Rogue protein that fuels cancer that killed John McCain identified

By Mark Waghorn via SWNS

A rogue protein that fuels the deadliest brain cancers has been identified by scientists in a breakthrough that opens the door to destroy it.

Improved therapies are urgently needed for glioblastomas - which are often incurable.

Millions of victims around the world have included Senator John McCain, President Biden's son Beau, actors Robert Forster and Tim Conway and famed film critic Gene Siskel.

Lead author Professor Alea Mills, of Cold Spring Harbor Laboratory in New York, said:
"The aggressiveness of glioblastoma is notorious.

"The norm is to do surgery, treat with harsh drugs and just hope for the best."

But the team have found its 'Achilles heel' - a molecule that helps diseased cells spread.

Known as BRD8, the discovery may finally lead to improved treatment options - and better patient outcomes.

Around 13,000 cases are diagnosed in the USA each year. Only about seven percent of patients survive.

Most succumb within two years and few make it past five - a statistic that hasn't improved in decades.

Prof Mills and her colleagues are hopeful the grim figures are about to change after finally solving why glioblastomas are so aggressive.

They found BRD8 cripples another protein called P53 - a staple in the body's natural cancer defences.

It becomes overactive - overpowering the beneficial chemical that prevents cells from dividing and turning into tumors.

In experiments, the researchers inactivated BRD8 using a pioneering gene editing technique - waking up P53's 'arsenal.' Tumors were stopped in their tracks. 

It raises hopes of curing glioblastomas by 'editing' DNA in the brain with a drug - without any tissue having to be removed.

Almost all cancers depend on P53 becoming mutated and hence disabled. Oddly in glioblastomas, it's unscathed.

Co-author Dr. Xueqin Sun said: "So why does this cancer act like P53 is broken?" The study showed BRD8 works in a unique way.

"It shuts down access to genes in chromosomes, bits of DNA inside cells. If a gene is wound up tightly, it cannot be used - it's as if it were 'asleep.'"

The researchers revealed BRD8 was inappropriately lively in glioblastoma - keeping P53 at rest.

Prof Mills explained: "It's like BRD8 is saying 'no entry' to P53's tumor-preventing power.

"But when we hit BRD8 in the right way - go in there almost like a scalpel, but molecularly - the tumor is annihilated."

The researchers implanted tumor cells from glioblastoma patients into mice and watched them in the brain.

When BRD8 was inactivated, P53 was unlocked - the tumors stopped growing and the rodents lived longer.

The findings in Nature suggest drugs targeting the heart of BRD8 could work against glioblastoma.

Prof Mills hopes it will help turn deadly brain cancer into a treatable disease, dramatically extending life expectancy of patients.