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Light-Activated Cancer Drugs

Combining light-activated cancer drugs with tumour-seeking antibodies could provide a more effective way of treating many cancers, according to new research.

The study describes how scientists have successfully attached 10 light-activated drug molecules to an antibody which recognises and homes in on the cancerous cells. The researchers have shown that using this method means highly potent drug molecules are delivered to precise cancer targets much more effectively than if they are not attached to the antibody.

Using light-activated drugs to treat cancer is known as photodynamic therapy (PDT). This treatment involves focusing drugs on diseased tissues, and then illuminating the area with a cold laser which sets off a chain reaction in the cancerous tissue, converting oxygen to a highly toxic type of oxygen-like bleach, which destroys cells in the vicinity. PDT has been shown to be successful in treating head and neck, prostate and skin cancers.

However, current PDT is limited by the inefficiency with which the light-activated drugs are able to specifically target tumours. This can mean that the light-activated drugs can circulate in the patient's body for some time after the treatment, leaving patients light-sensitive and prone to skin damage. The research team behind the new study think their results show they can solve this problem by ensuring the drugs get straight to the cancerous cells, and do not affect the rest of the body.

Dr Mahendra Deonarain from Imperial College London's Department of Life Sciences, explains: "PDT is a very promising way to treat cancer because it leaves patients with very little cosmetic scarring and there are low chances of drug resistance. We have shown that it's possible to use tumour-seeking antibodies, like the ones used in drugs like Herceptin and Rituxan, to deliver these potent drugs accurately to the site of the cancer, minimising the risk of healthy tissue getting accidentally damaged in the treatment process, and maximising the number of cancer cells that are destroyed."

The research team, led by scientists from Imperial and the Imperial spin-out company PhotoBiotics, has shown that their antibody-carrying light-sensitive drugs have effected complete tumour regression in an animal model. Dr Deonarain explains that the next step is to take the study forward into clinical trials: "We have shown that it's possible to attach these drug molecules to these targeting antibodies without destroying the useful properties of the antibody itself. Our initial results are extremely promising and we're hoping to take this forward into clinical trials in the near future. Our work is expanding the applications of PDT for many cancers and we're excited about moving towards making targeted PDT a clinical reality."

PhotoBiotics has 4 filed patents protecting this new technology and is currently completing further pre- clinical studies with a view to moving into clinical trials within the next three years.

PDT has an established niche in the treatment of certain cancers and in age related macular degeneration (AMD), which is a common cause of visual impairment in the over-50's. However, PDT's clinical development and use have been slow to evolve owing mainly to the novelty of the treatment regimen. Its growth has been further restricted by the technical limitations of existing approaches; specifically the therapeutic margin, which is the ratio of effective dose to toxic dose.

The main toxicity arising from current PDT is post-treatment systemic photosensitivity. The photosensitising agent remains in the system for up to six weeks post treatment in some cases, and when it reaches the skin, patients can become exquisitely photosensitive sensitive to ambient light even on cloudy days, leading to symptoms akin to acute sunburn in uncovered parts of the body.

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