Cancer scientists identify new drug target for multiple tumor types

UC San Diego cancer scientists identify new drug target for multiple tumor types
A false color electron micrograph of two cancer cells. Credit: Thomas Deerinck, National Center for Microscopy and Imaging Research, UC San Diego.

A research team headed by scientists at University of California San Diego School of Medicine and the Ludwig Institute for Cancer Research at UC San Diego has identified an enzyme involved in remodeling the plasma membrane of multiple cancer cell types that is critical to both survival of tumors and their uncontrolled growth.

The finding, published in the July 11, 2019 issue of Cell Metabolism, suggests a potential target for .

"Cancers are characterized not only by major changes in their genomes, but also by profound shifts in how they take up and utilize nutrients to propel rapid ," said senior author Paul S. Mischel, MD, professor in the UC San Diego School of Medicine Department of Pathology and Ludwig member. "How do these diverse aspects fit together and can they be taken advantage of, for the benefit of patients?"

In the new study, conducted in collaboration with Benjamin Cravatt, Ph.D., professor at Scripps Research, and led by first author Junfeng Bi, Ph.D., in Mischel's lab, researchers identified an enzyme called LPCAT1, whose levels increase in cancer and which plays a key role in tumor growth by changing the phospholipid composition of the cancer cells' plasma membrane, allowing amplified and mutated growth factor signals to spur tumor growth.

Without LPCAT1, tumors cannot survive. When researchers genetically depleted LPCAT1 in multiple types of cancer in mice, including highly lethal glioblastomas (brain) and an aggressive lung cancer, malignancies shrank dramatically and survival times improved.

The results, wrote the authors, demonstrate that LPCAT1 is an important enzyme that becomes dysregulated in cancer, linking common genetic alterations in tumors with changes in their metabolism to drive aggressive growth."

"Advances in DNA sequencing technologies have reshaped our understanding of the molecular basis of cancer, suggesting a new and more effective way of treating ," said Mischel. "However, to date, precision oncology has yet to benefit many patients, motivating a deeper search into understanding how genetic alterations in tumors change the way cancer cells behave, and potentially unlocking new ways to more effectively treat patients.

"These results also suggest that LPCAT1 may be a very compelling new drug target in a wide variety of types."

More information: Junfeng Bi et al, Oncogene Amplification in Growth Factor Signaling Pathways Renders Cancers Dependent on Membrane Lipid Remodeling, Cell Metabolism (2019). DOI: 10.1016/j.cmet.2019.06.014

Journal information: Cell Metabolism
Citation: Cancer scientists identify new drug target for multiple tumor types (2019, July 11) retrieved 28 March 2024 from https://medicalxpress.com/news/2019-07-cancer-scientists-drug-multiple-tumor.html
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