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  1. 2 Folia Biologica

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  2. 1 1999

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  1. 2 Andrejko M.

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1

Exoproteinases of the type A in pathogenesis of insect bacterial diseases

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Andrejko M.
Folia Biologica
|
1999
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vol. 47
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issue 3-4
135-141
EN
Immune inhibitors produced in infected larvae of Galleria mellonella by such entomopathogens as Pseudomonas aeruginosa, Serratia marcescens and Heterorhabditis bacteriophora effectively blocked in vitro bactericidal activity of insect haemolymph against Escherichia coli D31, both in Galleria mellonella and Pieris brassicae pupae previously vaccinated with Enterobacter cloacae. Even at a trace concentration, the extracellular proteinases, by proteolytic degradation, totally destroyed the activity of cecropin peptides from Galleria and cecropin-like and attacin-family proteins from Pieris, but no ability to destroy antibacterial activity was shown by extracts obtained from Galleria larvae killed by massive doses of bacterial saprophytes. It is suggested that by blocking antibacterial immune response of the host, the proteinases help the bacteria to multiply in the haemolymph, thus they could be considered an important factor in the pathogenesis of bacterial diseases of insects.
2

Effect of Pseudomonas aeruginosa crude proteolytic fraction on antibacterial activity of Galleria mellonella Haemolymph

100%
Andrejko M.
|
EN
The antibacterial activity of immune haemolymph Galleria mellonella directed against Escherichia coli D31 was destroyed by Pseudomonas aeruginosa crude proteolytic fraction. This was demonstrated by diffusion well assay and acid gel electrophoresis and subsequent bioautography. On the contrary, lysozyme activity appeared to be insensitive to extracellular proteases of P. aeruginosa when activity was determined using the bioautography method. In addition, no change in lysozyme protein level was observed by immunoblotting with specific antibodies directed against G. mellonella lysozyme, which confirmed that lysozyme was not degraded by the crude proteolytic fraction of P. aeruginosa. However, a significant decrease of lysozyme activity in naive and immune haemolymph exposed to the action of P. aeruginosa proteins determined by using diffusion well assay was observed. Mechanisms of the observed inhibition require further studies.
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