Effect of Ethanol on Functions Required for the Delivery of Neutrophils to Sites of Inflammation

Abstract

Acute ethanol intoxication inhibits neutrophil delivery to sites of inflammation and, concomitantly, reduces the adhesion of neutrophils to surfaces. The effect of ethanol on several other neutrophil functions required for normal delivery are examined herein. Serum-free neutrophil suspensions showed normal resting adherence to endothelial monolayers in ethanol concentrations up to 1000mg/dL, but when neutrophils were stimulated by 1O^-6M N-formyl-l-methionyl-l-leucyl-l-phenylalanine (fMLP) to induce hyperadherence, ethanol induced a dose-dependent inhibition that was significant at concentrations ⩾ 500 mg/dL. Pretreating the endothelium with ethanol had no effect. Similarly, resting surface expression of the adhesive glycoprotein Mac-1 was unaffected by ethanol, but its up-regulation induced by fMLP was inhibited by 25.5% at 250 mg of ethanol/dL and by 52.3% at 1000mg/dL. Release of both primary and secondary granule contents after activation showed dose-dependent inhibition, whereas resting granule content and spontaneous release were unaffected. Passive neutrophil deformability was significantly enhanced in 500 mg of ethanol/dL. Thus, ethanol affects several neutrophil delivery functions normally activated by inflammatory stimuli.