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Biological Serendipity: Molecular Details Of Cell Membrane Fusion Revealed

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www.ProHealth.com • September 20, 2002


UPTON, NY -- For the first time, scientists have observed the molecular details of biological cells fusing together, a fleeting event never before observed at this scale. This research, which could lead to more efficient drug delivery processes and gene therapy techniques, was performed at the National Synchrotron Light Source (NSLS) at the U.S. Department of Energy's Brookhaven National Laboratory, and Rice University. The results are reported in the September 13, 2002 issue of Science.

Cellular membrane fusion is well known to scientists, and is one of the most common ways for molecules to enter or exit cells, in processes such as fertilization and viral infection, for example. When two cells fuse together, their membranes come together at one location and create a connection between the cells that allows the exchange of material between them. Eventually, the two membranes form one single, continuous membrane surrounding the contents of both cells.

"We now have confirmed the existence of a temporary structure that occurs during membrane fusion and that has been postulated by scientists for a long time," says Lin Yang, a postdoctoral physicist at the NSLS and the lead author of the study. Yang and coauthor Huey Huang, professor of physics and astronomy at Rice University, with whom Yang did his doctoral studies, made their observation by serendipity while studying how certain small proteins kill bacteria by digging holes into bacterial membranes.

"We were trying to understand how changes in humidity and temperature affect the properties of a certain type of cell membrane," Yang says, "when, amid our results, we observed this structure that nobody had ever seen. That was pretty exciting."

To reveal the structure of the fused cell membranes, the scientists used a method called x-ray diffraction. They first produced small crystals composed of stacks of membranes made of phospholipids. Then, they projected x-rays produced by the NSLS toward the crystals. By looking at how the x-rays scattered off the crystals, Yang and Huang measured a pattern of points with varying intensities called a diffraction pattern, which represents a map of the atomic structure of the phospholipid layers in the membranes.

"We noticed that by changing the humidity, we could significantly alter the structure of the membrane," Yang says. For certain humidity values, the scientists noticed that, instead of displaying a single line of regularly spaced points, the diffraction pattern revealed many more points at other positions. By studying these diffraction patterns more closely, the scientists realized that the patterns were those of two membranes caught in the act of fusing.

The diffraction pattern showed that, when the two membranes fuse, they form an hourglass-shaped structure called a stalk, confirming theoretical predictions. When the stalk stretches further, it creates a connecting bridge between the membranes. This connection then enlarges, and the two membranes ultimately become one single membrane.

Huang notes that the membrane considered in this study is relatively simple, and does not reflect the complexity of more common natural membranes, which are made of phospholipids and proteins. "What is truly exciting is that we now have, for the first time, a model system that can provide clues about how more complicated membranes work," he says.

Understanding cell fusion may be key to preventing viral infection or designing new drug delivery methods, the scientists say. "Understanding the details of membrane fusion may help scientists find the appropriate conditions for preventing viruses such as HIV from fusing to and thereby infecting human cells," Yang says. "This knowledge could also lead to the design of systems in which a drug or a piece of DNA is enclosed in a membrane known to fuse with specific cells in our body, thus facilitating drug delivery or improving gene therapy."



This work was funded by the U.S. Department of Energy, which supports basic research in a variety of scientific fields.

The U.S. Department of Energy's Brookhaven National Laboratory (http://www.bnl.gov) conducts research in the physical, biomedical, and environmental sciences, as well as in energy technologies. Brookhaven also builds and operates major facilities available to university, industrial, and government scientists. The Laboratory is managed by Brookhaven Science Associates, a limited liability company founded by Stony Brook University and Battelle, a nonprofit applied science and technology organization.


Editor's Note: The original news release can be found at http://www.bnl.gov/bnlweb/pubaf/pr/2002/bnlpr091202.htm



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