Why melanoma is so malignant
"Other cancers need to learn how to spread, but not melanoma," says Whitehead Member Robert Weinberg, senior author of the paper that will be published September 4 in the early online edition of the journal Nature Genetics. "Now, for the first time, we understand the genetic mechanism responsible for this."
Metastasis (the spread of disease to an unconnected body part) is a highly inefficient, multi-step process that requires cancer cells to jump through many hoops. The cells first must invade a nearby tissue, then make their way into the blood or lymphatic vessels. Next they must migrate through the bloodstream to a distant site, exit the bloodstream, and establish new colonies. Researchers have wondered why melanoma in particular is able to do this not only more efficiently than other cancers, but at a far earlier stage. This new study shows that as melanocytes--cells that protect the skin from sun damage by producing pigmentation--morph into cancer cells, they immediately reawaken a dormant cellular process that lets them travel swiftly throughout the body.
Central to this reawakened process is a gene called Slug (named after the bizarre embryo shape that its mutated form can cause in fruit flies). Slug is active in the neural crest, an early embryonic cluster of cells that eventually gives rise to a variety of cell types in the adult, including dermal melanocytes. In this early embryonic stage, Slug enables the neural crest cells to travel, and then settle, throughout the developing embryo.
"Slug is a key component of the neural crest's ability to migrate," says Piyush Gupta, a MIT graduate student in Weinberg's lab and first author on the paper. "Following its activation during embryonic development, Slug is shut off in adult tissues." But when skin cells in, say, an individual's mole, become malignant, they readily reactivate Slug and gain the ability to spread--something that other cancers can spend decades trying to do.
|Robert Weinberg. (Photo: Justin Knight)|
For the second experiment, the team used microarray technology (chips covered with fragments of DNA that can measure gene levels) and found that Slug was expressed in human melanoma. "Really, this isn't that surprising," says Gupta, "when you consider that melanocytes in the skin are direct descendants of the neural crest." In fact, Gupta points out that occasionally physicians discover that perfectly benign melanocytes will sometimes manage to migrate through a patient's body into, say, the lymph nodes. This phenomenon isn't related to cancer, but rather demonstrates the latent ability of melanocytes to travel
Finally, the research team found that when Slug was knocked out in melanoma cells, the cancer was unable to metastasize when placed into a mouse.
"This work is yet another demonstration of the notion that certain embryonic genes normally involved in transferring cells from one part of the body to another are also involved in enabling cancer cells to spread," says Weinberg, who is also a professor of biology at MIT.
This site is no longer updated.
Click this link to have updated medicine news and articles.
About the Author
©2005 All rights reserved