ID 110691
Author
Katunuma, Nobuhiko Tokushima Bunri University, Institute forHealth Sciences
Shiota, Hiroshi Department of Opthalmology and Visual Neuroscience, The University of Tokushima School of Medicine Tokushima University Educator and Researcher Directory KAKEN Search Researchers
Le, Quang Trong Tokushima BunriUniversity, Institute forHealth Sciences|Biotechnology Center, Vietnam National University
Keywords
cystein protease inhibitor
human tears
reverse zymography
Behcet’s disease
lactoferrin
milk
autoimmune disease
Content Type
Journal Article
Description
New cysteine protease inhibitors in human tears and milk and their medical significance are reviewed in this paper. As protective components against bacterial infection in the eyes, we detected four kinds of anti-bacterial proteins in normal human tears including lysozyme and three kinds of cysteine protease inhibitors. Using our reverse zymography of normal tears, three kinds of cysteine protease inhibitors were found to be 78kDa, 20kDa and 15kDa and were determined to be lactoferrin, Von Ebner’s Gland(VEG)protein and cystatin S, respectively. All of them belong to the cystatin super family and VEG protein and cystatin S are well known cysteine protease inhibitors. TheC-terminusarea17mer peptide,Y679-K695,of lactoferrin showed strong homology with a common active domain of the cystatin family and the synthesized peptide showed inhibition of cysteine proteases. Not only were disease-specific changes found in these inhibitor profiles, but also disease-specific new inhibitors in patients tear with certain autoimmune diseases. A 35kDa inhibitor, which was detected specifically in tears with Behcet’s disease, an typical autoimmune disease, was determined to be a lacrimal acidic proline-rich protein based on the N-terminus sequence analysis. A65kDa inhibitor of tears with Harada’s autoimmune disease was determined to be an Ig heavy chain V-III region. In addition, lactoferrin content in Harada’s disease was very low. We found two cathepsin inhibitors in bovine milk using reverse zymography, namely lactoferrinandβ-casein. TheL133-Q151, in the humanβ-casein moleculeis the active inhibitory domain. They may play an important role in antiseptic and anti-infectious functions.
Journal Title
The journal of medical investigation : JMI
ISSN
13431420
NCID
AA11166929
Volume
50
Issue
3-4
Start Page
154
End Page
161
Sort Key
154
Published Date
2003
EDB ID
FullText File
language
eng
TextVersion
Publisher
departments
Medical Sciences