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Infect Immun. 1980 December; 30(3): 824-831

Differential Alterations in Host Peripheral Polymorphonuclear Leukocyte Chemiluminescence During the Course of Bacterial and Viral Infections

United States Army Medical Research of Infectious Diseases, Fort Detrick, Frederick, Maryland 21701

ABSTRACT

Previous studies have shown that stimulation of the oxidative metabolism in polymorphonuclear leukocytes (PMN) by in vitro phagocytosis of various microorganisms results in photon emission, termed chemiluminescence (CL). Studies were conducted to determine whether bacterial and viral infections induce enhanced basal endogenous host peripheral PMN CL in the absence of in vitro phagocytic stimulation. Nonimmune rats and guinea pigs as well as immune rats were inoculated with various doses (10⁵ to 10⁷) of live vaccine strain Francisella tularensis (per 100 g of body weight). In addition, nonimmune guinea pigs were inoculated with 40,000 plaque-forming units of Pichinde virus. Luminol-assisted endogenous PMN CL was measured at various time intervals after inoculation of microorganisms. Enhanced endogenous PMN CL was detected as early as the appearance of fever (12 h) in nonimmune animals infected with F. tularensis. Addition of sodium azide, N-ethylmaleimide, superoxide dismutase, or catalase to the CL reaction mixture containing PMN from infected animals significantly decreased the CL response. Immune rats challenged with F. tularensis exhibited resistance to infection and a decreased PMN CL compared with nonimmune rats 24 and 48 h after inoculation. However, the CL response from immune rats was significantly elevated, compared with control values. In contrast to the results obtained with the model bacterial infection, PMN isolated from guinea pigs inoculated with Pichinde virus failed to exhibit enhanced CL, compared with controls, despite significant viremia and fever. Results suggest that enhanced endogenous CL during bacterial infection occurs through mechanisms involving increased PMN oxidative metabolism and the subsequent generation of microbicidal forms of oxygen. Further, measurement of endogenous PMN CL may have diagnostic and prognostic value in infectious diseases.