinases (AKT1) involved in hormone-independent ER activation as activated upstream regulators in OB breast tissue. Conclusions These studies represent the first investigation of the human breast transcriptome during late puberty/young adulthood and demonstrate that obesity is associated with a transcriptional signature of inflammation which may augment estrogen action in the immature breast microenvironment. We anticipate that these studies will prompt more comprehensive cellular and molecular investigations of obesity and its effect on the breast during this critical developmental window.http://link.springer.com/article/10.1186/s13058-020-01279-6AdolescentObesityRNA-seq |