Drug delivery method reverse senescence of stem cells: Study
July 18, 2026
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Drug delivery method reverse senescence of stem cells: Study

Increased duration of the drug's efficacy means that stem cell cultures can be kept out of the senescence state for longer, which leads to a larger harvest of the needed biomolecules for therapeutics

WEBDESKWEBDESK
Jun 29, 2023, 11:00 pm IST
in World, Health
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Researchers discovered methods for removing older cells from cultures when the capture rate is low. Rather than removing old cells, it is preferable to prevent them from entering senescence in the first place.

These findings were published in the journal, ‘Advanced Functional Materials.’ Our bodies change and degenerate as we age, a process known as senescence.

Senescence occurs in stem cells, which have the unique ability to change into other cell types, posing a problem when attempting to maintain cell cultures for therapeutic use. These cell cultures produce biomolecules that are important for various medicines and treatments, but once the cells enter a senescent state, they stop producing them and, worse, produce biomolecules that are antagonistic to these therapeutics.

“We work with mesenchymal stem cells, which are derived from fat tissue, and produce biomolecules that are essential for therapeutics, so we want to keep the cell cultures healthy. In a clinical setting, the ideal way to prevent senescence would be to condition the environment that these stem cells are in, to control the oxidative state,” said Miller. “With antioxidants, you can pull them the cells out of this senescent state and make them behave like a healthy stem cell.”

While treating the cells with antioxidants can delay senescence, current methods of antioxidant delivery have many shortcomings, including large variations in the amount of drug release over time and between cells. However, a recently published study by the labs of Kong and Hee-Sun Han (GNDP/IGOH), an assistant professor of chemistry, with Miller as the first author, describes a new method of delivering antioxidants to stem cells that is reliable, long-lasting, and minimises variation.

The new method utilises antioxidants in the form of polymer-stabilised crystals. Traditional methods grow crystals within reactors, but using microfluidics, a technology that allows researchers to work with incredibly small amounts of fluid, the researchers can create crystals that are all the same size and dosage, minimising variation in drug release between cells. “With microfluidics, each drop functions as a small reactor, such that we can get small, similar-sized, individual crystals, which minimizes variation in drug release rate,” said Miller. Furthermore, the crystals dissolve at a slower rate than traditional methods, making the release of the drug uniform over time, and increasing the duration of the drug’s effectiveness.

“We learned that the narrow variation in the drug’s release profile is really important,” explained Han. “When you add drugs that dissolve in water, there is this bursting period where a lot of it dissolves in the liquid at once, and not much later. But the crystal allows this uniform, extended-release, which helps maintain the tight range of optimal concentrations that are needed.”

“When typical antioxidants are put into water or biological fluid, they lose their vital activity within six hours,” described Kong. “But the new antioxidant crystal remains bioactive for at least two days, so we can actually extend the duration of the drug, and also reduce the frequency with which we have to add antioxidants to the cell culture media. This minimises the variation in the type of the biomolecules the stem cells are generating and improves the reproducibility of the product, which is one of the biggest challenges in biomanufacturing at the moment.”

Increased duration of the drug’s efficacy means that stem cell cultures can be kept out of the senescence state for longer, which leads to a larger harvest of the needed biomolecules for therapeutics. Miller also says this method could be used for patient-derived stem cell treatments, where the biomolecules from a patient’s own body are used to help with various tissue ailments, such as injuries or disease.

“When we use biomolecules from donors instead of the patient, that can have a host effect,” explained Miller. “Ideally, we would harvest stem cells from the patient that we’re treating, grow them in a bioreactor, and harvest those biomolecules for that therapeutic. This works well for someone who is 20. Still, if we envision an elderly patient, they’re going to have a high population of these senescence cells that are not going to be secreting the therapeutically relevant biomolecules. If we can pull those cells out of that state, and make them behave like a healthy cell, we can get a much larger load of therapeutically relevant biomolecules for the patient.”

The team says that while they want to continue to improve the biomanufacturing process, there are already many potential uses for this methodology besides just the controlled delivery of antioxidants to stem cell cultures. Most cells experience senescence so this technique could be applied to other cell cultures important in medicine and therapeutics. Furthermore, the crystals could be used to deliver sustained and controlled levels of antioxidants, or potentially other drugs, directly into the target tissue of a patient.

“I think the beauty here is that this is a technology development paper, so this can be applied to various hydrophilic drugs, disease models, and methods applications,” said Han. “We’re showing that we can maintain a sustained release of this drug at a relatively constant rate for an extended period of time. There are a lot of exciting studies and directions we can go with this technology.”

(with inputs from ANI)

Topics: DrugsbiomoleculesDrug deliveryStem cellsResearchHealth
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