Dr. Weeks’ Comment: Cancer STEM cells are not actually epigenetic – they are the driving and regenerative force for all cancers so they are the most important target. Not cancer TUMOR cells which are killed by chemo and radiation. Target your cancer STEM cells if you want to survive and anti-inflammatory foods like SOUL are the best option.
“…Lysine-Specific Demethylase 1 (LSD1) turns off genes required to maintain cancer stem cell properties in glioblastoma, a highly aggressive form of brain cancer. This epigenetic activity helps explain how glioblastoma can resist treatment. Further, drugs that modify LSD1 levels could provide a new approach to treating glioblastoma…”
Epigenetic driver of glioblastoma provides new therapeutic target
The study, published in the Proceedings of the National Academy of Sciences (2015; doi:10.1073/pnas.1501967112), reports that an enzyme known as Lysine-Specific Demethylase 1 (LSD1) turns off genes required to maintain cancer stem cell properties in glioblastoma, a highly aggressive form of brain cancer. This epigenetic activity helps explain how glioblastoma can resist treatment. Further, drugs that modify LSD1 levels could provide a new approach to treating glioblastoma.
The researchers at University of California, San Diego School of Medicine and Moores Cancer Center in San Diego, California, first noticed that genetically identical glioblastoma cells isolated from patients differed in their tumorigenicity, or capacity to form tumors, when transplanted to mouse models. This observation suggested that epigenetics, rather than genetics (DNA sequence), determines tumorigenicity in glioblastoma cancer stem cells.
“One of the most striking findings in our study is that there are dynamic and reversible transitions between tumorigenic and non-tumorigenic states in glioblastoma that are determined by epigenetic regulation,” said senior author Clark Chen, MD, PhD, associate professor of neurosurgery and vice-chair of research and academic development at University of California, San Diego School of Medicine.
Probing further, Chen’s team discovered that the epigenetic factor determining whether or not glioblastoma cells can proliferate indefinitely as cancer stem cells is their relative abundance of LSD1. LSD1 removes chemical tags known as methyl groups from DNA, turning off a number of genes required for maintaining cancer stem cell properties, including MYC, SOX2, OLIG2, and POU3F2.
“This plasticity represents a mechanism by which glioblastoma develops resistance to therapy,” Chen said. “For instance, glioblastomas can escape the killing effects of a drug targeting MYC by simply shutting it off epigenetically and turning it on after the drug is no longer present. Ultimately, strategies addressing this dynamic interplay will be needed for effective glioblastoma therapy.”
Chen and one of the study’s first authors, Jie Li, PhD, noted that the epigenetic changes driving glioblastoma are similar to those that take place during normal human development.
“Though most cells in our bodies contain identical DNA sequences, epigenetic changes help make a liver cell different from a brain cell,” said Li, an assistant project scientist in Chen’s lab. “Our results indicate that the same programming processes determine whether a cancer cell can grow indefinitely or not.”