Medical

Photoswitchable agents might reduce chemotherapy side effects

26th April 2016
Nat Bowers
0

So far, PhotoDynamic Therapies (PDTs) have been dependent on oxygen in the tissue. But hardly any oxygen exists in malignant, rapidly growing tumours. A group of researchers of KIT and the University of Kiev has now developed a photo-switchable molecule as a basis of an oxygen-independent method. Their successful laboratory tests on tumours are reported in the journal “Angewandte Chemie” (Applied Chemistry).

PDT in medicine usually uses a substance that reacts to light and converts the oxygen in the tissue into aggressive radicals. These reactive substances are toxic and damage the neighbouring cells, such that tumours are decomposed. As a result of their quicker growth, however, many tumours have a high oxygen consumption, reducing the concentration of oxygen available in the tissue, which may aggravate conventional PDT.

Researchers of KIT and the University of Kiev have now developed a new photo-switchable molecule for oxygen-independent PDT. The effect of the GS-DProSw molecule can be 'switched off' by UV light prior to therapy. Only upon application is it 'switched on' in the tumour tissue by visible light and damages the tumour tissue there. “The surrounding organs remain in the dark and are not affected by the active substance,” explains Anne S. Ulrich, Professor for Biochemistry and Director of the KIT Institute for Biological Interfaces. “As a result, side effects are reduced significantly.”

The GS-DProSw molecule

The GS-DProSw molecule in its inactive form (blue) can be activated by visible light (red) and 'switched off' again by UV light

For the first time, this new concept has now been tested on animal models. Once per day, the photoswitchable GS-DProSw molecule was administered. Then, the tumours were irradiated locally with visible light for a period of 20 minutes. After ten days of PDT treatment, the tumours were found to be far smaller than comparative groups not treated with light.

To initiate an oxygen-independent reaction in a PDT, the molecule applied has to be of cytotoxic nature. This means that it has to directly attack the tumour tissue irrespective of other reaction partners. A suitable molecule with cytotoxic properties against tumours is the biomolecule Gramicidin S (GS), a natural antibiotic. To prevent it from damaging healthy tissue, the research team inserted a photo-switchable diaryl ethene segment into the ring structure. As a result, the GS-DProSw molecule can be switched between two states with the help of light: The agent can be administered in the inactive state and is activated at the desired location by specific irradiation with light. There, it attacks the surrounding tumour tissue and contrary to conventional PDT, it does not require any oxygen for this purpose.

“This first proof of functioning represents an important step in fundamental research for the development of anti-tumour agents. But we still have a far way to go: To reliably use this type of photoswitchable molecules for a photodynamic therapy of patients, numerous other studies have to be carried out in cooperation with our partners in Kiev,” adds Ulrich.

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