Richard Ian Samuels

The role of destruxins in the pathogenicity of 3 strains of Metarhizium anisopliae for the tobacco hornworm Manduca sexta

Three out of 4 isolates of the Deuteromycete Metarhizium anisopliae were pathogenic for larvae of the tobacco hornworm, Manduca sexta. The most virulent isolate (ME1) grew sparsely in the insect prior to death and caused paralysis of its host. The other 2 pathogenic isolates killed Manduca larvae more slowly, grew profusely in the haemolymph and did not induce symptoms of toxicosis. Toxicosis is apparently due to the production by the fungus of several cyclodepsipeptide toxins, destruxins (DTX). ME1 produced large quantities of DTX in vitro, while other isolates produced less. Destruxin A (DTX A) was recovered from the haemolymph of paralysed, diseased insects infected with ME1, but not with other isolates. It is suggested that DTX may have a ‘pathogenic role’, when the toxins are active in causing disease, or an ‘aggressive role’, when they facilitate the establishment of the pathogen.

Physiology and Biochemistry of Insect Moulting Fluid

Publisher Summary This chapter discusses the physiology and biochemistry of insect moulting fluid. The chapter focuses on the developmental programme of moulting towards the synthesis of the new cuticle. The degradation of the old cuticle by moulting fluid is an essential part of the moulting process that has been much less intensively studied. The processes of secretion, activation, enzymic action, and resorption of insect moulting fluid have parallels elsewhere in animal physiology and biochemistry. It is discussed that the action of the moulting fluid in degrading an extracellular matrix is a useful model for connective tissue remodelling and some types of inflammation in mammals. The simple spatial arrangement of the cells that secrete the moulting fluid, the fluid itself and the matrix that is attacked might be particularly helpful in this regard. The accessibility of the moulting fluid for sampling; the predictable sequence of the moulting fluid secretion, activation and resorption; and its regulation by hormones may also offer an unparalleled experimental opportunity for the student of connective tissue degradation. Moreover, since disruption of moulting is a proven method of killing insects, more attention devoted to the study of the moulting fluid physiology and biochemistry might lead to the discovery of novel safer methods of insect pest control.

Cuticle degrading proteases from insect moulting fluid and culture filtrates of entomopathogenic fungi.

Insects degrade their own cuticle during moulting, a process which is catalysed by a complex mixture of enzymes. Entomopathogenic fungi infect the insect host by penetration of the cuticle, utilizing enzymatic and/or physical mechanisms. Protein is a major component of insect cuticle and a major recyclable resource for the insect and, therefore, represents a significant barrier to the invading fungus. To this end, both insects and entomopathogenic fungi produce a variety of cuticle degrading proteases. The aim of this paper is to review these proteases and to highlight their similarities, with particular reference to the tobacco hornworm, Manduca sexta, and the entomopathogenic fungus, Metarhizium anisopliae.

Calcium channel activation of insect muscle by destruxins, insecticidal compounds produced by the entomopathogenic fungus Metarhizium anisopliae

Abstract 1. 1. Destruxins (DTX) are cyclic depsipeptide toxins produced by the entomopathogenic fungus Metarhizium anisopliae . Their action was investigated in the tobacco hornworm, Manduca sexta . 2. 2. Injection of DTX resulted in immediate tetanic paralysis due to sustained muscle contraction, followed by flaccid paralysis. Contractions were abolished by CdCl 2 and nifedipine. 3. 3. Dissection of DTX poisoned larvae revealed that the muscle membrane potential (E m ) was depolarized to ca −20 mV (control ca −60 mV). Perfusion of DTX over semi-isolated body wall muscle immediately depolarized the membrane. 4. 4. Use of calcium channel blockers or removal of Ca and Mg from the saline prevented DTX-induced depolarization, suggesting that DTX directly or indirectly opens endogenous Ca channels within the muscle membrane.

