Thursday, April 30, 2015

New injection could 'wipe out cancer': Antibodies root out and obliterate tumours, say scientists

New injection could 'wipe out cancer': Antibodies root out and obliterate tumours, say scientists

  • Study at Stanford University has been hailed a 'tour de force'
  • Raises hopes the body's immune system could be trained to attack a range of cancers, including melanoma, pancreatic, breast and lung
  • Process relies on the same mechanism as that which causes animals' bodies to reject organ transplants
  • Expert said results are 'impressive', adding 'you see tumour eradication

A new antibody injection could 'wipe out advanced cancer' by rooting out and obliterating tumours, scientists have revealed.
The research has been hailed a 'tour de force', raising hopes the body's immune system could be trained to attack melanoma, pancreatic, breast and lung cancer.
The team at Stanford University School of Medicine believe the laboratory-engineered antibodies could eradicate not only primary tumours, but also distant metastases that have spread through the body.
Professor Edgar Engleman, senior author of the study, said: 'The potency is impressive.
'You actually see tumour eradication.' 
A new study has suggested an antibody injection could 'wipe out cancer' by rooting out and eradicating both primary tumours and distant metastases, where the cancer has spread to other parts of the body 
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A new study has suggested an antibody injection could 'wipe out cancer' by rooting out and eradicating both primary tumours and distant metastases, where the cancer has spread to other parts of the body 
Their findings have been hailed a 'tour de force', raising hopes the body's immune system could be trained to attack melanoma, pancreatic, lung and breast cancer, pictured
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Their findings have been hailed a 'tour de force', raising hopes the body's immune system could be trained to attack melanoma, pancreatic, lung and breast cancer, pictured
His team concluded their approach differed to other potential treatments that only apply to specific cancers, in that it could target a wide range of solid tumours. 
The process relies on the same mechanism as that which causes animals' bodies to reject organ transplants, researchers said.
In both cases, antibodies - molecules that detect foreign substances in the body - trigger the immune system.

They bind themselves to proteins from the foreign tissue - in this case the tumour - and through the use of signalling cells, alert T-cells, that act like the immune's system's SWAT team.
When the T-cells come into contact with the 'unwelcome' tissue, they attack and destroy it.
Researchers isolated the antibodies from mice that were found to be resistant to the cancers.
They then injected these antibodies, along with chemicals that activated signalling cells, known as dendritic cells, into cancerous mice.
The mice mounted an immune response and were found to remain cancer-free for more than a year.
Once primed to recognise the cancerous tissue, the T-cells would multiply and not only attack the tumour, but hunt down any metastatic cells travelling through the body. 
The team concluded their approach differed to other potential treatments that only apply to specific cancers, in that it could target a wide range of solid tumours, including melanoma, pictured
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The team concluded their approach differed to other potential treatments that only apply to specific cancers, in that it could target a wide range of solid tumours, including melanoma, pictured
Dr Yaron Carmi, the lead author, discovered both antibodies and the signalling, dendritic cells are both crucial for tumour elimination.
'Within hours after injection, these tumour cells are already coated with antibodies,' he said.
He added when the team disabled the antibodies' ability to bind to the tumours, or the dendritic cells' ability to ingest the tumours, the T-cells failed to eradicate the cancer.
'T-cells contain the bullets, but in our system, the antibodies start the whole thing off,' Professor Engleman, said.
The potency is impressive. You actually see tumour eradication... Pretty much we could eliminate any cancer
Professor Edgar Engleman
By adding chemicals that encouraged the growth of the signalling, dendritic cells, to the antibodies, the researchers were able to eliminate six different types of cancer - two melanomas, lymphoma, breast, lung and pancreatic cancer.
'Dr Carmi was able to show that this combination therapy was extraordinary powerful,' said Professor Engleman.
'Pretty much we could eliminate any cancer.'
While the researchers tested their process in mice, they said in vitro work with human cancer cells indicates a similar immune-cell response.  
To confirm that, blood plasma from 10 healthy donors was pooled to collect antibodies against four cancers from patients: two lung and two mesothelioma cancers.
The antibodies with the stimulation factors were able to activate the two lung cancer patients' dendritic cells in vitro.
The process relies on the same mechanism as that which causes animals' bodies to reject organ transplants, researchers said.In both cases, antibodies - molecules that detect foreign substances in the body (computer generated image, pictured) - trigger the immune system
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The process relies on the same mechanism as that which causes animals' bodies to reject organ transplants, researchers said.In both cases, antibodies - molecules that detect foreign substances in the body (computer generated image, pictured) - trigger the immune system
With the cells from the two mesothelioma cancer patients, the antibodies induced T-cell proliferation in vitro under the same experimental conditions.
Medical oncologist assistant professor Holbrook Kohrt at Stanford, who was not involved with the study, called the paper 'a nice tour de force' and believes the novel therapeutic strategy could utilise the patient's own immune system to defend against certain cancers.
He oversees numerous clinical trials involving immunotherapy for cancer patients and thinks an important aspect of the technique is its potential to fight different tumour types.
He added that given the chemicals used have already been used in other clinical trials, developing them into a therapeutic drug should be 'fairly straightforward'.  
'I honestly think the most important thing is to see if we can bring this new approach into the clinic,' said Professor Engleman. 'That's where we want to go.'
The study was published in the journal Nature.  

2 comments:

Popeye said...

THERE ARE HUNDREDS OF WAYS TO CURE CANCER, BUT BECAUSE THIS ONE IS CONNECTED TO BIG-ASS PHARMA....I WOULD SAY NO WAY JOSE!!
NATURAL WAYS ARE MUCH BETTER....OZONE FOR EXAMPLE.....GO TO OUR NATURAL HEALTH SITE.... THIS MAY WORK, BUT WHAT ARE THE AFTER EFFECTS??

Anonymous said...

agree totaly
IF it comes from BIG pharma stay far away from it!!!