Project Details
Description
Abstract
The process of bone formation is essential to life of all vertebrates. Our understanding of the
molecular mechanisms involved in this process are still limited. Osteoporosis is a common and
often crippling human disease characterized by decreased de novo bone formation by osteoblasts.
The incidence of this disease is growing with the aging of the general population. One condition
favoring an extreme form of osteoprosis is due to loss of function mutations in the LRP5 gene.
This results in a decrease in osteoblast function leading to low bone mass. Recent study in
Gerard Karsenty’s laboratory showed that LRP5 promotes osteoblast function by suppressing
serotonin biosynthesis in enterochromaffin gut cells. Consistently, decrease in serum serotonin
levels results in increased proliferation of osteoblasts and accounts for a protective mechanism
against osteoporosis. This has been verified in both mice and humans in a rare condition called
the high bone mass syndrome. These exiting findings opened up novel research avenues. The
aim of my proposal is to further characterize the interplay between enterochromaffin cells and
osteoblasts and to identify and characterize the molecular pathways involved in regulation of
serotonin by LRP5. To achieve these goals, I plan to use various biochemical, cell biology and
mouse genetics approaches. I expect these studies to contribute to a better understanding of
molecular pathways crucially involved in formation of bone both during normal and disease
development.
| Status | Finished |
|---|---|
| Effective start/end date | 1/1/09 → 12/31/11 |
Funding
- Human Frontier Science Program
ASJC Scopus Subject Areas
- Genetics
- Biochemistry
- Biotechnology
- Microbiology
- Animal Science and Zoology
- Agricultural and Biological Sciences (miscellaneous)
- Computer Science(all)
- Engineering(all)
- Mathematics(all)