EFHC1/Myoclonin1 modulates the post-translational modification of microtubules
Abstract number :
3.026
Submission category :
1. Translational Research: 1B. Animal or Computational Models
Year :
2015
Submission ID :
2326800
Source :
www.aesnet.org
Presentation date :
12/7/2015 12:00:00 AM
Published date :
Nov 13, 2015, 12:43 PM
Authors :
L. Medard, J. Godin, B. Coumans, T. Grisar, A. Delgado-Escueta, B. Lakaye, L. de Nijs
Rationale: Juvenile myoclonic epilepsies (JME) are one of the most common forms of genetic generalized epilepsy. Genetic studies have shown that heterozygous mutations in EFHC1/Myoclonin1 are responsible for 3-22% of JME cases worldwide. The Myoclonin1 protein contains three DM10 domains of unknown function and an EF-hand domain. We have previously demonstrated that Myoclonin1 is a microtubule-associated protein involved in cell division and radial migration during neocortex development. In cells, this protein co-localized with specific structures rich in microtubules (MTs) such as the centrosome, the poles of the mitotic spindle or the motile cilia but not with cytoplasmic MTs. This suggests post-translational modifications (PTM) of MTs may be important for the interaction between Myoclonin1 and MTsMethods: We co-expressed the different enzymes catalyzing PTM of MTs with Myoclonin1 in U2OS cell line, and then performed immunocytochemistry and western blot analysis. We next performed pulldown and luciferase complementation assays to test protein interactionResults: With one of these enzymes, we observed a strong increase in PTM in the presence of Myoclonin-1.Interestingly, the effect is observed even when a DM10 domain alone is co-expressed with the enzyme, suggesting for the first time a role for this domain. This suggests that Myoclonin1 may interact with and modulate the activity of this enzyme. By using luciferase complementation assay and pull down experiments, we could demonstrate that both proteins interact.Conclusions: Our data suggest Myoclonin-1 modulates specific PTM of MTs. This is of prime importance for microtubule dynamic and notably for neuroblast precursor migration during neocortex development. This could be the mechanism that explains why pathological forms of myoclonin-1 may affect brain development. Funding: FNRS Grant PDR T.0009.13 (BL), University of Liège Grant (BL and LdN), Leon Fredericq Foundation (LM), NIH Grant R01NS055057 (AVDE) and VACO Merit Review Grant (AVDE)
Translational Research