2020
DOI: 10.1038/s41523-020-00191-8
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Upregulation of lipid metabolism genes in the breast prior to cancer diagnosis

Abstract: Histologically normal tissue adjacent to the tumor can provide insight of the microenvironmental alterations surrounding the cancerous lesion and affecting the progression of the disease. However, little is known about the molecular changes governing cancer initiation in cancer-free breast tissue. Here, we employed laser microdissection and whole-transcriptome profiling of the breast epithelium prior to and post tumor diagnosis to identify the earliest alterations in breast carcinogenesis. Furthermore, a compr… Show more

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Cited by 61 publications
(65 citation statements)
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“…In a recent study, microdissection was performed on epithelium, adipose tissue, and stroma in breast sections from women before and after breast cancer diagnosis. Co-expression network analyses comparing tissue associations between compartments showed increased interaction between the epithelial compartment and surrounding adipose tissue prior to breast cancer development, confirming the existence of a crosstalk between breast epithelial cells and adjacent adipose tissue (19). This is a significant finding since in the setting of obesity, breast adipose tissue undergoes considerable dysregulation in the production of estrogens, adipokines, inflammatory mediators, and reactive oxygen species (ROS), creating a microenvironment primed for initiating breast cancer development and promoting progression (Figure 1).…”
Section: The Relationship Between Obesity and Breast Cancermentioning
confidence: 73%
See 1 more Smart Citation
“…In a recent study, microdissection was performed on epithelium, adipose tissue, and stroma in breast sections from women before and after breast cancer diagnosis. Co-expression network analyses comparing tissue associations between compartments showed increased interaction between the epithelial compartment and surrounding adipose tissue prior to breast cancer development, confirming the existence of a crosstalk between breast epithelial cells and adjacent adipose tissue (19). This is a significant finding since in the setting of obesity, breast adipose tissue undergoes considerable dysregulation in the production of estrogens, adipokines, inflammatory mediators, and reactive oxygen species (ROS), creating a microenvironment primed for initiating breast cancer development and promoting progression (Figure 1).…”
Section: The Relationship Between Obesity and Breast Cancermentioning
confidence: 73%
“…Another study also implicated leptin in the early stages of breast cancer, showing that leptin treatment promotes epithelial-mesenchymal transition through activation of the kinases Src and FAK in MCF10A cells, a non-cancerous mammary epithelial cell line, which led to enhanced invasion through Matrigel ( 80 ). In a study of normal breast epithelium from women before and after breast cancer diagnosis compared with women who never developed breast cancer, leptin was upregulated 3.8 fold in the breast epithelium before cancer diagnosis, suggesting that increased leptin may be an early event associated with epithelial cell transformation ( 19 ).…”
Section: Obesity-induced Dysregulation Of the Breast Adipose Microenvmentioning
confidence: 99%
“…The complexities of p53 regulating metabolic reprogramming are further compounded by tissue-specific differences in metabolic programmes [48]. Breast and lung cancer are both considered to be somewhat p53 driven [49] but show vastly different dependencies on lipid metabolism for tumour growth [50][51][52]. Hence p53 status should not be considered in isolation but must be examined in the wider context alongside other driver mutations and tissue metabolic demands.…”
Section: Driving Enhanced Cancer Growth Simultaneously Promotes Resismentioning
confidence: 99%
“…Furthermore, adipose tissue was identified as potentially having a more prominent role in breast cancer development and progression; a view that is also being increasingly shared by others. 51,52 Raising an aptamer against the peptide hormone, kisspeptin, for potential diagnostic use in Alzheimer's disease and ovarian cancer Ms Sheree Smith (Leeds Beckett University, UK) described the synthesis of a non-animalderived affinity reagent (ssDNA aptamer) against the peptide hormone, kisspeptin. This aptamer could be used for research and diagnostic purposes in Alzheimer's disease and ovarian cancer.…”
Section: Identification Of Bisphenol A-regulated Genes In Er + Breastmentioning
confidence: 99%