Abstract
Moxifloxacin is useful in the treatment of respiratory infections, including community-acquired pneumonia, and also shows promise in the treatment of tuberculosis, a clinical setting which necessitates extended administration of this agent. Relatively little is known, however, about the effects of this agent on the antimicrobial and proliferative activities of human neutrophils and T-lymphocytes, respectively. In the current study, we have investigated the effects of moxifloxacin at therapeutic concentrations and greater (1–20 µg/mL) on cytosolic Ca2+ fluxes, generation of antimicrobial reactive oxygen species (ROS), and release of the primary granule protease, elastase, following activation of the cells with the chemoattractant, fMLP (1 µM), or the phorbol ester, PMA (25 ng/mL), using radiometric, chemiluminescence, and colourimetric procedures, respectively. The effects of moxifloxacin on mitogen-activated proliferation of T cells and expression of the interleukin-2 (IL-2) receptor (CD25) were measured using radiometric and flow cytometric procedures respectively. With the exception of elastase release, which was significantly increased (P < 0.05) by treatment of the cells with moxifloxacin at 10 and 20 µg/mL, none of the other neutrophil or lymphocyte functions was affected by moxifloxacin. These observations suggest that extended use of this agent is unlikely to compromise the protective functions of neutrophils and T-lymphocytes and may even potentiate neutrophil-mediated antimicrobial activity by increasing the release of elastase.
Highlights
Most antibiotics interact cooperatively with the innate and adaptive immune defences of the infected host by weakening microbial pathogens, rendering them vulnerable to immune-mediated elimination [1]
Effects of Moxifloxacin on Lucigenin- and Luminol-enhanced Chemiluminescence Responses of Neutrophils Activated with fMLP or PMA. These results for fMLP- and PMA-activated neutrophils are shown in Tables 1a and 1b for lucigenin- and luminol-enhanced chemiluminescence responses respectively
Moxifloxacin did not affect oxidant generation by either fMLP- or PMA-stimulated neutrophils
Summary
Most antibiotics interact cooperatively with the innate and adaptive immune defences of the infected host by weakening microbial pathogens, rendering them vulnerable to immune-mediated elimination [1]. Especially in the case of bactericidal antimicrobial agents, antibiotic-mediated disintegration of bacteria results in the release of pro-inflammatory cell wall components and intracellular toxins, posing the risk of inflammation-mediated damage to host tissues [2]. Notwithstanding, these direct interactions between antibiotics and bacteria, some classes of antibiotic, albeit relatively few, possess anti-inflammatory properties, mainly beneficial, which are achieved via their direct interactions with cells of the host immune system. In the case of community-acquired pneumonia many guidelines, such as those of the Infectious Diseases
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