Identification and characterisation of two distinct Smad proteins from the fox-tapeworm Echinococcus multilocularis

Members of the transforming growth factor-β (TGF-β) family of cytokines and their corresponding receptors regulate cellular key processes such as proliferation and differentiation, and could be involved in communication mechanisms between parasitic helminths and their hosts. A pivotal role in intrac...

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Bibliographic Details
Published in:International journal for parasitology 2003-12, Vol.33 (14), p.1665-1677
Main Authors: Zavala-Góngora, Ricardo, Kroner, Antje, Wittek, Britta, Knaus, Petra, Brehm, Klaus
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Base Sequence
Biological and medical sciences
Carrier Proteins - genetics
Carrier Proteins - metabolism
Cells, Cultured
Cestode
Echinococcosis, Hepatic - metabolism
Echinococcosis, Hepatic - veterinary
Echinococcus
Echinococcus - genetics
Echinococcus multilocularis
Foxes
Fundamental and applied biological sciences. Psychology
Gene Expression
Genes, Helminth
Helminth Proteins - genetics
Helminth Proteins - metabolism
Host parasite relation
pathogenicity
Host-Parasite Interactions
Humans
Invertebrates
Kidney - parasitology
Larva
MH1 domain
Molecular Sequence Data
Nemathelminthia. Plathelmintha
Parasite
Reverse Transcriptase Polymerase Chain Reaction
Sequence Analysis, DNA
Sequence Homology, Amino Acid
Smad
SmadA protein
SmadB protein
TGF-β signalling
Transforming Growth Factor beta - metabolism
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Summary:Members of the transforming growth factor-β (TGF-β) family of cytokines and their corresponding receptors regulate cellular key processes such as proliferation and differentiation, and could be involved in communication mechanisms between parasitic helminths and their hosts. A pivotal role in intracellular TGF-β signalling is played by Smad factors which directly transmit incoming signals from the cell surface receptors to the nucleus. In this study, we have identified and characterised two novel members of the Smad family, EmSmadA and EmSmadB, which are expressed by the human parasite Echinococcus multilocularis. Based on amino acid sequence comparisons, both echinococcal Smad homologues could be classified as members of the R-Smad subfamily. EmSmadB showed a typical domain structure consisting of conserved MH1 and MH2 domains separated by a proline-rich linker region. EmSmadA, on the other hand, lacked an MH1 region and merely contained an MH2 domain, a feature which has so far not been described for R-Smads. Based on the structures of the corresponding chromosomal loci and on sequence features of the conserved L3 loop regions, EmSmadA and EmSmadB are most likely involved in the transmission of TGF-β- and bone morphogenetic protein (BMP) signals, respectively. Yeast two-hybrid analyses revealed that both Echinococcus Smads are capable of homo- and heterodimer formations. However, while the formation of homodimers for EmSmadB required previous activation of the protein at the C-terminal SSVS motif, EmSmadA homodimers were already formed in the basal state of the factor. Upon expression of the Echinococcus Smads in human cells, EmSmadA, but not EmSmadB, was phosphorylated by the human TGF-β type I receptor. Furthermore, both factors functionally interacted with human BMP receptors. By reverse transcriptase-PCR experiments, the encoding genes, emsmadA and emsmadB, were shown to be expressed in the larval stages metacestode and protoscolex during an infection of the intermediate host. Taken together, our data suggest an involvement of EmSmadA and EmSmadB in echinococcal developmental processes during natural infections and provide a solid basis for further investigations on TGF-β signalling mechanisms in cestodes.
ISSN:0020-7519
1879-0135
DOI:10.1016/S0020-7519(03)00208-X