Certain cells may particularly contribute to the decline of kidney
function, and may be an effective target for treatment against kidney
failure, a new study revealed. The findings will appear in an upcoming
issue of the
Journal of the American Society of Nephrology (JASN).
The blood-filtering cells in the kidneys-called podocytes-are critical
to kidney function, and kidney failure can occur when as little as about
20% to 30% of them are lost. Marcus Moeller, MD, Bart Smeets, PhD,
Katja Berger (RWTH University of Aachen, in Germany), and their
colleagues looked to see if they could coax podocytes to be generated
from putative kidney progenitor cells-termed parietal cells-as a
potential treatment strategy for kidney failure.
Through experiments conducted in mice, the researchers found that
podocytes cannot be renewed from parietal cells. In fact, after the loss
of podocytes, parietal cells play a negative role by causing kidney
scarring that contributes to progressive kidney function decline. "This
opens a very important new strategy to prevent loss of kidney function:
by inhibiting the parietal cells from doing their destructive work,"
said Dr. Moeller.
The researchers did, however, detect an additional but limited reserve
of podocytes that are present at birth and become mature and functional
filter cells by adulthood.
"Our results indicate that research efforts should be directed towards
preserving our limited pool of filter cells and to develop
pharmacological strategies to inhibit scarring of the kidney by parietal
cells," said Dr. Moeller.
Study co-authors include Kevin Schulte, MD, Peter Boor, MD, Christoph
Kuppe, MD, Toin van Kuppevelt, MD, and Jürgen Floege, MD.
Source:RWTH University of Aachen, in Germany
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