Symbiotic bacteria on the cuticle of the leaf-cutting ant Acromyrmex subterraneus subterraneus protect workers from attack by entomopathogenic fungi.

Although only discovered in 1999, the symbiotic filamentous actinobacteria present on the integument of certain species of leaf-cutting ants have been the subject of intense research. These bacteria have been shown to specifically suppress fungal garden parasites by secretion of antibiotics. However, more recently, a wider role for these bacteria has been suggested from research revealing their generalist anti-fungal activity. Here we show, for the first time, evidence for a role of these bacteria in the defence of young worker ants against a fungal entomopathogen. Experimental removal of the bacterial bio-film using an antibiotic resulted in a significant increase in susceptibility of worker ants to infection by the entomopathogenic fungus Metarhizium anisopliae. This is the first direct evidence for the advantage of maintaining a bacterial bio-film on the cuticle as a defensive strategy of the ants themselves and not exclusively for protection of the fungus garden.

The combination of the entomopathogenic fungus Metarhizium anisopliae with the insecticide Imidacloprid increases virulence against the dengue vector Aedes aegypti (Diptera: Culicidae)

BackgroundDengue fever transmitted by the mosquito Aedes aegypti, is one of the most rapidly spreading insect borne diseases, stimulating the search for alternatives to current control measures. The dengue vector A. aegypti has received less attention than anophelene species, although more than 2.5 billion people are at risk of infection worldwide. Entomopathogenic fungi are emerging as potential candidates for the control of mosquitoes. Here we continue our studies on the pathogenicity of the entomopathogenic fungus Metarhizium anisopliae against adult A. aegypti females. With the aim of further reducing mean survival times of A. aegypti exposed to fungus impregnated surfaces, a sub-lethal concentration of the neonicotinoid insecticide Imidacloprid (IMI) was added to fungal suspensions.ResultsA sub-lethal concentration of IMI that did not significantly alter the daily survival rates or mean survival percentages of mosquitoes was identified to be 0.1 ppm. This sub-lethal concentration was combined with M. anisopliae conidia (1 × 109 conidia mL-1). Both the combined treatment and the conidia alone were able to reduce the survival of A. aegypti compared with untreated or IMI treated mosquitoes. Importantly, mosquito survival following exposure to the combined treatment for 6 and 12 hrs was significantly reduced when compared with mosquitoes exposed to conidia alone.ConclusionsThis is the first time that a combination of an insecticide and an entomopathogenic fungus has been tested against A. aegypti. Firstly, the study showed the potential of IMI as an alternative to the currently employed pyrethroid adulticides. Secondly, as an alternative to applications of high concentrations of chemical insecticides, we suggest that adult A. aegypti could be controlled by surface application of entomopathogenic fungi and that the efficiency of these fungi could be increased by combining the fungi with ultra-low concentrations of insecticides, resulting in higher mortality following relatively short exposure times.

A cuticle-degrading proteinase from the moulting fluid of the tobacco hornworm, Manduca sexta.

Moulting fluid of pharate adult tobacco hornworm moths, Manduca sexta, contains a novel cuticle-degrading proteinase, designated as MFP-1. The enzyme has been purified using heparin affinity chromatography and partially characterized. Before purification MFP-1 is associated with a large complex having an apparent native molecular mass > 669 kDa. After purification MFP-1 has a molecular mass of 41 kDa. The pI of the enzyme is 5.54. MFP-1 can be classified as generally trypsin-like on the basis of its substrate specificity and inhibition by soybean trypsin inhibitor. The enzymes preferred substrate, Tos-Gly-Pro-Arg-pNA, its inhibition by hirudin, and its affinity for heparin, all indicate that MFP-1 has some characteristics in common with the vertebrate blood-clotting enzyme thrombin. MFP-1 is probably a serine protease, since it is inhibited by both DFP and PMSF (specific inhibitors of serine proteinases). However, the enzyme was also inhibited by a number of agents that affect cysteine proteinases. Purified MFP-1 degrades Manduca cuticle in vitro. We suggest that the enzyme may act as the first step in the degradation of the cuticle during the moulting process.

