Phagocytosis and nodule formation by hemocytes of Manduca sexta larvae following injection of Pseudomonas aeruginosa

Abstract

The time course of clearance of an injected dose of 10 6 CFU ml −1 hemolymph of Pseudomonas aeruginosa ATCC 9027 in larvae of the tobacco hornworm, Manduca sexta, has been examined in detail. The clearance process has been subdivided into three stages during which the rates of reduction in concentration of circulating viable bacteria were clearly different. Contributions of hemocyte reactions to bacterial clearance were examined during stages I and II. During stage I (0–2 hr postinoculation (PI), nodule formation produced a dramatic reduction in circulating bacteria by entrapping over 90% of the injected dose in the first 30 min. Phagocytosis of bacteria by circulating hemocytes and subsequent intracellular digestion contributed significantly to reductions in circulating bacteria during stage II (2–8 hr PI). Viable cells of the virulent P. aeruginosa P11-1 were trapped in nodules as efficiently as the less virulent 9027 during the first 30 min after injection into M. sexta. Bacteria of strain P11-1 were also phagocytosed by hemocytes during stage II, however, phagocytosed bacteria were observed less frequently in P11-1-treated insects and intracellular digestion of these bacteria was only rarely observed. The increased virulence of P11-1 in larvae of M. sexta may be due to less efficient phagocytosis by circulating hemocytes and to insensitivity of this strain to killing reactions in nodules and following phagocytosis.