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A Pee-brained Idea: Scientists Make Brain Cells from Urine

<span style="font-family: Georgia, Times, serif; font-size: 19px; line-height: 30px; ">Scientists have made brain cells from human pee.</span>

Scientists have made brain cells from human pee. 

When a person urinates, skin shells are routinely shed from the lining in the kidney, and it's these cells that the researchers reprogrammed into stem cells, which can turn into any type of cell in the body. In this case, they transformed the cells into neurons, or brain cells. The new research, published Sunday in the journal Nature Methods, could one day provide a quicker way to make brain cells that are unique to an individual, Nature News reported.

And because the technique relies on urine, which is much easier to get than blood, it could be easier to extract such cells from almost any patient, including children, Marc Lalande, a researcher at the University of Connecticut Health Center told Nature News.

"It's easier to get a child to give a urine sample than to prick them for blood," Lalande said.

For years, scientists have been working on ways to turn ordinary cells into stem cells. Researchers have reprogrammed testicle stem cells to make insulin, turned brain cells from cadavers into stem cells and converted human skin into brain cells. The hope was that these brain cells could be used to treat diseases such as Parkinson's and Alzheimer's.

But many early methods used viruses to permanently incorporate new genes into the DNA of the cells, wrote Kristen Brennand, a stem cell researcher at the Mount Sinai School of Medicine, who was not involved in the study, in an email.
 
Because the viral DNA stays inside the cells' genetic code permanently, it can make the cells' behavior unpredictable and even cause tumors.

In the current study, a Chinese research team used a newer, safer approach. The team harvested skin cells that line the kidneys and are routinely shed in human urine. Next, the scientists injected new genetic instructions to reprogram cells to become brain cells. But unlike the viral method, those instructions only stick around temporarily, Brennand told LiveScience.

"Holes are made in the cell membrane so DNA can enter, but because the DNA doesn't integrate into the genome, but just sits in the cyplasm, it exists transiently," Brennand wrote.

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