Biomarkers for Breast Cancer Risk in African American Women

Breast Cancer Clinical Trial

Official title: Epigenetics and Breast Cancer Risk in African American Women

Status Completed

Clinical Trial Summary

Background:

• At present, women do not have very accurate tests to inform of them of their personal risk of developing breast cancer. More information on the changes associated with both benign and cancerous breast lesions will help develop better risk information. Researchers have been looking at cells found in breast milk to study genetic changes related to breast cancer. However, most of these cell samples have been collected from white women. A new study wants to collect breast milk samples from African American women for further research. Comparing the results of genetic tests will help improve understanding of breast cancer risk in all women.

Objectives:

• To study genetic changes related to breast lesions, including breast cancer, in African American women.

Eligibility:

• African American women at least 18 years of age who are nursing a baby and who either have had or are being considered for a breast biopsy.

Design:

• Participants will be screened with personal health questions.

• Participants will receive a box with sterile bottles for milk collection. They will collect two breast milk samples, one from each breast. They will also fill out a questionnaire about their medical history.

• The box with the samples and the questionnaire will be returned to the clinical center for study.

• After the box is returned, participants will be asked to provide a copy of the biopsy report for any breast biopsies they have had.

• There will be a followup phone call every year. Participants will provide health history information. This information will include whether they have been diagnosed with breast cancer in the previous year.

Clinical Trial Description

Increasing evidence supports the importance of the role of pregnancy, lactation and post-weaning breast remodeling in the etiology of certain types of early onset aggressive breast cancers, including basal breast cancers, which are difficult to detect and treat and disproportionately affect African American women. Thus, improving methods for detecting or preventing early onset tumors is important from a clinical, public health and racial disparities perspective. Recent evidence indicates that analysis of breast milk during the postpartum period may advance the discovery of mechanisms and biomarkers related to risk of early onset, aggressive tumors. However, developing methods for collecting, processing and testing milk for biomarkers poses challenges.

A research team co-led by Drs. Mark Sherman (NCI/DCEG/HREB) and Kathleen Arcaro (University of Massachusetts) has received an NIH Bench-to-Bedside award for a project entitled, Molecular Epidemiology of Postpartum Involution of the Breast: Development and Demonstration of Tools for Understanding the Postpartum Period in Relation to Risk for Early Onset Breast Cancer. The specific bench objectives of this project include:

1. To develop improved methods for fractionating breast milk into epithelial cell rich and liquid components

2. To optimize assays for DNA methylation, proliferation, apoptosis, p16 expression and telomere lengths using epithelial enriched breast milk fractions, and

3. To develop assays for TGF-beta ligands, prolactin and sex -steroid hormone using liquid milk fractions.

To achieve these objectives, NCI will initially work with fresh specimens that are being prospectively collected under the University of Massachusetts IRB-approved open protocol entitled Epigenetics and Breast Cancer Risk in African American Women , funded by the Avon Foundation for Women. Dr. Arcaro s lab is studying breast cancer risk and promoter hypermethylation in breast cells obtained from the milk of nursing women. They have analyzed breast cells from nearly 400 women and are continuing with long-term follow-up. However, the majority of the data has been from White women. Since disease risk factors differ between ethnic groups, it is important to test risk assessment methods on a wide population. The main purpose of this specific UMass study is to extend their findings of breast cancer risk to African American women. They plan to recruit 200 lactating African American women to participate in the breast milk study. This involves collecting questionnaire data, completing methylation analyses for eight genes, archiving milk and the remaining DNA for future studies, and annual follow-up.

The key aims that we seek to address through the current protocol are related to objective (1) listed above: To develop improved methods for fractionating breast milk into epithelial cell rich and liquid components. Given that Dr. Arcaro has an IRB approved open protocol to collect fresh milk at University of Massachusetts, NCI can only pursue this collaborative aim (effectively within the timeframe of the bench-to-bedside award) in the context of this ongoing study. Specifically, the collaborative project that is the subject of this IRB application will assess the following aims through in vitro manipulation of fresh liquid milk collections: 1) the effects of modifying the initial rinse of epithelial pellets (rinse solution: saline vs. media; centrifugation speeds, temperature); 2) yields of cells and nucleic acids achievable via fractionation of milk using different types of immunomagnetic beads (coated with antibodies to remove leukocytes ( negative selection ) vs. coated with antibodies to remove epithelial cells ( positive selection ); 3) the relative preservation at room temperature at 24, 48 and 72 hours of milk suspended in cellular fixatives (e.g. formalin, Proclin) as compared to fresh milk without fixation; 4) the possibility that strategies 1 and 2 be combined. This project brings together specific experience and expertise at University of Massachusetts with regard to milk processing with technical knowledge from NCI, provided by Drs. Kopp, Heckman, Yang and Sherman. In particular, NCI Frederick and Dr. Heckman have successfully used immunomagnetic bead technology to purify epithelial cells from blood products and lactating mouse glands by removing leukocytes. ;

Related Conditions & MeSH terms

• Breast Cancer
• Breast Neoplasms

• NCT number: NCT01736306
• Study type: Observational
• Source: National Institutes of Health Clinical Center (CC)
• Status: Completed
• Start date: July 23, 2012
• Completion date: March 27, 2020