COLUMBUS, OhioNew evidence suggests that the genetic changes
leading to breast cancer occur first in the epithelium of breast tissue, and
then are followed by corresponding alterations in the surrounding stroma.
"We used to think that the surrounding structure of the cancer cell was
just a silent bystander in the process of carcinogenesis. Now we know
better," said Charis Eng, MD, PhD, William C. and Joan E. Davis Professor
and director of the Clinical Cancer Genetics Program, Ohio State University
Comprehensive Cancer Center.
The study, published in Human Molecular Genetics (September 1, 2001),
suggests that the development of breast cancer is a multistep, multicell
A new technology, laser capture microdissection (LCM), allowed the
researchers to isolate cancer cells from normal cells and to separate
epithelial cells from stromal cells. The laser beam can dissect tumors one cell
at a time.
"Before LCM, the study of cancer genetics entailed grinding up a lump
of tumor comprising a mixture of cells and examining the "mixed bag"
of cells for gene alterations," Dr. Eng told ONI.
Using LCM, the researchers microdissected each compartment of 41 sporadic
invasive breast adenocarcinomas. They extracted DNA from each set of cells and
measured the specimens for loss of heterozygosity (LOH), a technical indicator
for the loss of a tumor suppressor gene.
The investigators found LOH frequently in both types of cells: From 25% to
69% of the neoplastic epithelial cells showed LOH, as did 17% to 61% of the
surrounding stromal cells. The higher frequency of LOH in the neoplastic
epithelial tissue suggests that mutations there might precede changes in the