Abstract
Anthozoa is the most specious class of the phylum Cnidaria that is phylogenetically basal within the Metazoa. It is an interesting group for studying the evolution of mutualisms and immunity, for despite their morphological simplicity, Anthozoans are unexpectedly immunologically complex, with large genomes and gene families similar to those of the Bilateria. Evidence indicates that the Anthozoan innate immune system is not only involved in the disruption of harmful microorganisms, but is also crucial in structuring tissue-associated microbial communities that are essential components of the cnidarian holobiont and useful to the animal’s health for several functions including metabolism, immune defense, development, and behavior. Here, we report on the current state of the art of Anthozoan immunity. Like other invertebrates, Anthozoans possess immune mechanisms based on self/non-self-recognition. Although lacking adaptive immunity, they use a diverse repertoire of immune receptor signaling pathways (PRRs) to recognize a broad array of conserved microorganism-associated molecular patterns (MAMP). The intracellular signaling cascades lead to gene transcription up to endpoints of release of molecules that kill the pathogens, defend the self by maintaining homeostasis, and modulate the wound repair process. The cells play a fundamental role in immunity, as they display phagocytic activities and secrete mucus, which acts as a physicochemical barrier preventing or slowing down the proliferation of potential invaders. Finally, we describe the current state of knowledge of some immune effectors in Anthozoan species, including the potential role of toxins and the inflammatory response in the Mediterranean Anthozoan Anemonia viridis following injection of various foreign particles differing in type and dimensions, including pathogenetic bacteria.
Highlights
Cnidarians are phylogenetically basal aquatic animals within the Metazoa, with radial symmetry and the first level of tissue organization
Hydractinia symbiolongicarpus is a cnidarian model studied in the context of allorecognition—a hydroid feeding on gastropods inhabited by hermit crabs along the intertidal areas of the east coast of North America
Miller et al [2] described a suite of predicted proteins with a membrane attack complex (MAC) and perforin domains associated with the final phase of the complement cascade, indicating that multiple components from different stages of the complement cascade pathways exist in the cnidarians
Summary
Cnidarians are phylogenetically basal aquatic animals within the Metazoa, with radial symmetry and the first level of tissue organization. Cnidarians are of great interest since they apply many of the same cellular pathways involved in innate immunity in mammals. In the cnidarian innate immune immune system system has has aa role beneficial microbes and supporting mutualistic microbial symbioses. We reported the current state of knowledge about cellular and molecular immune repertoire in Anthozoan species and the inflammatory responses in Anemonia viridis (Cnidaria: Anthozoa) following bacterial injection and pathogenetic invasions with bacteria such as Escherichia coli and Vibrio alginolyticus. These belong to different genera and are of diverse shape and dimension. The currently accepted taxonomic scheme subdivides Cnidaria into two main assemblages: Anthozoa (Hexacorallia and Octocorallia) with a reproductive polyp and the absence of a medusa stage and Medusozoa (Cubozoa, Hydrozoa, Scyphozoa, and Staurozoa) that usually possess a reproductive medusa stage
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