OHSU researchers reveal how bacteria crawl o...( PORTLAND Ore. -- Until recently res...)

OHSU researchers reveal how bacteria crawl on surfaces

PORTLAND, Ore. -- Until recently, researchers had little understanding of how bacteria like E. coli and Neisseria that cause diseases such as diarrhea, meningitis, and gonorrhea are able to move over human mucosal surfaces to cause infection. Now research conducted at Oregon Health Sciences University shows how these microbes use threadlike protein filaments to manuever themselves into position. In addition, these threads called pili, signal to human cells in a process that may promote bacterial invasion. These are some of the conclusions of a study conducted at OHSU and printed in the Sept. 7 edition of the journal Nature. The research was performed by Alexey Merz, Ph.D., and Magdalene So, Ph.D., in OHSU's School of Medicine, in collaboration with Michael Sheetz, Ph.D., at Columbia University.

Researchers say information about this transport mechanism could ultimately be used to design drugs that interrupt bacterial movement. They believe that disabling the pili could halt infection by preventing the organisms from congregating and invading cells.

"Our findings concluded that pili, tiny hair-like appendages that grab and pull, allow bacteria to congregate into microcolonies when preparing to invade a cell. The introduction of bacteria into the cell can then lead to the spread of disease throughout the host organism," said Magdalene So, Ph.D., professor and chairwoman of the Department of Molecular Microbiology and Immunology in OHSU's School of Medicine. "Without this ability to mobilize, these forms of bacteria would not pose a major threat to cells."

In the most novel aspect of the study, researchers were able to measure the mechanical force that bacterial cells exert in attaching to host cells. This was done by anchoring bacteria to a tiny latex bead in a fixed position. A second, even smaller bead was then placed in close proximity to the bacteria and held in place by an intense laser beam, a technique called "laser tweezers." When the pilus fil
'"/>

Contact: Jim Newman
newmanj@ohsu.edu
503-494-8231
Oregon Health & Science University
14-Sep-2000

Page: 1 2
Related medicine news :

1. Indiana University researchers closer to helping hearing-impaired using stem cells
2. Protein that helps skin cancer spread identified by Stanford researchers
3. US life expectancy about to decline, researchers say
4. Gene for age-related macular degeneration discovered by Yale researchers
5. Dartmouth researchers find where musical memories are stored in the brain
6. Columbia researchers receive $3 million to combat genetic killer of infants & toddlers
7. US cancer researchers launch first American-Israeli cancer conference
8. USC dental researchers develop first test for predicting cavities in children
9. Young blood revives aging muscles, Stanford researchers find
10. Uric acid may help reduce effects of spinal cord injury, Jefferson researchers find
11. Age should not be a factor in determining heart transplantation eligibility, researchers say

Post Your Comments: