﻿Hygienic behavior and antimicrobial peptide expression of the leaf-cutting ant Atta cephalotes (Hymenoptera, Formicidae) to Metharhizium anisopliae

Gómez‐Díaz, J. S.; Niño-Castro, Andrea; Valencia-Giraldo, Sandra Milena; Cotazo-Calambas, K. M.

doi:10.3897/jhr.91.82381

JHR

2022

DOI: 10.3897/jhr.91.82381

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Hygienic behavior and antimicrobial peptide expression of the leaf-cutting ant Atta cephalotes (Hymenoptera, Formicidae) to Metharhizium anisopliae

J. S. Gómez‐Díaz¹,

Andrea Niño-Castro²,

Sandra Milena Valencia-Giraldo³

et al.

Abstract: Leaf-cutting ants depend on mutualisticfungi to survive. An infection that massively affects the workers compromising the proper maintenance of the fungus, or that can attack the fungus garden, can be fatal to the colony. Thus, leaf-cutting ants have evolved a complex defense system composed of both innate individual immunity and collective immunity to protect the colony against potential threats. To characterize the collective and individual immunity of Atta cephalotes workers to Metarizhium anisopliae we ass… Show more

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Ants/Nest-Associated Fungi and Their Specialized Metabolites: Taxonomy, Chemistry, and Bioactivity

Aguilar-Colorado

Rivera‐Chávez

2023

Rev. Bras. Farmacogn.

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Microscopic fungi occupy a vast number of habitats, are taxonomically diverse, degrade complex substrates, and have stood out for their capacity to biosynthesize a plethora of specialized metabolites. Such molecules are structurally diverse, and many have applications in fundamental and applied sciences, for example, in medicine, material sciences, food chemistry, textile and pharmaceutical industries, and agronomy, among other fields. However, despite the tremendous biotechnological value of fungi, these organisms are understudied, limiting the knowledge to their taxonomy, chemistry, and some putative applications. Notably, some specific habitats remain unexplored in terms of their mycobiota. Based on these considerations, this review describes the known fungal diversity associated with ants/nests, their metabolic potential, and the possible applications of their specialized metabolites in drug discovery programs focused on developing treatments for human diseases. According to this revision, fungal diversity has been studied by applying conventional methodologies such as isolation and morphological identification of soil fungi from mounds and nest chambers, and indirectly from ants’ cuticles and glands. The subfamilies, genera, taxonomical information, and geographical origin of ants from which filamentous fungi and yeast are commonly isolated are also described. Furthermore, some important information is presented concerning the difference between the ant-associated mycobiota and that in the surroundings, discarding the extrapolation of the chemical and biological information known for soil fungi. Altogether, this review evidenced the lack of information regarding the chemical composition of ant-associated fungi, encouraging research focused on exploring the chemistry biosynthesized from ants’ mycobiota, as well as the elucidation of their allelopathic potential inside the nests. Graphical Abstract

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Ants/Nest-Associated Fungi and Their Specialized Metabolites: Taxonomy, Chemistry, and Bioactivity

Aguilar-Colorado

Rivera‐Chávez

2023

Rev. Bras. Farmacogn.

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Antimicrobial-producing microorganisms in fungus-farming ants: a critical review on insights into a natural biological defense with biotechnological potential

Maurice-Lira,

Romero-Nápoles,

Pérez-Cárcamo

et al. 2024

Annals of the Entomological Society of America

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The main function of symbiotic actinobacterias in fungus-farming ants (Formicidae: Myrmicinae: Attini) is to protect the cultivated fungus against the pathogenic fungus Escovopsis spp. The microorganisms with the highest antimicrobial potential are actinobacterias, specifically Pseudonocardia and Streptomyces. These actinobacterias have demonstrated greater aggressiveness against the pathogen compared to other free-living actinobacterias, suggesting a selective process for strains with greater effectiveness in controlling the mycoparasite. Hypotheses explaining the coevolution between attinis and actinobacterias suggest that Pseudonocardia is a specialist symbiont that has coevolved with attinis, while Streptomyces is a mutualist recurrently adopted from the environment. In addition to actinobacterias, other microbial groups such as yeasts and bacteria with antimicrobial potential have been reported. The diversity of biomolecules synthesized by attini microsymbionts suggests that the microbiota of these insects could be an underexplored source of biotechnological resources with potential for combating agricultural and clinical diseases. This review addresses the antimicrobial potential of the microbiome associated with fungus-farming ants, and also analyzes aspects of coevolution, eco-physiological roles, and the diversity of microorganisms with antimicrobial potential.

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Hygienic behavior and antimicrobial peptide expression of the leaf-cutting ant Atta cephalotes (Hymenoptera, Formicidae) to Metharhizium anisopliae

Cited by 2 publications

References 88 publications

Ants/Nest-Associated Fungi and Their Specialized Metabolites: Taxonomy, Chemistry, and Bioactivity

Ants/Nest-Associated Fungi and Their Specialized Metabolites: Taxonomy, Chemistry, and Bioactivity

Antimicrobial-producing microorganisms in fungus-farming ants: a critical review on insights into a natural biological defense with biotechnological potential

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﻿Hygienic behavior and antimicrobial peptide expression of the leaf-cutting ant Atta cephalotes (Hymenoptera, Formicidae) to Metharhizium anisopliae

Cited by 2 publications

References 88 publications

Ants/Nest-Associated Fungi and Their Specialized Metabolites: Taxonomy, Chemistry, and Bioactivity

Ants/Nest-Associated Fungi and Their Specialized Metabolites: Taxonomy, Chemistry, and Bioactivity

Antimicrobial-producing microorganisms in fungus-farming ants: a critical review on insights into a natural biological defense with biotechnological potential

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Product

Resources

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Hygienic behavior and antimicrobial peptide expression of the leaf-cutting ant Atta cephalotes (Hymenoptera, Formicidae) to Metharhizium anisopliae