Monensin disruption of neutrophil granule genesis

The Na+/H+ ionophore monensin (M) has been used widely to study intracellular pH gradients and acidic subcellular compartments. In the present study, cultured myeloid leukemia HL60 cells, directly sampled bone marrow cells, and peripheral blood neutrophils were exposed to 1-5 microM monensin for 0.5-20 hours. The effects were evaluated using ultrastructural, cytochemical, and biochemical methods. In HL60 cells and marrow promyelocytes treated with monensin, progressive vacuolation of the trans then the cis Golgi was observed. These vacuoles lacked diaminobenzidine (DAB) reactive peroxidase, high iron diamine (HID) reactive sulfated glycoconjugates, and periodate-thiocarbohydrazide-silver proteinate (PA-TCH-SP) reactive vicinal glycol containing complex carbohydrates, but some cis Golgi elements retained osmium zinc iodide reactive reducing groups. The number of normal intensely stained HID reactive granules decreased and an incomplete granule that was DAB-positive/HID-negative, PA-TCH-SP-negative with flocculent matrix density increased in frequency as a function of time and concentration of monensin. Treatment of HL60 cells with monensin markedly reduced 35SO4 incorporation but myeloperoxidase labeling and activity per cell remained constant, although it shifted to lower density granule fractions consistent with the persistent DAB staining of endoplasmic reticulum and synthesis of a DAB-positive, HID-negative granule in intact HL60 cells. The Golgi complex of monensin-treated myelocytes and segmented neutrophils was also vacuolated. A subpopulation of preformed primary granules in promyelocytes, myelocytes, and segmented neutrophils appeared to increase in size and peripheral or central electron lucency. These selective effects of monensin indicate that granule components may be packaged into DAB-positive organelles that are deficient in trans Golgi-derived elements (HID- and PA-TCH-SP-negative) and that some preformed primary granules contain a monensin sensitive Na+/H+ gradient.