Before the cardiologist goes nuclear w/ stress #AHA17

Measuring troponin in CAD patients before embarking on stress testing may provide Read more

Virus hunting season open

Previously unknown viruses, identified by Winship + UCSF scientists, come from a patient with a melanoma that had metastasized to the Read more

#AHA17 highlight: cardiac pacemaker cells

Highlighting new research on engineering induced pacemaker cells from Hee Cheol Cho's Read more

hairy cell leukemia

Melanoma mutation likes fat for fuel

Cancer cells love glucose, the simple sugar the body uses for energy, so a high-fat, low-carb diet should starve them, right?

Where does this idea come from? Most cancer cells display enhanced glucose uptake, a phenomenon known as the Warburg effect, after 1931 Nobel Prize winner Otto Warburg.

Resurgent interest in exploiting the Warburg effect was described by Sam Apple in NYT Magazine and by Bret Stetka for NPR. High-fat, low-carb “ketogenic” diets are known to be effective against some types of epilepsy, and have also been explored by endurance athletes. Ketogenic diets have been tried as a clinical countermeasure against cancer in a limited way, mainly in brain cancer.

Before everybody gets too excited, let’s think about how particular cancer-driving mutations affect cell metabolism, suggests Winship Cancer Institute researcher Jing Chen. His team’s work in mice suggests that cancers with a common melanoma mutation (BRAF V600E) will grow faster in response to a ketogenic diet. In addition, the Winship researchers found that lipid-lowering agents such as statins curb these cancers’ growth, even in the context of a more normal diet.

The results were published on January 12 in Cell Metabolism.

Caveats: the findings cover just one mutation and need to be tested clinically.

Consumers and cancer patients already get a lot of advice about the right diet to fight cancer, but this research points toward an intriguing concept:  a “precision diet,” tailored to an individual patient’s cancer.  Read more

Posted on by Quinn Eastman in Cancer Leave a comment

Melanoma mutation rewires cell metabolism

A mutation found in most melanomas rewires cancer cells’ metabolism, making them dependent on a ketogenesis enzyme, researchers at Winship Cancer Institute of Emory University have discovered.

The V600E mutation in the gene B-raf is present in most melanomas, in some cases of colon and thyroid cancer, and in the hairy cell form of leukemia. Existing drugs such as vemurafenib target the V600E mutation — the finding points to potential alternatives or possible strategies for countering resistance. It may also explain why the V600E mutation in particular is so common in melanomas.

Researchers led by Jing Chen and Sumin Kang have found that by promoting ketogenesis, the V600E mutation stimulates production of a chemical, acetoacetate, which amplifies the mutation’s growth-promoting effects. (A feedback mechanism! Screech!)

The results were published Thursday, July 2 in Molecular Cell.

More on this paper here.

Posted on by Quinn Eastman in Cancer 1 Comment