The six-legged fruitfly appears to have little in common with humans, but a new finding shows that they are really just tiny, distant cousins. Scientists at the Carnegie Institution's Department of Embryology have found that adult fruitflies have the same stem cells controlling cell regulation in their gut as humans do. The research is important for understanding digestive disorders, including some cancers, and for developing cures. "The fact that fruitflies have the same genetic programming in their intestines as humans, strongly suggests that we were both cut from the same evolutionary cloth more than 500 million years ago," stated lead author of the December 7, on-line Nature paper, Benjamin Ohlstein.
It may come as a surprise, but insects have the same basic structure to their gastrointestinal tract as vertebrates. They have a mouth, an esophagus, the equivalent to a stomach, and large and small intestines. The Carnegie researchers looked at their small intestines, where food is broken down into its constituent nutrients for the body to absorb. They focused on two cell types-- cells that line the small and large intestines in a single layer to help break up and transport food molecules, called enterocytes; and cells that produce peptide hormones, some of whose functions include regulation of gastric motility as well as growth and differentiation of the gut (enteroendocrine cells).
In vertebrates, cells of the intestines are continually replenished by stem cells. Up to now, stem cells had not been observed in the gut of the fruitfly. To see if stem cells were at work, the researchers labeled each of the two cell types of interest and observed how successive generations of the cells transformed. They found for the first time that, like their vertebrate cousins, the fly cell types are replenished by stem cells. Moreover, like vertebrates, the stem cells are multipotent, which means that they can turn into different cell types, and Notch signaling is as essential in flies in controlling which intestinal cells form as it is in humans. Notch signaling was also found to instruct stem cells themselves, a role that has as yet to be identified for Notch signaling in vertebrates.
Allan Spradling, co-author, director of the Carnegie department, and a Howard Hughes Medical Investigator commented, "We're excited because we know from previous experience that studying a process in a model system, such as the fruitfly, can greatly accelerate our understanding of the corresponding human process."
Source: Eurekalert & othersLast reviewed: By John M. Grohol, Psy.D. on 21 Feb 2009
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