麻豆淫院

A new process could help to treat liver disease without needing an organ transplant, a new study reveals.

Hepatic progenitor cells (HPCs) can help to repair the liver, but they often don't stick well to the existing tissue, making treatment less effective. Scientists at the University of Birmingham have now developed a method to coat HPCs with natural sugars (polysaccharides)鈥攕uch as hyaluronic acid and alginate鈥攎aking the cells "stickier."

The coated cells showed a significant increase in their ability to stick to liver tissues and other cells鈥攎eaning the cells are more likely to stay in place and help repair the liver. The coating does not harm the cells or stop them from working properly. Coated HPCs can still turn into liver cells and perform their functions, like producing important proteins.

Publishing their findings in Communications Biology, scientists from the University of Birmingham and InSphero AG (Switzerland) outline how the HPCs are coated with polysaccharides using a special technique that doesn't require modifying their genes.

Lead author Dr. Maria Chiara Arno, from the University of Birmingham, commented, "Liver transplants are the only option for many severe liver diseases, but there aren't enough donor livers available. This new method could provide an alternative by making cell therapy more effective, potentially helping many people with liver disease."

Researchers used a technique called metabolic oligosaccharide engineering (MOE) to coat the cells, which were tested鈥攊n lab conditions mimicking the human body鈥攐n various surfaces, including liver microtissues and endothelial cells, which line blood vessels. The coated HPCs demonstrated a much higher adhesion rate to liver microtissues and other cells compared to uncoated cells.

This study reveals that hyaluronic acid-coated cells spread out more and formed structures that help them stick. Moreover, coating cells increased their levels of certain proteins (integrins) that help cells attach and sense their environment. Importantly, these coatings were temporary, lasting just long enough to help the cells settle in after transplantation, without interfering with their normal functions.

"Our approach avoids genetic modification, making it easier to use in the clinic," added Dr. Arno. "We believe this method could be adapted for other cell types and are planning further studies to explore its impact on cell health and immune responses."