Susceptibility of adult Aedes aegypti (Diptera: Culicidae) to infection by Metarhizium anisopliae and Beauveria bassiana: prospects for Dengue vector control

Abstract Dengue fever vectored by the mosquito Aedes aegypti is one of the most rapidly spreading insect-borne diseases, stimulating the search for alternatives to current control methods. Screening assays using a range of Metarhizium anisopliae and Beauveria bassiana isolates were performed against adult female Ae. aegypti. Four virulent isolates were selected for detailed study. Adult female mosquitoes were exposed to supports previously inoculated with fungal suspensions. Fungal isolates were suspended in Tween 80+8% vegetable oil. The isolates caused between 70 and 89% mortality as a result of fungal infection over the 7-day test period. Mean survival times varied between 3 and 5 days for treated insects, whilst control survival exceeded 40 days. The most promising isolate, M. anisopliae LPP133, based not only on virulence but facility for mass production, was used for lethal exposure time determinations. An exposure time of only 3.5 h was necessary to cause 50% mortality. Large cage trails were also carried out and mean survival time of insects exposed to fungus impregnated black cloths was significantly reduced. These results show that entomopathogenic fungi could be promising biological control agents for use against adult Ae. aegypti, by inoculating fungi onto surfaces on which the mosquitoes tend to rest. The subsequent mortality caused by the fungi could potentially reduce the populations of this insect thus reducing the incidence of Dengue.

Efficacy of Heterorhabditis baujardi LPP7 (Nematoda: Rhabditida) applied in Galleria mellonella (Lepidoptera: Pyralidae) insect cadavers to Conotrachelus psidii, (Coleoptera: Curculionidae) larvae

Abstract The guava weevil, Conotrachelus psidii, is a major pest of guava in Brazil causing severe reduction in fruit quality. We assessed its susceptibility to Heterhorhabditis baujardi LPP7 infective juveniles (IJs) in the greenhouse and under field conditions applying the nematodes in cadavers of seventh instar Galleria mellonella larvae. Field persistence of these nematodes in the soil was evaluated through G. mellonella-baiting. Insect cadaver concentrations of 2, 4 and 6 applied in pots in the greenhouse experiment caused significant mortality compared to the control. Significance differences were observed in the field between control and treatments only when six cadavers per 0.25 m2 were applied. Infective juveniles from the cadavers persisted 6 weeks after application in the field, but decreased greatly thereafter. Our work demonstrates that H. baujardi LPP7 IJs emerging from G. mellonella cadavers can be efficacious against guava weevil fourth instar larvae. Also, we demonstrated the long-term persistence of IJs in the soil.

Hydrolytic enzymes of leaf-cutting ant fungi.

The production of enzymes and the colonization of leaves by Leucoagaricus gongylophorus were investigated to further understand the digestive interactions of leaf-cutting ant colonies. The enzymes detected were indicative of a saprophytic origin of this fungus, producing all the enzymes necessary for plant tissue breakdown. Enhanced activities of certain enzymes in the fungus garden extracts may be due to the particular behaviour of the adult worker ants that concentrate fungal acquired enzymes in the rectal fluid and subsequently defaecate these enzymes onto the leaves. The production of chitinases by the fungus may be an ancestral vestige of lower attines, and may have a role as agonists of invading microbes. Growth of the fungus on plant cell wall medium resulted in highest enzyme activity against pectin, reflecting the fact that polygalacturonans comprise the main matrix of the primary plant cell wall. SEM shows that L. gongylophorus does not form specialized structures for cell wall penetration, but gains access to the inner plant tissue at the cut edges of the leaf fragments. Enzymes secreted by the fungus were compared to those seen in larval and adult leaf-cutting ants, demonstrating the inter-dependence of the symbiotic relationship between the ants and their fungi.