Changes in the circulating hemocyte population of Manduca sexta larvae following injection of bacteria |
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Authors: | David W. Horohov Peter E. Dunn |
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Affiliation: | Department of Entomology, Purdue University, West Lafayette, Indiana 47907 USA |
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Abstract: | A technique for the collection of stable hemolymph from larvae of Manduca sexta has been developed. The method avoids the cell clumping and melanization reactions commonly encountered with insect hemolymph by minimizing contact between hemocytes and surfaces which provoke defensive or repair responses. The circulating hemocyte population of second-day, fifth-instar larvae (2dL5) of M. sexta consisted of 4.5 ± 2.5 × 106 cells/ml (n = 15, range 2–7 × 106 cells/ml) and contained five cell types: prohemocytes, plasmatocytes, granulocytes, spherulocytes, and oenocytoids. Two strains of Pseudomonas aeruginosa which differ in pathogenicity (P11-1 and 9027) and Escherichia coli D31 grew well at 26°C in cell-free hemolymph prepared from naive (nonimmunized) 2dL5 M. sexta. When viable cells of any of the three bacteria were injected into M. sexta larvae, changes in both the total hemocyte count (THC) and differential hemocyte count were observed. Viable bacteria were not required to produce these changes since formalin-killed cells of P. aeruginosa 9027 produced a qualitatively and quantitatively similar response. Following injection of bacteria, the THC increased, reaching a maximal level at 1 hr postinjection, and remained elevated for at least 4 hr after injection. While prohemocytes, plasmatocytes, granulocytes, and spherulocytes all increased in number, 80% of the increased cell population at 1 hr postinjection of bacteria were the latter two cell types. Granulocytes and spherulocytes are cells with recognized defensive capabilities. The increased numbers of these cells in circulation soon after injection of bacteria may confer an advantage on M. sexta larvae in dealing with bacterial infections. This could explain in part the unusual resistance of M. sexta to certain bacterial pathogens. |
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Keywords: | Pseudomonas aeruginosa Escherichia coli insect immunology |
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