AI Article Synopsis
- A total of 16 synthetic scramblase candidates were created from a TREN scaffold and tested for their ability to transport fluorescent phospholipids across vesicle membranes and phosphatidylserine across cell membranes.
- More than half of the candidates successfully enhanced phospholipid movement in vesicles but struggled to increase surface phosphatidylserine in nucleated mammalian cells, differing from past results with red blood cells.
- Fluorescence microscopy revealed that these synthetic scramblases quickly moved from the plasma membrane into internal organelle membranes, suggesting future designs should focus on more amphiphilic structures to improve their retention on the plasma membrane.
Article Abstract
A series of 16 synthetic scramblase candidates were prepared from a tris(aminoethyl)amine (TREN) scaffold and evaluated for ability to facilitate translocation of fluorescent phospholipid probes across vesicle membranes and endogenous phosphatidylserine across the plasma membrane of nucleated cells. More than half of the compounds were found to greatly accelerate phospholipid translocation in vesicles. However, they were generally unable to induce large increases in the amount of phosphatidylserine on the surface of nucleated mammalian cells, which contrasts with previous results using erythrocytes. Fluorescence microscopy showed that the synthetic scramblases are rapidly trafficked out of the cell plasma membrane and into the membranes of internal organelles. Future molecular designs of synthetic scramblases should focus on structures that are more amphiphilic, a structural feature that is expected to increase plasma membrane residence time.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2900633 | PMC |
| http://dx.doi.org/10.1016/j.bmc.2008.11.011 | DOI Listing |
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