Mutations in the Neurofibromatosis 2 gene (NF2) predispose to tumors of the nervous system, mainly schwannomas and meningiomas. The NF2 gene encodes for the tumor suppressor protein merlin (moesin-ezrin-radixin-like protein), which functions as a linker between the plasma membrane and the cytoskeleton. Carboxyterminal phosphorylation affects merlin activity, but many open questions on the regulation of merlin function still remain. The phosphoinositide 3-kinase/Akt pathway is activated in human vestibular schwannoma, suggesting a role for Akt-dependent merlin regulation in the formation of these tumors. In this study, we identify merlin serine 10 as a novel substrate for Akt phosphorylation. We demonstrate that this N-terminal phosphorylation directs merlin for proteasome-mediated degradation and affects merlin binding to the E3 ligase component DCAF1. Our data indicate that sequential phosphorylation of merlin C- and N-terminus by different oncogenic kinases targets merlin for degradation and thus downregulates its activity. On the basis of these findings, we propose a model for a posttranslational mechanism of merlin inactivation.
The Neurofibromatosis 2 (NF2) gene product merlin is a tumour suppressor, which in addition to inhibiting cell proliferation regulates cell morphology. The morphogenic properties of merlin may play a role in tumour suppression, as patient-derived tumour cells demonstrate cytoskeletal abnormalities. However, it is still unclear how these functions are linked. The N-terminal FERM-domain of merlin is highly homologous to the oncogenic protein ezrin, while the C-termini are less conserved, suggesting that the opposite effect of the proteins on proliferation could be mediated by their distinct C-terminal regions. In this study we characterize the role of the most C-terminal residues of merlin in the regulation of proliferation, cytoskeletal organization, phosphorylation and intramolecular associations. In addition to the two full-length merlin isoforms and truncating mutations found in patients, we focused on the evolutionally conserved C-terminal residues 545-547, also harbouring disease-causing mutations. We demonstrate that merlin induces cell extensions, which result from impaired retraction of protrusions rather than from increased formation of filopodia. The residues 538-568 were found particularly important for this morphogenic activity. The results further show that both merlin isoforms are able to equally inhibit proliferation, whereas C-terminal mutants affecting residues 545-547 are less effective in growth suppression. This study demonstrates that the C-terminus contains distinct but overlapping functional domains important for regulation of the morphogenic activity, intramolecular associations and cell proliferation.
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