Mass spectrometry as a tool for the selective profiling of destruxins; their first identification in Lecanicillium longisporum.

Mass spectrometry was applied to the identification of the destruxins (dtxs), cyclic peptides that are commonly produced by the fungal insect-pathogen, Metarhizium anisopliae. The aim of the study was to optimise a methodology in order to firstly determine whether these compounds were present in other species and to determine the effect of differing growth conditions upon the dtx content detected. Matrix-assisted laser desorption/ionisation time-of-flight mass spectrometry (MALDI-ToF-MS) was initially used to analyse the dtxs, but limitations were indicated. Nano-scale high-performance liquid chromatography/electrospray ionisation mass spectrometry (HPLC/ESI-MS) and automated 'data-dependent' tandem mass spectrometric (MS/MS) analysis were also applied, utilising characteristic neutral losses during fragmentation to confirm the presence of the dtxs. This latter approach distinguished the dtx E and B isoforms by retention time and diagnostic neutral losses during fragmentation allowing extraction of the destruxin data from a complex dataset. This process revealed the presence of a number of dtxs in the fungal species Lecanicillium longisporum, a species previously not known to produce dtxs, and dtx production in this species was shown to be significantly higher in aerated cultures compared with still cultures.

Characterization and transcriptional profiles of three Spodoptera frugiperda genes encoding cysteine-rich peptides. A new class of defensin-like genes from lepidopteran insects?

The present work describes sequence and transcription of three Spodoptera frugiperda genes encoding 6-cysteine-rich peptides. Sequence alignments indicate that the predicted peptides belong to the insect defensin family, although phylogenetic analyses suggest they form a cluster distinct from that of other neopteran insect defensins. The three genes were identified in a non-immune-challenged Sf9 cells cDNA (DNA complementary to RNA) library (Landais et al., Bioinformatics, in press) and were named spodoptericin, Sf-gallerimycin and Sf-cobatoxin. Spodoptericin is a novel defensin-like gene that appears to be weakly up-regulated following injection of bacteria and fungi. Interestingly, no sequence motif clearly homologous to cis regulatory element involved in the regulation of antimicrobial genes was found. An homologue of the spodoptericin gene was identified in the SilkBase Bombyx mori cDNA library. Sf-gallerimycin is related to the Galleria mellonella gallerimycin gene and is induced after immune challenge by injection of bacteria in the larval fat body as well as in hemocytes. In silico analysis of the sequence upstream from the cDNA reveals the presence of at least one motif homologous to a nuclear factor kappaB (NF-kappaB) binding site. Finally, Sf-cobatoxin is related to the G. mellonella cobatoxin-like gene. Despite high levels of constitutive expression compared to the two previous genes, transcription of Sf-cobatoxin is increased after immune, in particular, bacterial challenge. We therefore confirm that these three genes encode potential candidate molecules involved in S. frugiperda innate humoral response.

Comparative analysis of the production of insecticidal and melanizing macromolecules by strains of Beauveria spp.: in vivo studies.

Eleven strains of Beauveria bassiana, and a further five species of Beauveria sp., were tested by injection of 8x10(2) conidia into the haemocoel of the larvae of the lepidopteran Galleria mellonella with the aim of analysing their toxin producing activity in vivo. Although the virulent strains killed 100% of the insects at slightly different rates (4-6 days) there were significant differences in the pattern and intensity of host melanization caused by isolates. The majority of the isolates of Beauveria spp. induced a fast and intense melanization of the cuticle of the integument and of tracheal wall, which followed one of three patterns. Another small group of two B. bassiana strains, isolated from Ostrinia nubilalis, induced very weak or no melanization. Strains 618 and 101 of B. bassiana, were selected as models of "melanizing" and "non-melanizing" strains, respectively. Ultrastructural alterations of cells of hypodermal and tracheal epithelium and of haemocytes, assumed to be at least partially caused by fungal toxins, were revealed in larvae infected by both isolates. However, their effects on the fine structure of the hypodermis were different. Injection of sera obtained from haemolymph of insects infected with B. bassiana 618 showed that they have insecticidal, melanizing, and cytotoxic effects similar to those occurring during mycosis. Chromatographic studies and bioassays with fractions prepared from crude serum have allowed a partial identification of the toxic molecules secreted by the fungus in vivo. They are proteinaceous, as shown by protease treatments, thermolabile, negatively charged, and not glycosylated with alpha-d-mannose or alpha-d-glucose. If strain B. bassiana 618 produces melanizing macromolecules which are vivotoxins secreted during the mycosis, the mode of action of isolate 101 is different. Its capacity to kill the host depends on active mycelial development, and on the production of low molecular weight toxins.

