News Release

Cancer research finds targets for new cholesterol-lowering therapies

New mechanism for controlling cholesterol and lipid metabolism discovered

Peer-Reviewed Publication

Ludwig Institute for Cancer Research

(Uppsala, June 7th) -- A team of investigators from the Uppsala Branch of the Ludwig Institute for Cancer Research (LICR) and Harvard Medical School has uncovered novel targets for the development of drugs that would potentially complement, or replace, statins in treating heart disease.

Statins are commonly taken drugs that reduce the levels of low density lipoprotein (LDL) and have been shown to reduce risks associated with heart disease, the number one killer in the Western world. However, statins are not suitable for all patients, and reduce cardiovascular events by only 20%- 40%. Additionally, some genetic causes of high cholesterol cannot be treated with statins.

According to LICR's Dr. Johan Ericsson, the senior author of the study published today in Cell Metabolism, the team found that a protein called Fbw7 degrades the SREBP proteins that drive lipid and cholesterol production. "We found that inhibiting Fbw7 resulted in increased SREBP levels and an enhanced uptake of LDL, so a drug that blocks the interaction between Fbw7 and SREBP proteins would probably enhance the removal of harmful LDL-cholesterol from the circulation. We can only speculate at this stage, but a two-pronged attack on LDL removal, combining a statin with a treatment that prevents Fbw7/SREBP interaction would likely be of more benefit to some patients than statins alone."

Dr. Ericsson said that the team also found that the Fbw7/SREBP interaction may also be connected to diabetes, as insulin signaling inhibited Fbw7's ability to affect SREBP levels and thus increased lipid and cholesterol synthesis. Finally, the Fbw7/SREBP interaction also provides a theoretical link between lipid synthesis and the aberrant growth of cancer cells. The loss of Fbw7, which is inactivated in some breast, endometrial, ovarian and colon cancers, has been shown to make cells multiply faster and synthesize more lipids; factors that are critical for tumor growth. Aspects of both links are under investigation.

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