In this advanced age of molecular sleuthing, a research team led by Georgetown Lombardi Comprehensive Cancer Center have findings that suggest tumours will eventually become resistant to drug inhibitors of a common cancer pathway (dubbed YAP/TAZ), now in preclinical development.
But in the same study, published in Developmental Cell, they posit that pairing those inhibitors with another drug, now on the market, may deliver that desired fatal blow.
"Our study supports the benefit that YAP/TAZ inhibitors may initially offer benefit in treating a wide variety of tumours, but by drilling deep into how they would work, we also found a potential way to extend their benefit to patients," says the study's senior investigator, Chunling Yi, PhD, associate professor in the Tumour Biology Program at Georgetown Lombardi.
The YAP/TAZ pathway is known to act as central players in growth, survival, and spread of a number of tumours - such as breast, colorectal, liver, pancreatic and kidney cancers.
What Yi and her team, which included researchers from France and the University of Pennsylvania, did was to investigate exactly how this pathway aided cancer cells so effectively.
They knew that YAP and TAZ act like genetic cousins.
They have very similar functions, the features of their proteins are alike, and because of this, they act as a back up for each other.
"This is nature's way of producing redundancy," Yi says.
YAP and TAZ are part of the "Hippo" signalling pathway, which includes both tumour suppressors and oncogenes.
YAP and TAZ proteins are oncogenic, and in some tumours, one or the other, or both, are over-expressed.
The Hippo name refers to the fact that if mutations in tumour suppressors in this pathway, or expression of the oncogenes, can lead to uncontrolled growth.
To wit, a member of Hippo pathway, Merlin/NF2, is a tumour suppressor which, when mutated, leads to development of some kidney cancers as well as the inherited syndrome neurofibromatosis type 2 (NF2), a nervous system tumour syndrome that mainly afflicts children.
Yi has long studied NF2, and in this study she sought to see what interaction YAP/TAZ has with NF2.
Using mouse models, the team found that silencing the YAP/TAZ pathway shrinks NF2 deficient tumours.
That finding validated the benefit of using a YAP/TAZ inhibitor, but researchers proceeded to look under the hood - why did the tumours shrink?
They found that YAP/TAZ promotes growth because they function as a metabolic regulator; they maintain the flow of energy producing by glucose (sugar) to cancer cells in order to build all the new cellular components required to expand and grow.
The team further discovered that YAP/TAZ inhibition impedes the use of glucose, forcing cancer cells to use their own mitochondria for energy production.
YAP/TAZ independently suppress a cancel cell's use of its own mitochondria, Yi says, because exclusive use of that powerhouse can be toxic to cells.
The result was that the mitochondria in the NF2 cancer cells became dysfunctional upon YAP/TAZ inhibition and produced a lot of oxidative stress that damaged the tumour cells, shrinking them and shutting down growth.
Over time, however, other signalling pathways come into play that allows tumour cells to rewire their metabolic network to survive the new nutrient conditions, rendering them independent of the YAP/TAZ molecular pathway.
The researchers found that use of trametinib (approved in 2013 for treatment of melanoma) or similar drugs in addition to YAP/TAZ inhibitors disrupted that cross-talk, and may provide a way to counter the resistance that YAP/TAZ-driven cancers develop to YAP/TAZ inhibiting drugs.
"Our work unravels a complex metabolic and signalling circuitry centred around YAP/TAZ that governs the growth and survival of cancers," she says. "It provides a map to follow for clinical testing."
The World Cancer Declaration recognises that to make major reductions in premature deaths, innovative education and training opportunities for healthcare workers in all disciplines of cancer control need to improve significantly.
ecancer plays a critical part in improving access to education for medical professionals.
Every day we help doctors, nurses, patients and their advocates to further their knowledge and improve the quality of care. Please make a donation to support our ongoing work.
Thank you for your support.