Abstract
Schwannomin (Sch) is the product of the NF2 tumor suppressor gene. The NF2 gene is mutated in patients affected by neurofibromatosis type 2, a syndrome associated with multiple tumors of the nervous system. Here we found that Sch, when its N-terminal FERM domain was misfolded by the pathogenetic mutation Delta F118, formed aggresomes, i.e. aggregates that cluster at the centrosome as a result of microtubule-dependent transport. Strikingly the related protein ezrin affected by the same mutation did not form aggresomes even though its FERM domain was similarly misfolded. By studying ezrin/Sch chimeras, we delineated a sequence of 61 amino acids in the C terminus of Sch that determined the formation of aggresomes. Aggresome formation by these chimeras was independent from their rate of degradation. Sch(535-595) was sufficient to induce aggresomes of a green fluorescent fusion protein in vivo and aggregates of a glutathione S-transferase fusion protein in vitro. Taken together, these results suggest that aggresome formation is controlled primarily by aggresome determinants, which are distinct from degradation determinants, or from misfolding, through which aggresome determinants might be exposed.
Highlights
Neurofibromatosis 2 is an inherited disorder that predisposes the patient to the development of nervous system tumors such as schwannomas and meningiomas
The NF2 gene is mutated in patients affected by neurofibromatosis type 2, a syndrome associated with multiple tumors of the nervous system
We found that Sch, when its N-terminal FERM domain was misfolded by the pathogenetic mutation ⌬F118, formed aggresomes, i.e. aggregates that cluster at the centrosome as a result of microtubule-dependent transport
Summary
Neurofibromatosis 2 is an inherited disorder that predisposes the patient to the development of nervous system tumors such as schwannomas and meningiomas. The product of the NF2 gene, schwannomin (Sch), known as merlin, is highly related to ERM (ezrin, radixin, moesin) proteins [2]. These proteins are about 600 amino acids long. Sch is a regulator of cell growth and a mediator of contact inhibition, probably through its ability to organize or sense the attachment of actin to the plasma membrane [3,4,5] For both Sch and ERM proteins, the FERM domain is responsible for their localization at the cytoplasmic side of the plasma membrane [6, 7]. We mapped the principal determinant of this behavior with ezrin/Sch chimeras
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