Monocentric, observational and prospective study in adult women having an early-stage breast cancer without genetic risk. The main objective is to characterize quantitatively and qualitatively, after solitary confinement, the resident breast stem cells and the immune system cells infiltrated in the mammary gland in women: * With a moderate risk of breast cancer progression (women with an early "Luminal A" tumor) = Group A. * With a high risk of breast cancer progression (women with an early "Luminal B" or basal tumor) = Group B.
Breast cancer is one of the most frequent and the second cause of mortality for women in the world. Breast is a complex organ which has several changes (puberty, pregnancy and menopause). These modifications are controlled by numerous signals as those transmitted by the oestrogens. They are possible through the presence of stem cells in the mammary gland which are able to reply to these signals and can be the target of alterations leading to cancer cells occurence. Breast tumors are composed of complex entities of different kinds of cancer and normal cells which constitute the tumor micro-environment including the immune system cells. This micro-environment transmits a lot of signals to cancer cells and particularly stem cells which can contribute to their survival, the tumor progression and interfere with the treatments efficacy. The detection of the major deregulation of BMP2 synthesis by mammary micro-environment cells may be a reliable and early biomarker of carcinogens exposure and an indicator of a high risk of developing a luminal type breast cancer. The immune micro-environment, which has an impact on solid cancer patients' survival, should be taken into consideration for new therapeutic strategies. Some infiltrating tumour immune cells, as macrophages (TAM) or regulating T and B cells, have shown their key role in tumour escape and metastases apparition. It is relevant to associate the evaluation of immune infiltrate to the breast stem cells in early stage tumours since the literature suggests a functional interaction of these two cellular compartments, particularly in the glioblastoma and the prostate cancer. It seems that mammary stem cells are a major element in the comprehension of breast carcinogenesis but also in the possibilities of repairing the mammary tissue controlling the mammary carcinogenesis. It is fundamental to clarify the role of stem cells and immunity. Our hypothesis is that breast stem cells are altered in women having a high risk of cancer progression. They would be responsible for a reduced activity of cellular repair and/or contribute to tumour development. MACSSI project consists in isolating, quantifying and characterizing the breast stem cells and the isolated immune cells of samples obtained for the prophylactic mastectomy in women presenting different tumour progression risks. The results will be compared to normal samples already collected in women who had a breast reduction.
Study Type
OBSERVATIONAL
Enrollment
40
Isolation, quantification and characterization of breast stem and immune cells of samples obtained during the prophylactic mastectomy in women presenting different tumor progression risks.
Centre Léon Bérard
Lyon, France
RECRUITINGTo characterise quantitatively and qualitatively, after solitary confinement, the resident breast stem cells and the immune system cells infiltrated in the mammary gland according to the risk of breast cancer progression (group A and B)
Rate of stem and immune cells and phenotype analysis
Time frame: Within one month after inclusion (date of surgery)
Functional characterization, after solitary confinement, of stem cells and immune system cells from groups A and B
Functional test: mammosphere
Time frame: Within one month after inclusion (date of surgery)
Functional characterization, after solitary confinement, of stem cells and immune system cells from groups A and B
Functional test: TDLU
Time frame: Within one month after inclusion (date of surgery)
Functional characterization, after solitary confinement, of stem cells and immune system cells from groups A and B
Functional test: E-CFC - FACS
Time frame: Within one month after inclusion (date of surgery)
Determination of the stem cells role in the cellular regulation and repair activity
Functional tests
Time frame: Within one month after inclusion (date of surgery)
Determination of the efficacy of the immune systems cells found in the samples in the early stage of breast tumorigenesis
FACS
Time frame: Within one month after inclusion (date of surgery)
Evaluation of the role of breast stem and immune cells in the early stage development of a breast cancer: risk or protective factor ?
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Functional tests: mammosphere, TDLU, E-CFC - FACS
Time frame: Within one month after inclusion (date of surgery)