First 3-D structure of DHHC enzymes reported
Jeremy Swan, NICHD/NIH
DHHC enzymes, also called palmitoyltransferases, modify other proteins by attaching to them a chain of lipids, or fatty acids, of varying lengths. This modification, called palmitoylation, can change many properties of a target protein, such as its structure, function and location within a cell. Researchers estimate that nearly 1,000 human proteins undergo palmitoylation, including epidermal growth factor receptors (EGFRs). A well-known EGFR is HER2, which is overactivated in aggressive forms of breast cancer. EGFRs can also be overactivated in colon cancer, and non-small cell lung cancer, the most common type of lung cancer.
The current study details the structures of a human DHHC enzyme, DHHC20, and the zebrafish version of another DHHC enzyme, DHHC15. Importantly, DHHC20 is the enzyme that palmitoylates EGFR. Previous studies have shown that blocking DHHC20 makes cancer cells more vulnerable to existing FDA-approved treatments that target EGFR. Therefore, understanding the structure of DHHC20 may be important for treating EGFR-driven cancers.
"Mutations in DHHC enzymes are associated with various cancers and neurological disorders," according to Anirban Banerjee, Ph.D., the study's lead author and head of NICHD's Unit on Structural and Chemical Biology of Membrane Proteins. "Our study offers a starting point for developing DHHC20 inhibitors that may aid in treatment of common cancers and advance the field of protein palmitoylation."
Dr. Banerjee and colleagues identified a structural component, a cavity, of DHHC20 that influences the length of its lipid chain. Mutations that altered the relative size of this cavity caused DHHC20 to use shorter or longer lipid chains, which presumably changes the effects of palmitoylation on a target protein. The researchers propose that the structure of this site explains why different DHHC enzymes use certain lipid chains to modify the functions of other proteins. It also offers insight on how multiple enzymes work together in states of health and disease.
Original publication
Rana MS, Kumar P, Lee CJ, Verardi R, Rajashankar KR, and Banerjee A.; "Fatty acyl recognition and transfer by an integral membrane S-acyltransferase"; Science; 2018
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Original publication
Rana MS, Kumar P, Lee CJ, Verardi R, Rajashankar KR, and Banerjee A.; "Fatty acyl recognition and transfer by an integral membrane S-acyltransferase"; Science; 2018
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