0000000000174717

AUTHOR

Michael T. Siva-jothy

showing 4 related works from this author

Temporal patterns in immune responses to a range of microbial insults (Tenebrio molitor).

2008

8 pages; International audience; Much work has elucidated the pathways and mechanisms involved in the production of insect immune effector systems. However, the temporal nature of these responses with respect to different immune insults is less well understood. This study investigated the magnitude and temporal variation in phenoloxidase and antimicrobial activity in the mealworm beetle Tenebrio molitor in response to a number of different synthetic and real immune elicitors. We found that antimicrobial activity in haemolymph increased rapidly during the first 48h after a challenge and was maintained at high levels for at least 14 days. There was no difference in the magnitude of responses …

MealwormProphenoloxidaseTime FactorsPhysiology[ SDV.BA.ZI ] Life Sciences [q-bio]/Animal biology/Invertebrate ZoologyAntimicrobial peptidesBacillus subtilisMicrobiologyImmune systemDownregulation and upregulationHemolymphHemolymphEscherichia coliAnimals[ SDV.IMM ] Life Sciences [q-bio]/ImmunologyTenebrioEnzyme PrecursorsbiologyMonophenol MonooxygenaseZone of inhibitionLong-lasting immunityProphenoloxidaseAntimicrobialbiology.organism_classificationHaemolymphInsect ScienceHost-Pathogen InteractionsInsect immunityPhenoloxidaseAntimicrobial peptidesCatechol OxidaseAntimicrobial Cationic PeptidesBacillus subtilis
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Antimicrobial Defense and Persistent Infection in Insects

2008

During 400 million years of existence, insects have rarely succumbed to the evolution of microbial resistance against their potent antimicrobial immune defenses. We found that microbial clearance after infection is extremely fast and that induced antimicrobial activity starts to increase only when most of the bacteria (99.5%) have been removed. Our experiments showed that those bacteria that survived exposure to the insect's constitutive immune response were subsequently more resistant to it. These results imply that induced antimicrobial compounds function primarily to protect the insect against the bacteria that persist within their body, rather than to clear microbial infections. These f…

Staphylococcus aureusMultidisciplinaryAntimicrobial peptidesDrug resistanceBiologybiology.organism_classificationAntimicrobialmedicine.disease_causeMicrobiologyImmune systemAntibiotic resistanceStaphylococcus aureusHemolymphmedicineAnimalsFemaleTenebrioBacteriaAntibacterial agentScience
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Introduction. Ecological immunology.

2009

12 pages; International audience; An organism's fitness is critically reliant on its immune system to provide protection against parasites and pathogens. The structure of even simple immune systems is surprisingly complex and clearly will have been moulded by the organism's ecology. The aim of this review and the theme issue is to examine the role of different ecological factors on the evolution of immunity. Here, we will provide a general framework of the field by contextualizing the main ecological factors, including interactions with parasites, other types of biotic as well as abiotic interactions, intraspecific selective constraints (life-history trade-offs, sexual selection) and popula…

[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyEcology (disciplines)Populationinnate immune systemecological immunologyBiology[ SDV.IMM.IA ] Life Sciences [q-bio]/Immunology/Adaptive immunologyGeneral Biochemistry Genetics and Molecular BiologyImmune systemadaptive immune systemMESH : Ecosystemmicrobiota[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/SymbiosisMESH : EvolutioneducationMESH : Host-Pathogen InteractionsOrganismCoevolutiontrade-offIntroductioneducation.field_of_study[ SDE.BE ] Environmental Sciences/Biodiversity and EcologyInnate immune systemResistance (ecology)EcologyMESH : HumansAcquired immune systemMESH : Genetics PopulationMESH : ImmunitycoevolutionMESH : AnimalsGeneral Agricultural and Biological Sciences
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Insect Immunity: An Evolutionary Ecology Perspective

2005

Abstract We review recent advances in our understanding of the mechanisms of insect immune defence, but do so in a framework defined by the ecological and evolutionary forces that shape insect immune defence. Recent advances in genetics and molecular biology have greatly expanded our understanding of the details of the immune mechanisms that enable insects to defend themselves against parasites and pathogens. However, these studies are primarily concerned with discovering and describing how resistance mechanisms work. They rarely address the question of why they are shaped the way they are. Partly because we know so much about the mechanisms that it is now becoming possible to ask such ulti…

Cognitive scienceResistance (ecology)media_common.quotation_subjectfungiPerspective (graphical)Insectbiochemical phenomena metabolism and nutritionBiologyImmune defenceFuture studyEvolutionary biologyImmunitybacteriaEvolutionary ecologyImmune mechanismsmedia_common
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