Role of 15S-lipoxygenase 2 in human corneal epithelium
Chang, Min S.   
Vanderbilt University Medical Center, Nashville, TN, United States

The arachidonic acid cascade, in particular the cyclooxgenase pathways, have been implicated the corneal epithelial cell proliferation. Recently, we have cloned a new human lipoxygenase, 15S-lipoxygenase-2, which is expressed in human tissue largely of epithelial component including the cornea. This is the second known human 15S-lipoxygenase. As implied by their names, the two human 15S-lipoxygenases make the same product, 15S-HETE. However, they exhibit significantly different catalytic activities and different product profiles; 15S-lipoxygenase-1 (1 5SLOX-1) catalyzes the formation of a mixture of products, 15S-HETE (80%) and 12S-HETE (20%). When the corneal epithelium from a noninflamed eye is incubated with arachidonic acid, the main the product formed is 15S-HETE indicating that 15-LOX-2 is the predominate pathway of arachidonic acid cascade in the normal cornea. Furthermore, our immuno-localization studies in human cornea have demonstrated 15-LOX-2 expression only in the basal layer of the epithelium and the in the limbal region, sites of mitotic activity. As the corneal epithelial becomes more terminally differentiated, there is a loss of 15-LOX-2 expression. These results taken together indicate that 15-LOX-2 also has a role in corneal epithelial cell proliferation and/or differentiation. Whether the cyclooxygenase pathways and the 15LOX-2 pathway function independently or are intertwined is not known. Potential common mediators are the peroxisome proliferator-activated receptor (PRAR). PPARs are inducible transcription factors, which have been described in the corneal epithelium and known to directly activate a number of genes involved in lipid homeostasis, inflammation, and epithelial cell differentiation. Products of 15-LOX-2 and cyclooxygenase have been shown to be natural ligands for PPARs. From these observations, we hypothesize that 15-LOX-2 is important in maintenance of the human cornea by regulation of epithelial cellular proliferation and/or differentiation and its effects are mediated by PPARs.