When it comes to developing stem cell treatments, seeing is half the battle

When it comes to developing stem cell treatments, seeing is half the battle
Assistant Professor Xiao-an Zhang and Ph.D. student Inga Haedicke have developed a new contrast agent that may help in developing effective stem and therapeutic cell treatments. Credit: Ken Jones

Stem cell therapies hold great promise in treating a variety of diseases, but in order to develop them researchers must first be able to monitor them inside the body. Enter the contrast agent.

"Often things go wrong right away when stem or therapeutic cells are injected into the body because some cells can migrate, while other dying cells are eaten by the body and expelled," says Xiao-an Zhang, an assistant professor of chemistry at U of T Scarborough.

"It's important to know if these cells are being injected in the right place, where they go once inside the body and whether they're still alive. The only way to do that is with an effective contrast agent."

Conventional are directly injected into the body to make some tissues or diseases more clearly visible on MRI scans. The one developed by Zhang and his team, including Ph.D. student Inga Haedicke, U of T Assistant Professor Hai-Ling Margaret Cheng and two research groups (Dr. Timothy Scholl and Dr. Paula Foster) from Western University, can improve monitoring at the cellular level, which is a crucial element in measuring the effectiveness of stem and therapeutic cell treatments.

While still early in development, stem and may one day offer effective treatments against diseases, particularly cancer. But one major hurdle in developing these treatments is an inability to effectively monitor them once inside the body.

"Current MRI methods are not great at looking at what's going on at the cell or sub-cellular level. It's just not powerful enough - the resolution and sensitivity needs to be higher and the contrast needs to be greater in order to distinguish one type of cell from another," says Zhang.

"Traditional MRI can't do quite what we need it to do right now, but there's huge opportunity to improve the technology."

Magnetic resonance imaging (MRI) uses a magnetic field and radio waves to produce a detailed image of tissues within the body. MRI is ideal for medical imaging because it's milder than techniques like CT scans or X-rays since it's not as invasive and does not rely on ionizing radiation.

There are quite a few technical challenges when developing an effective contrasting agent for cellular imaging. For one, it needs to be non-toxic or low in toxicity so it doesn't damage cells. It also needs to be able to enter cells and accumulate in order to provide a clear enough contrast from the rest of objects in the image, notes Zhang.

The agent developed by Zhang and his team addresses these challenges by using manganese porphyrin. Manganese is a micronutrient that the body's cells can handle and forms a very stable complex with the porphyrin, a type of pigment molecule that can help to achieve the necessary properties. Using a new porphyrin developed by Haedicke, the agent can be delivered to cells more efficiently in smaller concentrations and can accumulate more effectively than current alternatives.

"The real positive aspect of this design is that it's cell permeable, and that the new mechanism allows it to stay inside the cell and accumulate," says Haedicke. "This is extremely important for labelling which are being monitored."

The research, which will be published in the journal Chemical Science, received funding from the Canada Foundation for Innovation (CFI) and the Natural Sciences and Engineering Research Council of Canada (NSERC).

The next steps for Zhang and his team is to focus mostly on using the agent on different types of and to test them in vivo.


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Journal information: Chemical Science

Citation: When it comes to developing stem cell treatments, seeing is half the battle (2016, May 31) retrieved 14 May 2021 from https://phys.org/news/2016-05-stem-cell-treatments.html
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