The Diaphanous Inhibitory Domain/Diaphanous Autoregulatory Domain Interaction Is Able to Mediate Heterodimerization between mDia1 and mDia2

Sarah J Copeland,David Banner,John W Copeland,Brenda J Green,Sarah Burchat,Giuseppe A Papalia

doi:10.1074/jbc.m703834200

Sarah J Copeland, David Banner + Show 4 more

Open Access

https://doi.org/10.1074/jbc.m703834200

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Abstract

Formins are multidomain proteins that regulate numerous cytoskeleton-dependent cellular processes. These effects are mediated by the presence of two regions of homology, formin homology 1 and FH2. The diaphanous-related formins (DRFs) are distinguished by the presence of interacting N- and C-terminal regulatory domains. The GTPase binding domain and diaphanous inhibitory domain (DID) are found in the N terminus and bind to the diaphanous autoregulatory domain (DAD) found in the C terminus. Adjacent to the DID is an N-terminal dimerization motif (DD) and coiled-coil region (CC). The N terminus of Dia1 is also proposed to contain a Rho-independent membrane-targeting motif. We undertook an extensive structure/function analysis of the mDia1 N terminus to further our understanding of its role in vivo. We show here that both DID and DD are required for efficient autoinhibition in the context of full-length mDia1 and that the DD of mDia1 and mDia2, like formin homology 2, mediates homo- but not heterodimerization with other DRF family members. In contrast, our results suggest that the DID/DAD interaction mediates heterodimerization of full-length mDia1 and mDia2 and that the auto-inhibited conformation of DRFs is oligomeric. In addition, we also show that the DD/CC region is required for the Rho-independent membrane targeting of the isolated N terminus.

Highlights

Formins can be subdivided into families based on their associated regulatory domains
We show that the diaphanous inhibitory domain (DID)/diaphanous autoregulatory domain (DAD) interaction is able to mediate interaction between closely related diaphanous-related formins (DRFs) proteins and is able to act in trans to inhibit their activity
Expression of mDia1 ⌬RBD had no effect on reporter gene activation, consistent with the DID/DAD interaction remaining intact in this derivative

Summary

EXPERIMENTAL PROCEDURES

Plasmids—The constructs pMLV-LacZ, p3D.A-Luc, pEFSRFVP16, RhoA.V14, rac.V12, cdc.V12, mDia F1F2ϩC, F1F2, ⌬DAD, ⌬RBD.DID and mDia F1F2ϩC, F1F2 were described previously [11, 13, 19, 30]. Immunoprecipitations—Co-immunoprecipitation experiments were performed as previously described [30] using antiFLAG beads (Sigma F2426). The precipitated proteins were detected by immunoblotting using M2 anti-FLAG peroxidase conjugate antibody (Sigma A8592) and rabbit anti-Myc Reporter Gene Assays—The SRF reporter gene assays were performed as previously described [13, 30]. Actin Polymerization Assays—The in vitro actin polymerization assays were performed as previously described [30]. MD1N was cloned into pGEX.6P2, expressed in BL21, and purified by glutathione affinity chromatography and cleavage of the GST moiety using prescission protease. IC50 values were calculated by plotting the polymerization rate from the linear section of each curve and interpolating the concentration of mD1N that would yield half-maximal inhibition

RESULTS

We also made use of this series of

Pretreatment with ROCK inhibitor alone was also unable to

DISCUSSION