Nanoparticles are the future of medicine – researchers are experimenting with new ways to design tiny particle treatments for cancer


PTI, May 9, 2022, 9:22 AM IST

Annarbor: When you hear the word “nanomedicine,” it might call to mind scenarios like those in the 1966 movie “Fantastic Voyage.” The film portrays a medical team shrunken down to ride a microscopic robotic ship through a man’s body to clear a blood clot in his brain.

Nanomedicine has not reached that level of sophistication yet. Although scientists can generate nanomaterials smaller then several nanometers – the “nano” indicating one-billionth of a meter – today’s nanotechnology has not been able to generate functional electronic robotics tiny enough to inject safely into the bloodstream.

But since the concept of nanotechnology was first introduced in the 1970s, it has made its mark in many everyday products, including electronics, fabrics, food, water and air treatment processes, cosmetics and drugs. Given these successes across different fields, many medical researchers were eager to use nanotechnology to diagnose and treat disease.

I am a pharmaceutical scientist who was inspired by the promise of nanomedicine. My lab has worked on developing cancer treatments using nanomaterials over the past 20 years. While nanomedicine has seen many successes, some researchers like me have been disappointed by its underwhelming overall performance in cancer. To better translate success in the lab to treatments in the clinic, we proposed a new way to design cancer drugs using nanomaterials. Using this strategy, we developed a treatment that was able to achieve full remission in mice with metastatic breast cancer.

What is nanomedicine?

Nanomedicine refers to the use of materials at the nanoscale to diagnose and treat disease. Some researchers define nanomedicine as encompassing any medical products using nanomaterials smaller than 1,000 nanometers. Others more narrowly use the term to refer to injectable drugs using nanoparticles smaller than 200 nanometers. Anything larger may not be safe to inject into the bloodstream. Several nanomaterials have been successfully used in vaccines. The most well-known examples today are the Pfizer-BioNTech and Moderna COVID-19 mRNA vaccines. These vaccines used a nanoparticle made of of lipids, or fatty acids, that helps carry the mRNA to where it needs to go in the body to trigger an immune response.

Researchers have also successfully used nanomaterials in diagnostics and medical imaging. Rapid COVID-19 tests and pregnancy tests use gold nanoparticles to form the colored band that designates a positive result. Magnetic resonance imaging, or MRI, often uses nanoparticles as contrast agents that help make an image more visible. Several nanoparticle-based drugs have been approved for cancer treatment. Doxil (doxorubicin) and Abraxane (paclitaxel) are chemotherapy drugs that use nanomaterials as a delivery mechanism to improve treatment efficacy and reduce side effects.

Cancer and nanomedicine

The potential of nanomedicine to improve a drug’s effectiveness and reduce its toxicity is attractive for cancer researchers working with anti-cancer drugs that often have strong side effects. Indeed, 65% of clinical trials using nanoparticles are focused on cancer.

The idea is that nanoparticle cancer drugs could act like biological missiles that destroy tumors while minimizing damage to healthy organs. Because tumors have leaky blood vessels, researchers believe this would allow nanoparticles to accumulate in tumors. Conversely, because nanoparticles can circulate in the bloodstream longer than traditional cancer treatments, they could accumulate less in healthy organs and reduce toxicity.

Although these design strategies have been successful in mouse models, most nanoparticle cancer drugs have not been shown to be more effective than other cancer drugs. Furthermore, while some nanoparticle-based drugs can reduce toxicity to certain organs, they may increase toxicity in others. For example, while the nanoparticle-based Doxil decreases damage to the heart compared with other chemotherapy options, it can increase the risk of developing hand-foot syndrome.

Improving nanoparticle-based cancer drugs

To investigate ways to improve how nanoparticle-based cancer drugs are designed, my research team and I examined how well five approved nanoparticle-based cancer drugs accumulate in tumors and avoid healthy cells compared with the same cancer drugs without nanoparticles. Based on the findings of our lab study, we proposed that designing nanoparticles to be more specific to their intended target could improve their translation from animal models to people. This includes creating nanoparticles that address the shortcomings of a particular drug – such as common side effects – and home in on the types of cells they should be targeting in each particular cancer type.

Using these criteria, we designed a nanoparticle-based immunotherapy for metastatic breast cancer. We first identified that breast cancer has a type of immune cell that suppresses immune response, helping the cancer become resistant to treatments that stimulate the immune system to attack tumors. We hypothesized that while drugs could overcome this resistance, they are unable to sufficiently accumulate in these cells to succeed. So we designed nanoparticles made of a common protein called albumin that could deliver cancer drugs directly to where these immune-suppressing cells are located.

When we tested our nanoparticle-based treatment on mice genetically modified to have breast cancer, we were able to eliminate the tumor and achieve complete remission. All of the mice were still alive 200 days after birth. We’re hopeful it will eventually translate from animal models to cancer patients.

Nanomedicine’s bright but realistic future

The success of some drugs that use nanoparticles, such as the COVID-19 mRNA vaccines, has prompted excitement among researchers and the public about their potential use in treating various other diseases, including talks about a future cancer vaccine. However, a vaccine for an infectious disease is not the same as a vaccine for cancer. Cancer vaccines may require different strategies to overcome treatment resistance. Injecting a nanoparticle-based vaccine into the bloodstream also has different design challenges than injecting into muscle.

While the field of nanomedicine has made good progress in getting drugs or diagnostics out of the lab and into the clinic, it still has a long road ahead. Learning from past successes and failures can help researchers develop breakthroughs that allow nanomedicine to live up to its promise.

(By Duxin Sun, Professor of Pharmaceutical Sciences, University of Michigan Ann Arbor. The Conversation)

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