Exposing SMA-Affected Cells
To
Aminoglycoside Drugs Can Increase SMN
MDA grantee Christian Lorson at the University of Missouri
was on a team that found that exposing cells carrying a mutation
that causes spinal muscular
atrophy (SMA) to drugs in the aminoglycoside family helps them produce more of the needed SMN protein, a
lack of which leads to SMA.
One way to explain the increase, Lorson says, is that a molecular
“tail” is added to the short, relatively unstable
form of SMN that SMA-affected cells make, making it more like
the full-length form of SMN that they lack. Aminoglycosides
are known to allow cells to “read past” certain
genetic stop signals and thereby produce longer protein molecules.
Although this seems a likely explanation, Lorson notes that
there are other possibilities. “It may be that we are
interfering with the cell’s normal pathway for protein
degradation, or that some other protein, such as an SMN binding
protein, is altered by the drug and can then stabilize the short
SMN protein.”
In a paper published in the May 1 issue of Human Molecular
Genetics, the investigators say that the aminoglycoside effect
“identifies a possible alternative approach for therapeutic
intervention” in SMA. |
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