Structural biologists at Children's Hospital Boston and
Researchers led by Howard Hughes Medical Institute investigator Stephen Harrison, PhD, and Bing Chen, PhD, focused on the gp120 protein, part of HIV's outer membrane, or envelope. gp120's job is to recognize and bind to the so-called CD4 receptor on the surface of the cell HIV wants to infect. Once it binds, gp120 undergoes a shape change, which signals a companion protein, gp41, to begin a set of actions that enable HIV's membrane to fuse with the target cell's membrane. This fusion of membranes allows HIV to enter the cell and begin replicating.
The structure of gp120 after it binds to the CD4 receptor and changes its shape was solved several years ago by another group. Harrison and Chen have now described gp120's structure before the shape change, yielding vital before-and-after information on how the molecule rearranges itself when it encounters the CD4 receptor.
Knowing how gp120 changes shape is a new route to inhibiting HIV -- by using compounds that inhibit the shape change, says
The studies, performed in the Children's Hospital Boston Laboratory of Molecular Medicine, used the closely related simian immunodeficiency virus (SIV) as a stand-in for HIV. By aiming an X-ray beam through a crystallized form of gp120, they obtained the first high-resolution three-dimensional images of the protein in its unbound form. They surmounted considerable technical challenges, including difficulty in getting gp120 to form good crystals.
Without very well-ordered crystals you get a very blurry picture, explains
One of the lab's first steps will be to determine which shape of gp120 - bound to the CD4 receptor, or unbound - is recognized by a person's antibodies. gp120's shape change is an important escape mechanism for HIV, allowing the virus to bind to and enter a cell before the immune system can see it, notes
We can now compare the bound and unbound forms and try to understand whether there are any immunologic properties that differ and that might provide a route to new vaccine or drug strategies,