Scientists have identified the type of cell that is at the origin of brain tumors known as oligodendrogliomas(少突神经胶质瘤) , which are a type of glioma – a category that defines the most common type of malignant2 brain tumor1. In a paper published in the December 2010 issue of the journal Cancer Cell, investigators3 found that the tumor originates in and spreads through cells known as glial(神经胶质的) progenitor4 cells – cells that are often referred to as "daughter" cells of stem cells. The work comes at a time when many researchers are actively5 investigating the role that stem cells which have gone awry6(错误的,扭曲的) play in causing cancer. For scientists trying to create new ways to treat brain tumors, knowing whether stem cells or progenitor cells are part of the process is crucial.
"In many ways progenitor cells are controlled by completely different signaling pathways than true stem cells," said Steven Goldman, M.D., Ph.D., a University of Rochester Medical Center neurologist who was part of the study team. "Knowing which type of cell is involved gives us a clear look at what drug approaches might be useful to try to stop these tumors. Comparing normal progenitor cells to progenitors7 that give rise to tumors gives us a roadmap to follow as we try to develop new treatments."
The study was the product of a multi-institutional collaboration8 led by William Weiss, M.D., Ph.D., a neuro-oncologist at the University of California at San Francisco.
The study focuses on oligodendrogliomas, a type of tumor that presents with symptoms much like other brain tumors – headaches, seizures9, and cognitive10 changes. The tumors are treated with a combination of surgery, radiation, and chemotherapy. Oligodendrogliomas at first are less deadly and invasive than most other gliomas. Unfortunately, treatments like surgery typically slow or stop the tumor initially11, but it usually returns, often in a much more aggressive form than it was to begin with. The majority of patients with oligodendrogliomas ultimately die from the disease.
In order to identify better treatments for this tumor, researchers need to know what cell type in the brain gives rise to it. Despite abundant clinical experience with this type of cancer, no one had ever defined oligodendroglioma's cell of origin. To answer this question, the team used a common brain tumor drug, temozolomide, to test several types of cells from both human and mouse tumors. They found that the drug was effective against oligodendroglioma cells and normal glial progenitor cells, and much less effective against either brain stem cells or other brain tumors called astrocytomas.
The work is the latest in a string of findings that progenitor cells are the origin for some brain tumors. Four years ago, Goldman's team pinpointed12 a progenitor cell as the origin of a brain tumor known as a neurocytoma. Separately, other scientists have found that brain tumors called medulloblastomas(成神经管细胞瘤) and ependymomas(室管膜瘤) also arise from progenitor cells.
"Right now, when treating most brain tumor patients, one size fits all," said Goldman, chair of the Department of Neurology and head of the laboratory where much of the genetic13 analysis for the study was done. "As with many forms of cancer, today's treatments of glioma are not very specific – they take aim at all dividing cells. Unfortunately, with brain tumors, it's often the most aggressive, malignant cells that survive chemotherapy and radiation, and they take over the tumor and ultimately kill the patient.
"As with any type of cancer, the hope ultimately is to create treatments that target cancer cells while leaving healthy cells intact. That's where our current work – searching for differences between normal progenitor cells and cancer progenitor cells – fits in," added Goldman.