Abstract
Background14-3-3 proteins have been implicated in many signalling mechanisms due to their interaction with Ser/Thr phosphorylated target proteins. They are evolutionarily well conserved in eukaryotic organisms from single celled protozoans and unicellular algae to plants and humans. A diverse array of target proteins has been found in higher plants and in human cell lines including proteins involved in cellular metabolism, apoptosis, cytoskeletal organisation, secretion and Ca2+ signalling.ResultsWe found that the simple metazoan Hydra has four 14-3-3 isoforms. In order to investigate whether the diversity of 14-3-3 target proteins is also conserved over the whole animal kingdom we isolated 14-3-3 binding proteins from Hydra vulgaris using a 14-3-3-affinity column. We identified 23 proteins that covered most of the above-mentioned groups. We also isolated several novel 14-3-3 binding proteins and the Hydra specific secreted fascin-domain-containing protein PPOD. In addition, we demonstrated that one of the 14-3-3 isoforms, 14-3-3 HyA, interacts with one Hydra-Bcl-2 like protein in vitro.ConclusionOur results indicate that 14-3-3 proteins have been ubiquitous signalling components since the start of metazoan evolution. We also discuss the possibility that they are involved in the regulation of cell numbers in response to food supply in Hydra.
Highlights
Apoptotic and cell survival signalling are important to maintain cellular homeostasis in many tissues and organs
To investigate the role of 143-3 proteins in the adaptation of hydra growth to feeding conditions we have looked for 14-3-3 target proteins
In a proteomic screen we have identified 23 14-3-3 binding proteins in the early metazoan Hydra
Summary
Apoptotic and cell survival signalling are important to maintain cellular homeostasis in many tissues and organs. This has been demonstrated very clearly during neurogenesis and haematopoesis in higher animals but has been found at the base of metazoan evolution in the simple cnidarian Hydra. In Hydra, apoptosis is activated in response to altered feeding conditions. BMC Cell Biology 2007, 8:31 http://www.biomedcentral.com/1471-2121/8/31 fed animals, asexual buds are produced rapidly and cell numbers double every 2–3 days. Under restrictive feeding conditions budding stops and cell numbers do not increase. Cell proliferation continues, leading to the production of excess cells which are removed by apoptosis and phagocytosis [1]. Hydra regulates organismic growth by regulating apoptosis
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