Quantitative Proteomics Illuminates a Functional Interaction between mDia2 and the Proteasome
Publication date
2016-12-02
Editors
Advisors
Supervisors
Document Type
Article
Metadata
Show full item recordCollections
License
taverne
Abstract
Formin mDia2 is a cytoskeleton-regulatory protein that switches reversibly between a closed, autoinhibited and an open, active conformation. Although the open conformation of mDia2 induces actin assembly thereby controlling many cellular processes, mDia2 possesses also actin-independent and conformation-insensitive scaffolding roles related to microtubules and p53, respectively. Thus, we hypothesize that mDia2 may have other unappreciated functions and regulatory modes. Here we identify and validate proteasome and Ubiquitin as mDia2-interacting partners using stable isotope labeling with amino acids in cell culture-based quantitative proteomics and biochemistry, respectively. Although mDia2 is ubiquitinated, binds ubiquitinated proteins and free Ubiquitin, it is not a proteasome substrate. Surprisingly, knockdown of mDia2 increases the activity of the proteasome in vitro, whereas mDia2 overexpression has opposite effects only when it adopts the open conformation and cannot induce actin assembly. Consistently, a combination of candidate and unbiased proteome-wide analyses indicates that mDia2 regulates the cellular levels of proteasome substrate β-catenin and a number of ubiquitinated actin-regulatory proteins. Hence, these findings add more complexity to the mDia2 activity cycle by showing that the open conformation may control actin dynamics also through actin-independent regulation of the proteasome.
Keywords
affinity purification, biochemistry, Formin, mass spectrometry, quantitative proteomics, SILAC, Taverne, General Chemistry, Biochemistry
Citation
Isogai, T, Van Der Kammen, R, Bleijerveld, O B, Goerdayal, S S, Argenzio, E, Altelaar, A F M & Innocenti, M 2016, 'Quantitative Proteomics Illuminates a Functional Interaction between mDia2 and the Proteasome', Journal of Proteome Research, vol. 15, no. 12, pp. 4624-4637. https://doi.org/10.1021/acs.jproteome.6b00718