PURPOSE: To investigate whether conjunctival epithelial cells express transport processes for opioid peptides. METHODS: We monitored the uptake of [(3)H]deltorphin II and [(3)H]DADLE, two hydrolysis-resistant synthetic opioid peptides, in the rabbit conjunctival epithelial cell line CJVE and elucidated the characteristics of the uptake process. RESULTS: CJVE cells express robust uptake activity for deltorphin II and DADLE. Both opioid peptides compete with each other for transport. Several endogenous and synthetic opioid peptides, but not non-peptide opioid antagonists, are recognized by the transport process. Though various peptides inhibit the uptake of deltorphin II and DADLE in a similar manner, the uptake of deltorphin II is partly Na(+)-dependent whereas that of DADLE mostly Na(+)-independent. The transport process shows high affinity for many endogenous/synthetic opioid peptides. Functional features reveal that this transport process may be distinct from the opioid peptide transport system described in the retinal pigment epithelial cell line ARPE-19 and also from the organic anion transporting polypeptides, which are known to transport opioid peptides. CONCLUSIONS: CJVE cells express a novel, hitherto unknown transport process for endogenous/synthetic opioid peptides. This new transport process may offer an effective delivery route for opioid peptide drugs to the posterior segment of the eye.
PURPOSE: To investigate whether conjunctival epithelial cells express transport processes for opioid peptides. METHODS: We monitored the uptake of [(3)H]deltorphin II and [(3)H]DADLE, two hydrolysis-resistant synthetic opioid peptides, in the rabbit conjunctival epithelial cell line CJVE and elucidated the characteristics of the uptake process. RESULTS: CJVE cells express robust uptake activity for deltorphin II and DADLE. Both opioid peptides compete with each other for transport. Several endogenous and synthetic opioid peptides, but not non-peptide opioid antagonists, are recognized by the transport process. Though various peptides inhibit the uptake of deltorphin II and DADLE in a similar manner, the uptake of deltorphin II is partly Na(+)-dependent whereas that of DADLE mostly Na(+)-independent. The transport process shows high affinity for many endogenous/synthetic opioid peptides. Functional features reveal that this transport process may be distinct from the opioid peptide transport system described in the retinal pigment epithelial cell line ARPE-19 and also from the organic anion transporting polypeptides, which are known to transport opioid peptides. CONCLUSIONS: CJVE cells express a novel, hitherto unknown transport process for endogenous/synthetic opioid peptides. This new transport process may offer an effective delivery route for opioid peptide drugs to the posterior segment of the eye.
Authors: G A Kullak-Ublick; M G Ismair; B Stieger; L Landmann; R Huber; F Pizzagalli; K Fattinger; P J Meier; B Hagenbuch Journal: Gastroenterology Date: 2001-02 Impact factor: 22.682
Authors: Paresh P Chothe; Santoshanand V Thakkar; Jaya P Gnana-Prakasam; Sudha Ananth; David R Hinton; Ram Kannan; Sylvia B Smith; Pamela M Martin; Vadivel Ganapathy Journal: Invest Ophthalmol Vis Sci Date: 2009-07-30 Impact factor: 4.799
Authors: Paresh P Chothe; Jaya P Gnana-Prakasam; Sudha Ananth; Pamela M Martin; Ram Kannan; David R Hinton; Sylvia B Smith; Vadivel Ganapathy Journal: Biochem Biophys Res Commun Date: 2011-01-08 Impact factor: 3.575