Chinese scientists develop gene therapy which could delay ageing
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 [January 20, 2021]
By Martin Quin Pollard
BEIJING (Reuters) - Scientists in Beijing
have developed a new gene therapy which can reverse some of the effects
of ageing in mice and extend their lifespans, findings which may one day
contribute to similar treatment for humans.
The method, detailed in a paper in the Science Translational Medicine
journal earlier this month, involves inactivating a gene called kat7
which the scientists found to be a key contributor to cellular ageing.
The specific therapy they used and the results were a world first, said
co-supervisor of the project Professor Qu Jing, 40, a specialist in
ageing and regenerative medicine from the Institute of Zoology at the
Chinese Academy of Sciences (CAS).
"These mice show after 6-8 months overall improved appearance and grip
strength and most importantly they have extended lifespan for about
25%," Qu said.
The team of biologists from different CAS departments used the CRISPR/Cas9
method to screen thousands of genes for those which were particularly
strong drivers of cellular senescence, the term used to describe
cellular ageing.
They identified 100 genes out of around 10,000, and kat7 was the most
efficient at contributing to senescence in cells, Qu said.
Kat7 is one of tens of thousands of genes found in the cells of mammals.
The researchers inactivated it in the livers of the mice using a method
called a lentiviral vector.
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Researchers work in the Aging and Regeneration lab at the Institute
for Stem Cell and Regeneration of the Chinese Academy of Sciences (CAS)
in Beijing, China, January 12, 2021. Picture taken January 12, 2021.
REUTERS/Tingshu Wang
"We just tested the function of the gene in different kinds of cell
types, in the human stem cell, the mesenchymal progenitor cells, in
the human liver cell and the mouse liver cell and for all of these
cells we didn't see any detectable cellular toxicity. And for the
mice, we also didn't see any side effect yet."
Despite this, the method is a long way from being ready for human
trials, Qu said.
"It's still definitely necessary to test the function of kat7 in
other cell types of humans and other organs of mice and in the other
pre-clinical animals before we use the strategy for human ageing or
other health conditions," she said.
Qu said she hopes to be able to test the method on primates next,
but it would require a lot of funding and much more research first.
"In the end, we hope that we can find a way to delay ageing even by
a very minor percentage...in the future."
(Reporting by Martin Quin Pollard; Editing by Kim Coghill)
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