福利姬自慰researchers use nanoparticles to improve chemotherapy response in breast cancer
Researchers at the University of Toronto鈥檚 Leslie Dan Faculty of Pharmacy have seen remarkable success combining tumour-modulating nanoparticles with chemotherapy drug doxorubicin to enhance the chemotherapy response in pre-clinical model breast cancer. This combination approach also appears to boost anti-tumour immunity, contributing to the growing excitement surrounding immunotherapy as an avenue to treat cancer.
Chemotherapy is a first-line treatment for many cancers; however, the makeup of tumour microenvironments is often a key barrier to the effectiveness of treatment, requiring that patients receive higher doses in order to get the desired result. 鈥淩epeated high-dose chemotherapy can have harmful, even fatal, side effects such as damage to healthy tissues or organs.鈥
鈥淭he challenge is to find new ways to get better treatment outcomes with lower doses of chemotherapy,鈥 says Xiao Yu (Shirley) Wu, senior investigator and professor at the Leslie Dan Faculty of Pharmacy. 鈥淥ur combination approach outlined in this study appears to reduce tumour resistance to doxorubicin, making the chemotherapy effective even at a low dose.鈥
In fact, the research team found that a single treatment with the tumour-modulating nanoparticles and the commonly used chemotherapy drug led to a 60 per cent cure rate in the pre-clinical animal models, meaning a complete tumour regression and enhanced life expectancy by five-fold compared to treating with chemotherapy alone.
鈥淏y using the nanoparticles to target and change the tumour environment before administering drug treatment, we were able to knockout the tumour鈥檚 ability to resist the treatment 鈥 it鈥檚 a game-changer,鈥 says Mohammad Ali Amini, first co-author on and a PhD candidate in the department of pharmaceutical sciences at the Leslie Dan Faculty of Pharmacy.
In 2014, Wu and her team published about the first-ever use of the nanoparticles developed specifically to suppress a well-known drug resistance factor called tumour hypoxia, a term used to describe the lack of oxygen in a cancerous tumour and other hypoxia-induced factors.
鈥淭he nanoparticles we developed are made up of manganese dioxide, an oxide of the nutrient mineral manganese that already exists in our bodies,鈥 Wu explains. 鈥淭hey accumulate in the tumour and remodel the tumour environment by generating oxygen and changing the conditions to such an extent that the chemotherapy becomes more effective.鈥
While the team anticipated the nanoparticles would improve chemo-drug uptake and efficacy, the strikingly high cure rate was surprising. It suggested that the nanoparticles were also triggering an anti-tumour immune response. Intriguingly, a few days after the combination treatment, an increased amount of specific anti-tumour T-cells was found in tumours. The team also re-challenged the cured models with the same type of cancer cells and found that 88 per cent of them showed resistance to new tumour growth.
鈥淭his means there was an additional, immunity-boosting effect of the treatment,鈥 says Amini, 鈥渨hich made sense because a key feature of nanoparticles is that they increase pH and decrease oxidative stress in the tumour, which also provides better conditions for immune cells to enter the tumour and become more active.鈥
Taking the study one step further, the researchers then collected the anti-tumour T-cells and placed them into completely new hosts that were subsequently exposed to the same cancer strain. They found 57 per cent of recipients showed no tumour generation at all.
鈥淭his means the T-cells were effectively fighting the breast cancer strain and that the immunity was actually transferred from a donor to a receiver,鈥 says Wu. 鈥淚t was very exciting that a single combination treatment could produce T-cells for immunotherapy.鈥
While very promising, these novel findings will need to be validated using different pre-clinical models and by further investigating the exact mechanisms and pathways that led to the initial cure rate and immunity-boosting response.
鈥淥nce these are better understood, we can move on to designing a more clinically applicable treatment approach,鈥 says Wu.