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  • Title: A role for 12(S)-HETE in the response of human lens epithelial cells to epidermal growth factor and insulin.
    Author: Arora JK, Lysz TW, Zelenka PS.
    Journal: Invest Ophthalmol Vis Sci; 1996 Jun; 37(7):1411-8. PubMed ID: 8641843.
    Abstract:
    PURPOSE: To determine whether the 12-lipoxygenase pathway of arachidonic acid metabolism is present in the human lens and whether 12(S)-hydroxyeicosatetraenoic acid (12(S)-HETE) plays a role in regulating proto-oncogene expression and DNA synthesis in human lens epithelial cells (HLECs). METHODS: Second- and third-passage primary cultures of HLECs were used for analysis. Human cataract epithelia were obtained from surgery. 12-lipoxygenase mRNA was detected by reverse transcription-polymerase chain reaction (RT-PCR), and the PCR product was sequenced. The 12-lipoxygenase protein was detected by immunoblotting. 12(S)-HETE was detected in HLEC-conditioned medium by radioimmunoassay. For studies of growth factor-induced mitogenesis, HLECs were serum starved, then stimulated with 15 ng/ml epidermal growth factor (EGF) and 1 microgram/ml insulin or with 0.3 microM 12(S)-HETE. The 12-lipoxygenase inhibitor, cinnamyl-3,4-dihydroxy-alpha-cyanocinnamate (CDC, 10 microM) was used to block endogenous 12-lipoxygenase activity. Expression of c-fos mRNA was determined by RT-PCR, and DNA synthesis was measured by 3H-thymidine incorporation. RESULTS: 12-lipoxygenase mRNA and protein were detected in HLECs and in human cataract tissues. 12(S)-HETE was released into the medium by HLECs in the presence of EGF-insulin. Stimulation of c-fos mRNA expression and DNA synthesis by EGF-insulin was inhibited when the 12-lipoxygenase pathway was blocked by CDC. This inhibition was reversed completely by exogenously added 12(S)-HETE. However, exogenous 12(S)-HETE was unable to stimulate HLEC DNA synthesis in the absence of growth factors. CONCLUSIONS: The 12-lipoxygenase pathway of arachidonic acid metabolism is present in human lens epithelial cells. 12(S)-HETE does not stimulate HLEC DNA synthesis in the absence of growth factors but enables the cellular response to EGF and insulin.
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