Most of the tests that doctors use to diagnose cancer -- such as mammography, colonoscopy, and CT scans -- are based on imaging. More recently, researchers have also developed molecular diagnostics that can detect specific cancer-associated molecules that circulate in bodily fluids like blood or urine.
MIT engineers have now created a new diagnostic nanoparticle that combines both of these features: It can reveal the presence of cancerous proteins through a urine test, and it functions as an imaging agent, pinpointing the tumor location. In principle, this diagnostic could be used to detect cancer anywhere in the body, including tumors that have metastasized from their original locations.
"This is a really broad sensor intended to respond to both primary tumors and their metastases. It can trigger a urinary signal and also allow us to visualize where the tumors are," says the senior author.
In a new study, the authors showed that the diagnostic could be used to monitor the progression of colon cancer, including the spread of metastatic tumors to the lung and the liver. Eventually, they hope it could be developed into a routine cancer test that could be performed annually.
Most cancer cells express enzymes called proteases, which help them escape their original locations by cutting through proteins of the extracellular matrix. The authors cancer-detecting nanoparticles are coated with peptides that are cleaved by these proteases. When these particles encounter a tumor, the peptides are cleaved and excreted in the urine, where they can be easily detected. In animal models of lung cancer, these biomarkers can detect the presence of tumors early on; however, they don't reveal the exact location of the tumor or whether the tumor has spread beyond its organ of origin.
Building on their previous efforts, the researchers wanted to develop what they call a "multimodal" diagnostic, which can perform both molecular screening (detecting the urinary signal) and imaging, to tell them exactly where the original tumor and any metastases are located.
To modify the particles so they could also be used for PET imaging, the researchers added a radioactive tracer called copper-64. They also coated them with a peptide that is attracted to acidic environments, such as the microenvironment in tumors, to induce the particles to accumulate at tumor sites. Once they reach a tumor, these peptides insert themselves into cell membranes, creating a strong imaging signal above background noise.
The researchers tested the diagnostic particles in two mouse models of metastatic colon cancer, in which tumor cells travel to and grow in the liver or the lungs. After treatment with a chemotherapy drug commonly used to treat colon cancer, the researchers were able to use both the urine signal and the imaging agent to track how the tumors responded to treatment.
The researchers also found that delivering copper-64 with their nanoparticles offers an advantage over the strategy that is typically used for PET imaging. The PET tracer, known as FDG, is a radioactive form of glucose that is taken up by metabolically active cells, including cancer cells. However, the heart generates a bright PET signal when exposed to FDG, and that signal can obscure weaker signals from nearby lung tumors. Using acid-sensitive nanoparticles to accumulate Copper-64 in the tumor environment provides a much clearer image of lung tumors, the researchers found.
If approved for use in human patients, the senior author envisions that this kind of diagnostic could be useful for evaluating how well patients respond to treatment, and for long-term monitoring of tumor recurrence or metastasis, especially for colon cancer.
"Those patients could be monitored with the urinary version of the test every six months, for instance. If the urine test is positive, they could follow up with a radioactive version of the same agent for an imaging study that could indicate where the disease had spread. We also believe the regulatory path may be accelerated with both modes of testing leveraging a single formulation," the author says.
"The vision is that you could use this in a screening paradigm -- alone or in conjunction with other tests -- and we could collectively reach patients that do not have access to costly screening infrastructure today," the author says. "Every year you could get a urine test as part of a general check-up. You would do an imaging study only if the urine test turns positive to then find out where the signal is coming from. We have a lot more work to do on the science to get there, but that's where we would like to go in the long run."
Glympse Bio, a company co-founded by the senior author, has performed phase 1 clinical trials of an earlier version of the urinary diagnostic particles and found them to be safe in patients.
https://news.mit.edu/2021/cancer-test-nanoparticles-urine-0715
https://www.nature.com/articles/s41563-021-01042-y
A noninvasive test to detect cancer cells and pinpoint their location
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