Donate today to support women in science at Burnet and their work to unlock the vaginal microbiome and reduce risk of HIV infection and preterm birth for women around the world.
Improving the health of vulnerable communities and changing lives is at the heart of what we do and who we are.
We have discovered that a small cationic molecule, GW4869, is cytotoxic to a subset of myeloma cell lines and primary myeloma plasma cells. Biochemical analysis revealed that GW4869 binds to anionic phospholipids such as phosphatidylserine - a lipid normally confined to the intracellular side of the cell membrane. However, interestingly, phosphatidylserine was expressed on the surface of all myeloma cell lines tested (n = 12) and 9/15 primary myeloma samples. Notably, the level of phosphatidylserine expression correlated well with sensitivity to GW4869. Inhibition of cell surface phosphatidylserine exposure with brefeldin A resulted in resistance to GW4869. Finally, GW4869 was shown to delay the growth of phosphatidylserine-high myeloma cells in vivo. To the best of our knowledge, this is the first example of using a small molecule to target phosphatidylserine on malignant cells. This study may provide the rationale for the development of phosphatidylserine-targeting small molecules for the treatment of surface phosphatidylserine-expressing cancers.
To create and translate knowledge into better health, so no-one is left behind.
85 Commercial Road, Melbourne
VIC, 3004, Australia
Receive updates and IMPACT magazine.
Copyright © 2023 Burnet Institute. ABN: 49 007 349 984
This website was developed with the generous support of a donor.
Burnet Institute (Australia) is located on the traditional land of the Boon Wurrung people and we offer our respects to their Elders past and present.
We recognise and respect the continuation of cultural, spiritual and educational practices of Aboriginal and Torres Strait Islander peoples of this land.
