Stem Cell-Promoting Gene Also Promotes the Growth of Head and Neck Cancer


Nanog is a very funny name for a gene, but the Nanog gene is an essential part of the cellular machinery that keeps embryonic stem cells from differentiating and maintains them in a pluripotent state. Unfortunately, Nanog also has other roles if it is mis-expressed and that includes in the genesis of cancers of the head and neck.

Nanog function during development
Nanog function during development

This study emerged from work done by researchers at the Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer Hospital, and Richard J. Solove Research Institute or OSUCCC-James. Since Nanog has been studied in some depth, understanding Nanog activity might provide vital clues in the design of targeted drugs and reagents for treating particular cancers.

“This study defines a signaling axis that is essential for head and neck cancer progression, and our findings show that this axis may be disrupted at three key steps,” said Quintin Pan, associate professor of otolaryngology at OSUCCC-James and principal investigator in this research effort. “Targeted drugs that are designed to inhibit any or all of these three steps might greatly improve the treatment of head and neck cancer.”

What kind of signaling axis is Dr. Pan referring to? An enzyme called protein kinase C-epsilon or PKC-epsilon can place phosphate groups on the Nanog protein. Phosphate groups are negatively charged and are also quite bulky. Attaching such chemical groups to a protein can effectively change its structure and function. In the case of Nanog, phosphorylation of stabilizes it and activates it.

Phosphorylated Nanog proteins can bind together to form a dimer, which attracts a third protein to it; p300. This third protein, p300, in combination with the paired Nanog proteins acts as a potent activator of gene expression of particular genes, in particular a gene called Bmi1. When expressed at high levels, Bmi1 stimulates the proliferation of cells in an uncontrolled fashion.

Bmi1 - Nanog interaction

“Our work shows that the PKCepsilon/Nanog/Bmi1 signaling axis is essential to promote head and neck cancer,” Pan said. “And it provides initial evidence that the development of inhibitors that block critical points in this axis might yield a potent collection of targeted anti-cancer therapeutics that could be valuable for the treatment of head and neck cancer.”