Prostate cancer treatment breakthrough

Researchers have discovered that cow’s milk can improve the effectiveness of chemotherapy.

Deakin University medical scientists have made a breakthrough in prostate cancer treatment that is likely to save lives and improve the quality of life of people undergoing prostate cancer treatment within a decade.

The researchers have discovered that by piggy backing a chemotherapy drug onto a well-known milk protein they can create a combination that is lethal for cancer cells without the toxic side-effects.

In a study published in the prestigious international journal “Scientific Reports,” the scientists with Deakin’s School of Medicine have found that, when coupled with the milk protein lactoferrin, the chemotherapy drug Doxorubicin (Dox) can be delivered directly into the nucleus of prostate cancer cells and will kill the cells, as well as drug-resistant cancer stem cells, without any side-effects.

Deakin’s Deputy Vice-Chancellor Research Professor Peter Hodgson congratulated the research team on their efforts.

[testimonial_text]This is a very exciting result that offers strong hope for future survival rates of people with prostate cancer. Prostate cancer is the most common form of cancer diagnosed in Australia and the third most common cause of cancer death. This breakthrough is the result of many years of research effort and exemplifies our research mission at Deakin – to make a difference to the communities we serve.[/testimonial_text]
[testimonial_picture name=”Professor Peter Hodgson” details=”Deputy Vice-Chancellor Research”]
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The study authors are Jayanth Suryanarayanan Shankaranarayanan, Jagat R. Kanwar, Afrah Jalil Abd AL-Juhaishi and Rupinder Kaur Kanwar.

The first author, Jayanth Suryanarayanan Shankaranarayanan, is a recent Deakin PhD graduate who is now working as postdoctoral fellow at the University of California, San Diego.

Dr Rupinder Kanwar, a senior research fellow with the Deakin Medical School’s Centre for Molecular and Medical Research, explained that doctors had stopped using Dox to treat prostate cancer because of the side-effects.

However, the results of this new research suggest that it may soon be possible to reintroduce Dox, coupled with lactoferrin, to the treatment regime – and make it even more effective than before.

“Dox is used widely for treating several types of cancers and is known for causing toxicity to the heart, brain and kidneys and for leading to cardiac arrest/heart failure,” Dr Kanwar said.

[testimonial_text]Prostate cancer is one of the few cancers where chemotherapy is not the primary treatment. This is because these particular cancer cells are able to flush out the drug and become resistant to it, while the administered Dox continues to kill off the body’s normal cells, resulting in a range of side effects, the most damaging of which is heart failure. With this latest study, we have shown that by coupling Dox with lactoferrin the cancer cells take in the drug rather than pump it straight out.[/testimonial_text]
[testimonial_picture name=”Dr Rupinder Kanwar” details=””]
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Lactoferrin is an iron-binding protein found in cow’s milk and human milk. It is known for its immune boosting and antimicrobial properties, making it an important part of the body’s protection against infection. It is also added as a key ingredient in baby formula.

Lactoferrin’s ability as an iron transporting protein – mopping up much-needed iron for growth of microbes (bacteria and parasites) from the site of infection – and its cancer cell killing activities have been exploited by the Deakin scientists to create an anti-cancer biodrug that has no side-effects and improves the immune system.

Previous work by the team with other types of cancer, funded by the Australia-India Strategic Research Fund (AISRF) to Professor Jagat Kanwar and Dr Kanwar, found that lactoferrin is not digested by the gut enzymes when fully saturated with iron and given as smart nanocapsules.

“We also developed MRI / CT scan-trackable, orally administered, smart nanocapsules, containing lactoferrin that can be taken by the blood directly to the cancer site,” Professor Jagat Kanwar said.

“This latest study builds on our previous work, whereby, to target toxicity and drug resistance, we coupled the Dox with lactoferrin, which was then fed to a particular breed of mice that naturally develop prostate cancer.

“Rather than being pumped out by the cancer cells, Dox was taken to these cells by lactoferrin through its receptors. It then stays in the nucleus of the cancer cells to perform its lethal action.

“Another bonus is that we have shown that it is possible for cancer drugs to be taken orally, meaning it is possible to see a time when patients can be treated at home, rather than in hospital.”

The main goal of the research team now is to move to trials with real patients.

“The results of our research, to date, show great promise that we could soon develop personalised medication for cancer patients,” Dr Kanwar said.

“Our aim now is to test the cell lines of individual patients. In doing this, we believe it could be possible to use these cells to test the effectiveness and dosage of cancer drugs before they are administered to the patients.”

The model used in the study included advanced, metastatic drug resistant, castration resistant prostate cancer. Tests were conducted on a particular mouse breed that naturally develops prostate cancer and using 3D cancers in a culture dish from drug resistant and cancer stem cells.
• The study, “Doxorubicin Conjugated to Immunomodulatory Anticancer Lactoferrin, Displays Improved Cytotoxicity Overcoming Prostate Cancer Chemo-Resistance and Inhibits Tumour Development in TRAMP Mice,” has been published in the journal “Science Reports.”