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Color-coded test checks if medical nanoparticles hit their target

Justin Rowell by Justin Rowell
29.09.2022
Home Science

A neon sign has a blue and pink target design

Researchers have developed a color-coded test that quickly signals whether newly developed nanoparticles deliver their cargo into target cells.

These nanoparticles are ultra small compartments designed to carry medicines, vaccines, and other therapies.

Historically, nanoparticles have a very low delivery rate to the cytosol, the inside compartment of cells, releasing only about 1%–2% of their contents.

The new testing tool, engineered specifically to test nanoparticles, could advance the search for next-generation biological medicines. The technology builds upon nanoparticles currently used against cancer and eye disease, and in vaccines for viruses including SARS-CoV-2, the virus that causes COVID-19.

The researchers report details of the tool, tested in mouse cells grown in the laboratory and in living mice, in Science Advances.

“Many of the current assessment tools for nanoparticles only test whether a nanoparticle reaches a cell, not if the therapy can successfully escape the degradative environment of the endosome to reach inside the cytosol of the cell, which is where the medicine needs to be located for performance,” says Jordan Green, professor of biomedical engineering at Johns Hopkins University School of Medicine. Researchers created the new tool to track location and nanoparticle release, he says.

Previous research has estimated that only about 1%–2% of nanoparticles “eaten” by cells are able to escape the cellular compartments that trap them to avoid being digested or “spit back out.” In addition to the properties of its cargo, a nanoparticle’s chemical properties determine whether it is accepted by a cell and able to evade its cellular defenses.

To surmount such obstacles to final delivery, Green and his team designed a screening tool that assesses hundreds of nanoparticle formulations on their ability to not just reach a cell, but also how efficiently the nanoparticle can escape with its cargo to reach a cell’s interior.

The test uses mouse cells grown in the laboratory that are genetically engineered to carry a florescent marker called Gal8-mRuby, which shines orange-red when a cellular envelope that engulfs a nanoparticle opens, releasing its cargo into the cell.

Images of the process are then analyzed by a computer program that quickly tracks the nanoparticle location using red fluorescent light and quantifies how effective the nanoparticles are at being released into the cell by assessing the amount of orange-red fluorescent light, with detailed information about the uptake of the nanoparticles and the delivery of their cargo.

In experiments in mice, Green and his team administered biodegradable nanoparticles carrying mRNA that encoded a gene called luciferase, which makes cells glow. The researchers then tracked whether the mouse cells accepted the gene and began expressing it, lighting up target cells like a lightning bug.

Green’s team found that the top-performing nanoparticles in the cellular tests had a high positive correlation to nanoparticle gene delivery performance in living mice, showing the nanoparticle assay is a good predictor of successful cargo delivery.

In further mouse studies, the researchers discovered that different chemical group combinations in the polymer-based nanoparticles led the nanoparticles to target different tissue types. By analyzing how the particles behaved in the mouse’s body, the researchers found that polymer chemical properties could direct the nanoparticle gene therapy to specific target cells, such as endothelial cells in the lungs or B cells in the spleen.

“By fine-tuning small chemical changes, we can steer a nanoparticle to specific tissues and even specific cells,” says Green. “This would allow us to develop more precisely delivered therapies, which could improve both efficacy and safety.”

Nanoparticle delivery of biological drugs is a growing field, particularly for gene therapies and vaccines.

Additional researchers are from AstraZeneca and Johns Hopkins. The National Cancer Institute, the National Eye Institute, the National Institute of Biomedical Imaging and Bioengineering, the National Science Foundation Graduate Research Fellowship, the Bloomberg~Kimmel Institute for Cancer Immunotherapy, the Research to Prevent Blindness James and Carole Free Catalyst Award, and AstraZeneca funded the work.

Source: Johns Hopkins University

The post Color-coded test checks if medical nanoparticles hit their target appeared first on Technovanguard.


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