Cancer cells destroyed with metal from the asteroid that killed the dinosaurs

November 2, 2017
Diagram showing iridium attacking a cancer cell by making it produce singlet oxygen. Credit: University of Warwick

Cancer cells can be targeted and destroyed with the metal from the asteroid that caused the extinction of the dinosaurs, according to new research by an international collaboration between the University of Warwick and Sun Yat-Sen University in China.

Researchers from the Professor Sadler and Professor O'Connor groups in Warwick's Department of Chemistry and Professor Hui Chao's group at Sun Yat-Sen have demonstrated that iridium – the world's second densest metal – can be used to kill cells by filling them with deadly version of oxygen, without harming healthy tissue.

The researchers created a compound of iridium and organic material, which can be directly targeted towards , transferring energy to the cells to turn the oxygen (O2) inside them into singlet oxygen, which is poisonous and kills the cell - without harming any healthy tissue.

The process is triggered by shining visible laser light through the skin onto the cancerous area – this reaches the light-reactive coating of the compound, and activates the metal to start filling the cancer with singlet oxygen.

The researchers found that after attacking a model tumour of , grown by the researchers in the laboratory to form a tumour-like sphere, with red laser light (which can penetrate deeply through the skin), the activated organic-iridium compound had penetrated and infused into every layer of the tumour to kill it – demonstrating how effective and far-reaching this treatment is.

They also proved that the method is safe to healthy cells by conducting the treatment on non-cancerous tissue and finding it had no effect.

Furthermore, the researchers used state-of-the-art ultra-high resolution to gain an unprecedented view of the individual proteins within the cancer cells – allowing them to determine precisely which proteins are attacked by the organic-iridium compound.

After vigorously analysing huge amounts of data - thousands of proteins from the model cancer cells, they concluded that the iridium compound had damaged the proteins for heat shock stress, and glucose metabolism, both known as key molecules in cancer.

The University of Warwick has the UK's most advanced laboratory for this type of highly advanced mass spectrometry, and is a world-class centre of analytical science.

Co-author Cookson Chiu is a postgraduate researcher in Warwick's Department of Chemistry, funded by the Engineering and Physical Sciences Research Council and Bruker. He commented:

"This project is a leap forward in understanding how these new iridium-based anti-cancer compounds are attacking cancer cells, introducing different mechanisms of action, to get around the resistance issue and tackle cancer from a different angle."

Dr Pingyu Zhang and Dr Huaiyi Huang are Royal Society Newton International Fellows in Warwick's Department of Chemistry. Dr Zhang added:

"Our innovative approach to tackle cancer involving targeting important cellular proteins can lead to novel drugs with new mechanisms of action. These are urgently needed. In addition, research links between UK and Chinese academics will not only lead to lasting collaborations, but also have potential to open up the translation of new drugs into the clinic as a UK-China joint development"

Peter O'Connor, Professor of Analytical Chemistry at Warwick, noted:

"Remarkable advances in modern mass spectrometry now allow us to analyse complex mixtures of proteins in cancer cells and pinpoint drug targets, on instruments that are sensitive enough to weigh even a single electron!"

Professor Peter Sadler is excited about where this work can lead. He said:

"The precious metal platinum is already used in more than 50% of cancer chemotherapies. The potential of other precious metals such as iridium to provide new targeted drugs which attack cancer in completely new ways and combat resistance, and which can be used safely with the minimum of side-effects, is now being explored.

"International collaborations can greatly hasten progress. It's certainly now time to try to make good medical use of the iridium delivered to us by an asteroid 66 million years ago!"

Photochemotherapy – using to target cancer – is fast emerging as a viable, effective and non-invasive treatment. Patients are becoming increasingly resistant to traditional therapies, so it is vital to establish new pathways like this for fighting the disease.

Iridium was first discovered in 1803, and its name comes from the Latin for 'rainbow'. From the same family as platinum, it is hard, brittle, and is the world's most corrosion-resistant metal. Yellow in colour, its melting point is more than 2400° Celsius.

The metal is rare on Earth, but is abundant in meteoroids – and large amounts of iridium have been discovered in the Earth's crust from around 66 million years ago, leading to the theory that it came to this planet with an asteroid which caused the extinction of the dinosaurs.

Distinguished as a 'Very Important Paper', the research, 'Organo-iridium photosensitizers can induce specific oxidative attack on proteins in ' is published in the Wiley journal Angewandte Chemie.

Explore further: Organo-metal compound seen killing cancer cells from inside

More information: Pingyu Zhang et al. Organoiridium Photosensitizers Induce Specific Oxidative Attack on Proteins within Cancer Cells, Angewandte Chemie International Edition (2017). DOI: 10.1002/anie.201709082

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5 comments

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Blakut
5 / 5 (6) Nov 02, 2017
what a clickbait title. Iridium. It's iridium. You know what else was in that asteroid? Silicon. And probably carbon. I have a pen with an iridium tip ffs.
Whydening Gyre
5 / 5 (1) Nov 02, 2017
wanna take bets there might have even been a little iron and platinum (Among other things) in there, too?
Of course, if it was mainly iridium, it would mean that it packed quite a punch at impact...
hrfJC
not rated yet Nov 02, 2017
Despite its high melting point of 2400 C and far higher boiling point, it probably vaporized on contact causing wide dispersion over the whole globe as a fine dust that may have poisoned most mammals.
stefanoaz
5 / 5 (1) Nov 03, 2017
Regarding the referenced research article, stated as being: "Distinguished as a 'Very Important Paper'" - by whom? The authors?
nrauhauser
not rated yet Nov 03, 2017
It's rare here, but this is a mildly interesting article with a top five clickbait title.

Geez ...

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