Magazine article Science News

The Science of Cellular Suicide

Magazine article Science News

The Science of Cellular Suicide

Article excerpt

The science of cellular suicide

From the earliest days of an organism's development, right up until the bitter end, new cells are born and old ones die. Moreover, cell death can occur in predictable patterns, especially during embryonic development. The fetal hand, for example, looks at first like a paddle. Fingers emerge only after the death of parallel rows of cells.

But what is the actual mechanism of programmed cell death? Do cells simply wither away when their time has come, or do they play an active role in their own demise? Recent research suggests that cells may have suicidal tendencies.

Lawrence M. Schwartz and Brian K. Kay, at the University of North Carolina in Chapel Hill, are exploring mechanisms of cell death in the tobacco hawkmoth. The moth is a popular model of development; it is easily reared in the laboratory, and major anatomical changes can be traced as it undergoes the process of metamorphosis.

The researchers looked at a particular kind of muscle cell that spontaneously degenerates within 36 hours after the emergence of an adult moth from its cocoon. They identified five proteins that are not produced in the cells until just before cell death. To see whether these proteins are crucial to cell death, they treated some moths with a chemical that blocks new protein synthesis. Muscle cells from those moths failed to develop the five proteins, and the cells did not die.

The researchers are currently attempting to inject small quantities of these "cell death' proteins into living, cultured cells, to see if they can stimulate early cell death. …

Search by... Author
Show... All Results Primary Sources Peer-reviewed


An unknown error has occurred. Please click the button below to reload the page. If the problem persists, please try again in a little while.