The role of bacterial symbionts in suppressing the defence reaction in larval hemolymph of the cotton leafworm Spodoptera littoralis (Biosd.)

Abstract

Spodoptera littoralis hemolymph exhibited a decrease in phenoloxidase activity during the first hour of exposure to alive or dead Xenorhabdus nematophilus and Photorhabdus luminescens even in the presence or absence of laminarin and α-chymotrypsin. Also, as the bacterial numbers in the hemolymph of the larvae of S. littoralis increased, the suppression of the enzyme, phenoloxidase, activity in vivo increased. On the other hand, in the in vitro incubation of the infected hemolymph with X. nematophilus for 30 min with laminarin, the decrease in phenoloxidase activity reached 92% in the infection with the highest dose (1 × 10¹⁰ cells/ml) live bacteria, and reached 100% at the same dose in the infection with live bacteria in the absence of laminarin. A two-fold decrease in enzyme activity was recorded in the case of injection of (1 × 10⁶ cells/ml) dead X. nematophilus and the absence of laminarin compared with injection of the same dose in the presence of laminarin. The same trend was also observed by the end of incubation of X. nematophilus-treated hemolymph without α-chymotrypsin. The decrease in phenoloxidase activity was highly significantly different in injection of dead P. luminescens and the absence of laminarin during incubation. In the case of injection of (1 × 10⁸ cells/ml) live P. luminescens a higher degree in the reduction of enzyme activity was recorded in the absence of α-chymotrypsin, where it reached to nearly a two-fold decrease. The results of these studies indicated that both X. nematophilus and P. luminescens alive or dead suppress the phenoloxidase activity in the presence or absence of both laminarin and α-chymotrypsin but, the suppression in absence of both during the in vitro incubation was highly comparable.