News ID: 128326
Published: 1150 GMT October 05, 2015

Tissue-engineered colon from human cells

Tissue-engineered colon from human cells

A study by scientists at Children's Hospital Los Angeles has shown that tissue-engineered colon derived from human cells is able to develop many specialized nerves required for function, mimicking the neuronal population found in native colon.

These specialized neurons, localized in the gut, form the enteric nervous system, which regulates digestive tract motility, secretion, absorption and gastrointestinal blood flow. In addition, in a condition called Hirschsprung's disease or aganglionosis, where those neurons are not present, the team was able to replace them, Science Daily wrote.

To help these and other children suffering from intestinal diseases that may require surgical removal of all or part of their intestine, the CHLA team, led by principal investigator Tracy C. Grikscheit, MD, a pediatric surgeon and researcher at The Saban Research Institute of CHLA, is developing tissue-engineered options for these children.

One objective of growing tissue-engineered organs is to generate new tissue from a patient's own cells. Grikscheit and her team first needed to determine what parts of the enteric nervous system were present in tissue-engineered colon when it is grown from normal human cells.

"The diversity of neuron types that grew within the human tissue-engineered colon was a revelation to our team, because previously we had only documented that some ganglia were present," said Grikscheit, who is also a tenured associate professor of Surgery at the Keck School of Medicine of the University of Southern California. "The next step was to determine if these neuronal elements could be supplied to tissue-engineered colon that was missing neurons, like in Hirschsprung's disease."

The scientists initially grew cells from patients with Hirschsprung's disease and from mice with a genetic mutation that causes aganglionosis. In both cases, the tissue-engineered colon derived from these cells did not have the all-important components of the intestinal nervous system. In a second set of experiments, again testing both mouse and human cells, the investigators added neurospheres, which are clusters of purified neural progenitor cells. The cells had been stained with green fluorescence, so the scientists could readily visualize where the nerve cells ended up in the tissue-engineered colon, as well as determine the source of the nerve cells.

   
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Resource: Science Daily
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