Leukotriene D4‐induced increases in the cytoplasmic pH of human myelocytic leukocytes

Abstract

The effects of leukotriene D₄ on the intracellular pH of human myelocytes, derived from cultured HL‐60 cells by dimethylsulfoxide‐induced differentiation, were quantified with the fluorescent indicator 2′,7′‐bis‐(2‐carboxy‐ethyl)‐5,6‐carboxyfluorescein. Leukotriene D₄, but not C₄ or E₄, increased intracellular pH optimally by 3 min with a half‐maximal effect at 1–2 nM. The increases in intracellular pH stimulated by leukotriene D₄ were prevented by pretreatment of myelocytes with leukotriene D₄ but not peptide chemotactic factors. Analogs of amiloride that inhibit selectively the Na⁺/H⁺ antiport also prevented the intracellular alkalinization induced by leukotriene D₄. The rate of recovery of intracellular pH after an acid load with 30 mM sodium propionate was approximately 30% higher at each level of intracellular pH for myelocytes exposed to leukotriene D₄ than for those challenged in buffer alone. The increase elicited by leukotriene D₄ in the adherence of myelocytic leukocytes to surfaces thus is associated with an enhanced sensitivity of the Na⁺/H⁺ antiport to intracellular pH, that is, not coupled to an earlier rise in the cytosolic level of Ca⁺².