Hirsutellin A, a toxic protein produced in vitro by Hirsutella thompsonii.

A toxic protein, hirsutellin A, has been purified from the mite fungal pathogen, Hirsutella thompsonii, using ammonium sulphate precipitation, ion exchange chromatography and gel filtration on Bio-Gel P-10. The protein has been characterized as a monomer with a molecular mass of 15 kDa and an isoelectric point of 10.5. The amino acid composition and the N-terminal sequence of hirsutellin A (34 amino acids) have been determined. From these results, the toxin appears to be distinct from other known proteins. It is not glycosylated, and does not show proteolytic activity. The toxin is also antigenic, thermostable and not inactivated by treatments with proteolytic enzymes. Toxicity bioassays showed that injection of larvae of the waxmoth, Galleria mellonella, with hirsutellin A at low dosages [1 microgr toxin (g body wt)-1] caused a high mortality rate. Hirsutellin A was also toxic per os to neonatal larvae of the mosquito Aedes aegypti.

Production in vitro of toxic macromolecules by strains of Beauveria bassiana, and purification of a chitosanase-like protein secreted by a melanizing isolate.

The production of macromolecular insecticidal toxins in Adamek's medium by two selected strains of Beauveria bassiana was investigated. Filtrates and dialysates of the melanizing strain 618 were toxic when injected into the lepidopteran insect Galleria mellonella. Separation by DEAE chromatography revealed that peaks eluted respectively with 100 and 200 mM NaCl (P 100 and P 200) had an insecticidal activity and induced cuticular blackening. A hydrophilic protein, Bclp, which causes the formation of brownish spots of the integument, was purified from P 200 by means of chromatographic and electrophoretic methods. Bclp exhibited clear sequence homologies with fungal chitosanases of Fusarium solani. It has a molecular mass of 28 kDa, a pHI of 4 and is thermolabile. Injection of Bclp causes the same cytoxic effects and alterations of the cuticule as those observed during mycosis, and may contribute to the virulence of strain 618. Comparatively, the most obvious characteristic of the weakly melanizing strain 101 is the lack of significant toxic activity of its P 200, which does not contain Bclp. However, this strain secretes other insecticidal molecules active on lepidopterans, presently unidentified.

Bassiacridin, a protein toxic for locusts secreted by the entomopathogenic fungus Beauveria bassiana.

A toxic protein, bassiacridin, was purified from a strain of the entomopathogenic fungus Beauveria bassiana isolated from a locust, using chromatographic methods. The final toxic fraction contained between 0.1 and 0.3% of the proteins of the crude extract. Bassiacridin showed no affinity for ion exchangers, was characterised as a monomer with a mol. wt of 60 kDa and an isoelectric point of 9.5, and exhibited beta-glucosidase, beta-galactosidase and N-acetylglucosaminidase activities. Injection of fourth instar nymphs of Locusta migratoria with the pure protein at relatively low dosage (3.3 microg toxin g body wt(-1)) caused a rate of mortality near to 50%. The effects of the crude and pure fractions were characterized at tissular and cellular levels. The formation of melanised spots on tracheae and air sacs and of melanised nodules in contact with the fat body was observed in injected locusts. Alterations of the fine structure of epithelial cells of tracheae, air bags, and integument were also revealed. The insecticidal protein showed a specific activity against locusts. Bassiacridin is different from the other macromolecular toxins of entomopathogenic fungi already described. Microsequencing of peptides generated by trypsic digestion of bassiacridin confirmed that it is a novel molecule and showed that it exhibits a probably limited similarity with a chitin binding protein from yeast.

