Author: Van Den Bergh, R.; Bilej, M.; De Baetselier, P.; Beschin, A.
Title: The Invertebrate Defence Molecule Coelomic Cytolytic Factor, a Functional Analog of the Cytokine Tumour Necrosis Factorâ€Î±, Interacts with Mammalian Cells through its Lectinâ€Like Domain Cord-id: qakqxmcy Document date: 2008_6_28
ID: qakqxmcy
Snippet: Coelomic cytolytic factor (CCF) is a 42 kDa invertebrate pattern recognition molecule isolated from the coelomic fluid of the earthworm Eisenia foetida (Oligochaeta, Annelida). CCF displays a number of similarities with the mammalian cytokine tumour necrosis factorâ€Î± (TNFâ€Î±) as a result of a shared N,N′â€diacetylchitobiose lectinâ€like domain. However, these similarities are solely functional and are not based on any (DNA or amino acid) sequence homology, thus suggesting a form of conv
Document: Coelomic cytolytic factor (CCF) is a 42 kDa invertebrate pattern recognition molecule isolated from the coelomic fluid of the earthworm Eisenia foetida (Oligochaeta, Annelida). CCF displays a number of similarities with the mammalian cytokine tumour necrosis factorâ€Î± (TNFâ€Î±) as a result of a shared N,N′â€diacetylchitobiose lectinâ€like domain. However, these similarities are solely functional and are not based on any (DNA or amino acid) sequence homology, thus suggesting a form of convergent evolution. In particular, the lectinâ€like domain of TNFâ€Î± has been shown to induce membrane depolarization in various mammalian cell types, through interactions with endogenous amilorideâ€sensitive ion channels. This nonreceptorâ€mediated activity of TNFâ€Î± has been reported to be involved in the resorption of oedema. Likewise, the lectinâ€like domain of CCF also induces membrane depolarization in mammalian cells. Here, we show that CCF appears to be able to induce oedema resorption in an alveolar epithelial cell line through its lectinâ€like domain. This lectinâ€like domain of CCF interacts (directly or indirectly) with endogenous sodium and/or chloride channels, and not potassium channels, on mammalian cells. Additionally, we suggest that the JNK/SAPK and Erk1/2 pathways are involved in CCFâ€induced macrophage activation. These results further establish the functional analogy between an invertebrate pattern recognition molecule and a mammalian cytokine and, from a more applied point of view, suggest the possibility of utilizing CCF in the treatment of oedema.
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