The tears differ from most extracellular fluids in that the K+ concentration of tears is about 20 mEq/l. It is thought that the ducts of the lacrimal gland secrete K+; however, the mechanism of this secretion has not been fully elucidated, and the purpose of the high [K+] in tears with respect to its relationship to the cells of the ocular surface is unknown. The key hypotheses to be addressed are based on these observations: 1) Lacrimal gland ducts express K+ transporters and channels consistent with secretion of K+ by the ducts, 2) UV radiation causes opening of K+ channels and loss of K+ from corneal epithelial cells and this loss of K+ activates apoptotic pathways. 3) Elevating extracellular K+ ([K+]o) prevents activation of apoptotic pathways in lymphocytes. We propose that the lacrimal gland duct cells secrete fluid high in K+, which provides the ocular surface with an extracellular ionic environment that protects these cells from the deleterious effects of ambient levels of ultraviolet (UV) radiation. The relatively high level of K+ in tears prevents the loss of intracellular K+ and the activation of apoptotic mechanisms when ocular surface cells are exposed to UV radiation.
The specific aims of the proposed research are, 1) to determine, using patch clamp recording, whether K+ and Cl- channels, previously identified in lacrimal duct cells by microarrays and confocal microscopy are active in these cells. 2) To determine the role of elevated [K+] in tears, corneal epithelial cells will be exposed to UV radiation in the presence of varying [K+]o followed by measurement of cell viability, activation of apoptotic pathways and activity of ion channels, 3) To determine whether elevating [K+] in culture medium will promote the proliferation and viability corneal epithelial cells in culture. This study of the role of high potassium in tears will elucidate the relationship of the tears to the health of the eye in normal individuals and dry-eye patients. Everyone is exposed to ambient UV radiation and the proposed research will help to explain how the cornea protects the lens and retina from UV radiation while suffering minimal damage. In dry eye disease an inadequate tear film may make the cornea more susceptible to damage by UV radiation, thereby contributing to the disease process. If the high potassium in tears is important for the health of the ocular surface, this information will be useful in the development of improved treatments for dry eye disease. ? ? ?

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
1R01EY018100-01
Application #
7237639
Study Section
Anterior Eye Disease Study Section (AED)
Program Officer
Shen, Grace L
Project Start
2007-06-01
Project End
2010-05-31
Budget Start
2007-06-01
Budget End
2008-05-31
Support Year
1
Fiscal Year
2007
Total Cost
$187,237
Indirect Cost
Name
Calvin College
Department
Biology
Type
Schools of Arts and Sciences
DUNS #
053665980
City
Grand Rapids
State
MI
Country
United States
Zip Code
49546
Kuipers, David P; Scripture, Jared P; Gunnink, Stephen M et al. (2013) Differential regulation of GLUT1 activity in human corneal limbal epithelial cells and fibroblasts. Biochimie 95:258-63
Lin, Yanping; Ubels, John L; Schotanus, Mark P et al. (2012) Enhancement of vitamin D metabolites in the eye following vitamin D3 supplementation and UV-B irradiation. Curr Eye Res 37:871-8
Ubels, John L; Van Dyken, Rachel E; Louters, Julienne R et al. (2011) Potassium ion fluxes in corneal epithelial cells exposed to UVB. Exp Eye Res 92:425-31
Schotanus, Mark P; Koetje, Leah R; Van Dyken, Rachel E et al. (2011) Stratified corneal limbal epithelial cells are protected from UVB-induced apoptosis by elevated extracellular K?. Exp Eye Res 93:735-40
Ubels, John L; Schotanus, Mark P; Bardolph, Susan L et al. (2010) Inhibition of UV-B induced apoptosis in corneal epithelial cells by potassium channel modulators. Exp Eye Res 90:216-22
Singleton, Katherine R; Will, David S; Schotanus, Mark P et al. (2009) Elevated extracellular K+ inhibits apoptosis of corneal epithelial cells exposed to UV-B radiation. Exp Eye Res 89:140-51