Simple stem cell production method shows promise in mice for treating IPF

In a small pilot study, researchers from North Carolina State University have demonstrated a rapid, simple way to generate large numbers of lung stem cells for use in disease treatment. This method of harvesting and growing a patient's own lung stem cells shows promise in mice for treating idiopathic pulmonary fibrosis (IPF), and could one day provide human IPF sufferers with an effective, less invasive method of treatment for their disease.

The idea of using the body's own cells to fight diseases is not new, but current methods of isolating stem cells from bone marrow, fat tissue or cord blood are time consuming, costly and often wasteful. "In current stem cell harvesting, just the process of sorting the stem cells can damage them, wasting not only the cells, but also time and money," says Ke Cheng, lead researcher on the project. "We wanted to see if we could take healthy stem cells from an organ while they were still in a supportive environment, recreate and enhance that environment outside the body to encourage stem cell reproduction, then reintroduce those cells into a damaged organ to treat disease." Cheng is an associate professor of regenerative medicine at NC State's College of Veterinary Medicine and the UNC-Chapel Hill/NC State joint department of biomedical engineering.

Instead of attempting to isolate and sort individual lung stem cells or genetically convert other types of cells into lung stem cells, Cheng used a multicellular spheroid method to harvest and grow them. A spheroid is a three-dimensional cellular structure that has typically been used to culture cancer cells or embryonic stem cells for experimentation and research. The cells of interest - in Cheng's research, lung stem cells - are at the center of the spheroid, and they are surrounded by layers of supporting cells.

"We're the first lab to show that the spheroid environment can be used to enrich adult lung stem cells. In the spheroid, we recreate the stem cells' natural microenvironment, the "niche," where they can communicate with each other just as they would inside your body," says Cheng. "There is no use of exogenous or transgenic materials - the stem cells are 100 percent the donor's own genetic material, a perfect match to the patient and the organ being treated."

In a small animal trial, Cheng and his graduate students tested the spheroid-produced human lung stem cells on mice with IPF, a fatal disease that thickens and scars healthy lung tissue, creating inflammation and replacing the lining of the lung cells with fibroids. "This was a proof of concept trial. The mice that received the stem cell transplant showed decreases in inflammation and fibrosis - their lungs almost matched those of the control group, who did not have IPF at all," says Cheng. "And the beauty of the process is that the cell therapy can be delivered intravenously.

"Picture the lung as a garden and the stem cells as seeds. In an IPF environment, with inflammation, the soil is bad, but the seeds are still there," adds Cheng. "We take the seeds out and give them a protected place to grow. Then when we put them back into the lung, they can grow into mature lung cells to replace the damaged lung tissues in IPF. They can also wake the other seeds up, telling them to help fight the inflammation and 'improving' the soil."

Cheng's next steps will be to see if potent stem cells can be harvested and grown from biopsied tissues of IPF patients, which would further reduce the number of invasive procedures a patient would need to endure. "We've demonstrated that the spheroid is a wonderful method for stem cell production - now we want to try and harvest the original cells during the biopsy," he says. "Of course, our ultimate goal is to use this method to treat humans with IPF."

Source: North Carolina State University

Comments

  1. William Pommy William Pommy United States says:

    This is one of the most exciting developments in research I've seen.  As a patient with IPF diagnosed 7 years ago and still without deterioration, your research is so encouraging.  The stem cell claims coming from Florida have shown to be fraudulent according to what I've read.  Your research gives people like me hope, legitimate hope. Thank you.  If you need volunteers, I'd be there in a NY minute.

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