Effects of the peptide mycotoxin destruxin E on insect haemocytes and on dynamics and efficiency of the multicellular immune reaction.

Destruxins (DTXs) are cyclic peptide toxins secreted by the entomopathogenic fungus Metarhizium anisopliae var. anisopliae. The effects of DTX E, the most active compound of this family on haemocytes, the immunocompetent insect cells, and on the dynamics and efficacy of the multicellular defense of insect hosts have been investigated. Ultrastructural alterations have been observed in circulating plasmatocytes and granular haemocytes, and in attached haemocytes of Galleria mellonella larvae treated with a toxic dose of DTX E (LC50). These changes appear as a consequence of disturbances induced in the cellular calcium balance. An effect on the cell surface of granulocytes was also noted in cells incubated with the toxin and FITC-Con A, even when the concentration of DTX was as low as 0.005 microg/ml. Morphological studies of haemocytic capsules formed in vivo revealed disturbances of the multicellular defense mechanism after toxin treatment However, an attempt to establish if these changes were significant was unsuccessful. In contrast, comparative assays regarding the effect of toxin treatment on the efficacy of the antifungal effect of encapsulation has given conclusive results. The germination of injected Aspergillus niger spores became slightly but significantly increased, and when the granuloma were incubated the fungus escaped more easily from the haemocytic envelope. These results are discussed in terms of significance of the contribution of DTXs to the fungal infection process. It is suggested that the fungal peptides may intervene during the disease by a true immune-inhibitory effect occurring at doses which do not cause paralysis or any general sign of toxicity (e.g., 0.8 microg/g of body weight).

Effect of liquid culture media on morphology, growth, propagule production, and pathogenic activity of the Hyphomycete, Metarhizium flavoviride.

Two isolates of Metarhizium spp. were studied for propagule production, because of their pathogenic activity towards locusts and grasshoppers (Mf189 = M. flavoviride (or M. anisopliae var. acridum) strain IMI 330189, and Mf324 = M. flavoviride strain ARSEF324). Both isolates were grown in seven different liquid media, which have been developed for mass production of various Hyphomycetes, considered as candidates for microbial control of noxious insects. Shake-flask experiments were carried out at 28 degress C in the dark. Production was quantified for 72 h and the effects of the tested media were evaluated on propagule concentration, morphology and pathogenicity. Based on preliminary experiments, all tested media were supplemented with 0.4% Tween 80 to avoid the formation of pellets and to produce unicellular propagules. Submerged propagule yields were higher with Mf189 than with Mf324 in all seven media. While high concentrations of propagules (1.4 to 2.4 x 10(8) propagules ml(-1) for MF189 and 1.4 to 8.3 x 10(7) propagules ml(-1) for Mf324) were produced in four media (Adamek, Catroux, Jackson, and Jenkins-Prior media), production of propagules was lower in the three other media (Goral, Kondryatiev, and Paris media). Both isolates produced oblong blastospore-like propagules, except in Kondryatiev medium in which they provided ovoid propagules. In this case, Mf189 submerged propagules looked like aerial conidia, but scanning observations did not demonstrate a typical conidiogenesis via phialides. In Kondryatiev medium, Mf324 submerged propagules were significantly smaller than aerial conidia. Infection potential of submerged propagules was assayed on Schistocerca gregaria. Second-instar larvae fed for 48 h on fresh wheat previously contaminated by a spraying suspension of each inoculum titrated at 10(7) propagules ml(-1). All seven media produced submerged propagules that were highly infectious for S. gregaria larvae. Shake flask culture assays permitted us to select three low-costmedia, Adamek, Jenkins-Prior, and Catroux for improving scale-up of liquid fermentation focused on mass-production of Metarhizium propagules for mycoinsecticides devoted to locust control.