Azelastine is more potent than olopatadine n inhibiting interleukin-6 and tryptase release from human umbilical cord blood-derived cultured mast cells.

BACKGROUND: Mast cells are involved in early- and late-phase reactions by releasing vasoactive molecules, proteases, and cytokines. Certain histamine-1 receptor antagonists and other antiallergic drugs seem to inhibit the release of mediators from rat and human mast cells. OBJECTIVE: Azelastine and olopatadine are antiallergic agents present in the ophthalmic solutions azelastine hydrochloride (Optivar, Asta Medica/Muro Pharmaceuticals, Tewksbury, MA), and olopatadine hydrochloride (Patanol, Alcon Laboratories, Fort Worth, TX), respectively. We investigated the effect of these drugs on interleukin-6 (IL-6), tryptase, and histamine release from cultured human mast cells (CHMCs). METHODS: CHMCs were grown from human umbilical cord blood-derived CD34+ cells in the presence of stem cell factor and IL-6 for 14 to 16 weeks. Sensitized CHMCs were pretreated with various concentrations of azelastine or olopatadine for 5 minutes. CHMCs were then challenged with anti-immunoglobulin E, and the released mediators were quantitated. RESULTS: The greatest inhibition of mediator release was seen with 24 microM azelastine; this level of inhibition was matched with the use of 133 microM olopatadine. At this concentration, these drugs inhibited IL-6 release by 83% and 74%, tryptase release by 55% and 79%, and histamine release by 41% and 45%, respectively. Activated CHMCs were characterized by numerous filopodia that were inhibited by both drugs as shown by electron microscopy. CONCLUSIONS: These results indicate that azelastine and olopatadine can inhibit CHMCs activation and release of IL-6, tryptase, and histamine. On an equimolar basis, azelastine was a more potent inhibitor than olopatadine.

Azelastine's inhibition of histamine and tryptase release from human umbilical cord blood-derived cultured mast cells as well as rat skin mast cell-induced vascular permeability: comparison with olopatadine.

Mast cells are involved in early and late-phase reactions by releasing vasoactive molecules, proteases, and cytokines. Azelastine and olopatadine are histamine 1 receptor (H-1R) antagonists with antiallergic effects present in the ophthalmic solutions Optivar and Patanol, respectively. Because it is difficult to obtain animal or human conjunctival tissue, we first investigated the effect of these compounds on histamine and tryptase release from cultured human mast cells (CHMCs) grown out of human umbilical cord blood-derived CD34+ cells. Sensitized CHMCs were pretreated with various concentrations of azelastine or olopatadine for 5 minutes. Then, CHMCs were challenged with anti-immunoglobulin E (IgE) and the released mediators were quantitated. The greatest inhibition of mediator release was seen when CHMCs were pretreated with 24 microM of azelastine or 133 microM of olopatadine (2% dilution of azelastine or 5% olopatadine original ophthalmic solutions, respectively). We then studied the drug concentrations that gave optimal results on skin vasodilation induced by the mast cell secretagogue compound 48/80. An intradermal injection of 48/80 in rats, to which Evan's blue had been administered via the tail vein, induced substantial dye extravasation. Pretreatment of the injection site for 5 minutes with either 24 microM of azelastine or 133 microM of olopatadine completely prevented extravasation; this effect was quantitated also by fluorometric assessment of Evan's blue extracted in formamide. Evaluation of skin mast cells from injected sites showed that mast cell degranulation was inhibited greatly. These results indicate that on an equimolar basis, azelastine was a more potent inhibitor than olopatadine of both CHMC and rat skin mast cells activation.