Abstract
The freshwater cnidarian Hydra temporarily binds itself to numerous natural substrates encountered underwater, such as stones, leafs, etc. This adhesion is mediated by secreted material from specialized ectodermal modified cells at the aboral end of the animal. The means by which Hydra polyps attach to surface remain unresolved, despite the fact that Hydra is a classic model in developmental and stem cell biology. Here, we present novel observations on the attachment mechanism of Hydra using high pressure transmission electron microscopy, scanning electron microscopy, atomic force microscopy, super-resolution microscopy, and enzyme histochemistry. We analyzed the morphology of ectodermal basal disc cells, studied the secreted material, and its adhesive nature. By electron microscopy we identified four morphologically distinct secretory granules occurring in a single cell type. All the secretory granules contained glycans with different distribution patterns among the granule types. Footprints of the polyps were visualized under dry conditions by atomic force microscopy and found to consist of a meshwork with nanopores occurring in the interstices. Two antibodies AE03 and 3G11, previously used in cell differentiation studies, labelled both, basal disc cells and footprints. Our data suggest that the adhesive components of Hydra are produced, stored and delivered by a single cell type. Video microscopy analysis corroborates a role of muscle contractions for the detachment process. We clearly demonstrated that bioadhesion of Hydra relies on the secreted material. Our data suggest that glycans and/or glycoproteins represent an important fraction of the secreted material. Detachment seems to be initiated by mechanical forces by muscular contractions. Taken together, our study represents the characterization of an unique temporary adhesive system not known in aquatic organisms from other metazoan phyla.
Highlights
The freshwater cnidarian Hydra temporarily binds itself to numerous natural substrates encountered underwater, such as stones, leafs, etc
This study showed that cnidarian Hydra polyps secrete elaborate adhesive composites underwater to temporarily anchor themselves to substrate surfaces
Glue based adhesion is the main component of the system: basal disc cells release their adhesive vesicles whose contents would have the ability to spread over the surface, displace water, and create a proper environment for curing the secreted glue
Summary
The freshwater cnidarian Hydra temporarily binds itself to numerous natural substrates encountered underwater, such as stones, leafs, etc. This adhesion is mediated by secreted material from specialized ectodermal modified cells at the aboral end of the animal. Examples include the permanent attachments of sessile mussels [1] and barnacles [2, 3], the temporary attachment of starfish and flatworms during locomotion [4, 5], the construction of protective shelters by sandcastle worms [6], and the defence against predators by the Cuverian tubules of sea cucumbers [7] All these bioadhesives were adapted by Rodrigues et al BMC Zoology (2016) 1:3 secreted as a fluid that spreads spontaneously and exhibits strong reversible interfacial bonding and tunable crosslinking. Some organisms contain glycans associated with the adhesive proteins, but it is unknown whether they are covalently attached to the proteins [10, 17]
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