Scientists discover hidden liver switch that cuts harmful cholesterol
Key takeaways
- Researchers at UT Southwestern Medical Center have identified a protein that acts as a key regulator of how the liver releases cholesterol carrying particles into the bloodstream.
- The study, published in the American Heart Association journal Circulation, focused on a protein called HELZ2.
- "These particles are a major driver of plaque buildup in the arteries," said senior author Zhao Zhang, Ph.D., Assistant Professor in UT Southwestern's Center for the Genetics of Host Defense and of Internal Medicine.
Why this matters: new research or scientific developments with potential real-world impact.
Researchers at UT Southwestern Medical Center have identified a protein that acts as a key regulator of how the liver releases cholesterol carrying particles into the bloodstream. The discovery could eventually lead to new treatments for heart disease and fatty liver disease.
The study, published in the American Heart Association journal Circulation, focused on a protein called HELZ2. Scientists found that HELZ2 helps control the activity of apolipoprotein B (APOB), a gene required to produce apoB proteins that form lipoproteins, the particles responsible for transporting cholesterol and fats through the body.
"These particles are a major driver of plaque buildup in the arteries," said senior author Zhao Zhang, Ph.D., Assistant Professor in UT Southwestern's Center for the Genetics of Host Defense and of Internal Medicine. "What we found is that HELZ2 acts as a powerful control point for how many cholesterol-carrying particles ultimately enter the bloodstream."