An international research team led by the Spanish National Research
Council (CSIC) and researchers from Kiel University revealed the
atomic‐level structure of the human peptidase enzyme meprin β (beta).
The enzyme is related to inflammation, cancer and Alzheimer's Disease
and is involved in cellular proliferation and differentiation. The
knowledge of the enzyme structure will allow for the development of a
new medication type different from those known up to now.
The study was published in the current issue of the Proceedings of the National Academy of Sciences.
"Now that we know how meprin β looks, how it works and how it relates
to diseases, we can search for substances that stop its enzyme
activities when they become harmful," explains Xavier Gomis-Rüth,
researcher at the Molecular Biology Institute of Barcelona, who led the
project. Meprin β is an enzyme that is anchored in the outer wall of
cells. Its normal function in the human metabolism is to cut off certain
proteins, e.g. growth factors, that are also anchored in the cell wall.
In this way meprin β releases protein fragments into the environment
surrounding the cells -- a natural and normal process, as long as it
occurs at a certain intensity. However, under specific circumstances,
meprin β may function abnormally, and, for example, releases too many
protein fragments. The protein pieces than overdo their natural task in
the cell surroundings, causing disorder in the human body. Such disorder
typically occurs when inflammation, cancer or Alzheimer's Disease get
started.
In their study, the scientists found out that meprin β consists of
two identical molecules building a dimeric structure with a cleft in the
middle. "We also discovered that the active site cleft is something
like the scissor of the enzyme, the actual place where the proteins are
cleaved," explains Christoph Becker-Pauly, researcher at the Institute
of Biochemistry at Kiel University, and principle investigator of the
Kiel Collaborative Research Center 877 „Proteolysis as a Regulatory
Event in Pathophysiology." Molecular biologist Gomes-Rüth points out to
the next research goal: "We now need to find a substance that fits right
into the cleft and will thus block the cleaving activity of meprin β."
Such a substance could be the key to new therapeutical drugs against
inflammation, cancer or Alzheimer's Disease.
The research has been carried out in collaboration with scientists
from Max Planck Institute for Biochemistry and Johannes Gutenberg
University Mainz (Germany) as well as University of Bern (Switzerland).
Journal Reference:
- J. L. Arolas, C. Broder, T. Jefferson, T. Guevara, E. E. Sterchi, W. Bode, W. Stocker, C. Becker-Pauly, F. X. Gomis-Ruth. Structural basis for the sheddase function of human meprin metalloproteinase at the plasma membrane. Proceedings of the National Academy of Sciences, 2012; 109 (40): 16131 DOI: 10.1073/pnas.1211076109
Courtesy: ScienceDaily
No comments:
Post a Comment