Investigation of calmodulin-like and rod domain mutations suggests common molecular mechanism for α-actinin-1-linked congenital macrothrombocytopenia
- PMID: 31365757
- DOI: 10.1002/1873-3468.13562
Investigation of calmodulin-like and rod domain mutations suggests common molecular mechanism for α-actinin-1-linked congenital macrothrombocytopenia
Abstract
Actinin-1 mutations cause dominantly inherited congenital macrothrombocytopenia (CMTP), with mutations in the actin-binding domain increasing actinin's affinity for F-actin. In this study, we examined nine CMTP-causing mutations in the calmodulin-like and rod domains of actinin-1. These mutations increase, to varying degrees, actinin's ability to bundle actin filaments in vitro. Mutations within the calmodulin-like domain decrease its thermal stability slightly but do not dramatically affect calcium binding, with mutant proteins retaining calcium-dependent regulation of filament bundling in vitro. The G764S and E769K mutations increase cytoskeletal association of actinin in cells, and all mutant proteins colocalize with F-actin in cultured HeLa cells. Thus, CMTP-causing actinin-1 mutations outside the actin-binding domain also increase actin association, suggesting a common molecular mechanism underlying actinin-1 related CMTP.
Keywords: ACTN1; actinin-1; alpha-actinin; congenital macrothrombocytopenia; macrothrombocytopenia; α-actinin.
© 2019 Federation of European Biochemical Societies.
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References
-
- Ribeiro EA, Pinotsis N, Ghisleni A, Salmazo A, Konarev PV, Kostan J, Sjöblom B, Schreiner C, Polyansky AA, Gkougkoulia EA et al. (2014) The structure and regulation of human muscle α-actinin. Cell 159, 1447-1460.
-
- Blanchard A, Ohanian V and Critchley D (1989) The structure and function of α-actinin. J Muscle Res Cell Motil 10, 280-289.
-
- Ylänne J, Scheffzek K, Young P and Saraste M (2001) Crystal structure of the alpha-actinin rod reveals an extensive torsional twist. Structure 9, 597-604.
-
- Kao H-Y, Zhang C, Wan P, Pasha Z, Guaiquil V, Liu A, Liu J, Luo Y, Fuchs E and Rosenblatt MI (2015) The actinin family proteins: biological function and clinical implications. Cell Biosci 5, 48.
-
- Foley KS and Young PW (2014) The non-muscle functions of actinins: an update. Biochem J 459, 1-13.
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