Your search keyword '"Manuel H Taft"' showing total 7 results

1. The non-muscle actinopathy-associated mutation E334Q in cytoskeletal γ-actin perturbs interaction of actin filaments with myosin and ADF/cofilin family proteins

Author

Johannes N Greve, Anja Marquardt, Robin Heiringhoff, Theresia Reindl, Claudia Thiel, Nataliya Di Donato, Manuel H Taft, and Dietmar J Manstein

Subjects

actin, actinopathy, cytoskeleton, myosin, cofilin, rare disease, Medicine, Science, Biology (General), QH301-705.5

Abstract

Various heterozygous cytoskeletal γ-actin mutations have been shown to cause Baraitser–Winter cerebrofrontofacial syndrome, non-syndromic hearing loss, or isolated eye coloboma. Here, we report the biochemical characterization of human cytoskeletal γ-actin carrying mutation E334Q, a mutation that leads to a hitherto unspecified non-muscle actinopathy. Following expression, purification, and removal of linker and thymosin β4 tag sequences, the p.E334Q monomers show normal integration into linear and branched actin filaments. The mutation does not affect thermal stability, actin filament nucleation, elongation, and turnover. Model building and normal mode analysis predict significant differences in the interaction of p.E334Q filaments with myosin motors and members of the ADF/cofilin family of actin-binding proteins. Assays probing the interactions of p.E334Q filaments with human class 2 and class 5 myosin motor constructs show significant reductions in sliding velocity and actin affinity. E334Q differentially affects cofilin-mediated actin dynamics by increasing the rate of cofilin-mediated de novo nucleation of actin filaments and decreasing the efficiency of cofilin-mediated filament severing. Thus, it is likely that p.E334Q-mediated changes in myosin motor activity, as well as filament turnover, contribute to the observed disease phenotype.

Published

2024

2. Distinct actin–tropomyosin cofilament populations drive the functional diversification of cytoskeletal myosin motor complexes

Author

Theresia Reindl, Sven Giese, Johannes N. Greve, Patrick Y. Reinke, Igor Chizhov, Sharissa L. Latham, Daniel P. Mulvihill, Manuel H. Taft, and Dietmar J. Manstein

Subjects

Biological sciences, Biochemistry, Biomolecules, Protein, Biophysics, Science

Abstract

Summary: The effects of N-terminal acetylation of the high molecular weight tropomyosin isoforms Tpm1.6 and Tpm2.1 and the low molecular weight isoforms Tpm1.12, Tpm3.1, and Tpm4.2 on the actin affinity and the thermal stability of actin-tropomyosin cofilaments are described. Furthermore, we show how the exchange of cytoskeletal tropomyosin isoforms and their N-terminal acetylation affects the kinetic and chemomechanical properties of cytoskeletal actin-tropomyosin-myosin complexes. Our results reveal the extent to which the different actin-tropomyosin-myosin complexes differ in their kinetic and functional properties. The maximum sliding velocity of the actin filament as well as the optimal motor density for continuous unidirectional movement, parameters that were previously considered to be unique and invariant properties of each myosin isoform, are shown to be influenced by the exchange of the tropomyosin isoform and the N-terminal acetylation of tropomyosin.

Published

2022

3. Frameshift mutation S368fs in the gene encoding cytoskeletal β-actin leads to ACTB-associated syndromic thrombocytopenia by impairing actin dynamics

Author

Johannes N. Greve, Frederic V. Schwäbe, Thomas Pokrant, Jan Faix, Nataliya Di Donato, Manuel H. Taft, and Dietmar J. Manstein

Subjects

Actinopathy, Allostery, Cofilin, Cytoskeleton, Myosin, Profilin, Cytology, QH573-671

Abstract

Heterozygous dominant mutations in the ubiquitously produced cytoskeletal β–actin isoform lead to a broad range of human disease phenotypes, which are currently classified as three distinct clinical entities termed Baraitser-Winter–Cerebrofrontofacial syndrome (BWCFF), ACTB–associated pleiotropic malformation syndrome with intellectual disability (ACTB–PMSID), and ACTB–associated syndromic thrombocytopenia (ACTB–AST). The latter two are distinguishable from BWCFF by the presence of milder craniofacial features and less pronounced developmental abnormalities, or the absence of craniofacial features in combination with a characteristic thrombocytopenia with platelet anisotropy. Production and correct function of β–actin is required for multiple essential processes in all types of cells. Directed cell migration, cytokinesis and morphogenesis are amongst the functions that are supported by β–actin. Here we report the recombinant production and biochemical characterization of the ACTB–AST mutant p.S368fs, resulting in an altered sequence in the C–terminal region of β–actin that includes a replacement of the last 8 residues and an elongation of the molecule by 4 residues. The mutation affects a region important for actin polymerization and actin–profilin interaction. Accordingly, we measured markedly reduced rates of nucleation and polymerization during spontaneous actin assembly and lower affinity of p.S368fs for human profilin–1. The reduced affinity is also reflected in the lower propensity of profilin–1 to extend the nucleation phase of p.S368fs. While localized in close proximity to actin–cofilin and actin–myosin interfaces, we determined only minor effects of the mutation on the interaction of mutant filaments with cofilin and myosin family members. However, allosteric effects on sites distant from the mutation manifest themselves in a 7.9 °C reduction in thermal denaturation temperature, a 2–fold increase in the observed IC50 for DNase–I, and changes in nucleotide exchange kinetics. Our results support a disease mechanism involving impaired actin dynamics and function through disruption of actin–profilin interactions and further exacerbated by allosteric perturbations.

Published

2022

4. Meteorin-like promotes heart repair through endothelial KIT receptor tyrosine kinase

Author

Marc R. Reboll, Stefanie Klede, Manuel H. Taft, Chen-Leng Cai, Loren J. Field, Kory J. Lavine, Andrew L. Koenig, Jenni Fleischauer, Johann Meyer, Axel Schambach, Hans W. Niessen, Maike Kosanke, Joop van den Heuvel, Andreas Pich, Johann Bauersachs, Xuekun Wu, Linqun Zheng, Yong Wang, Mortimer Korf-Klingebiel, Felix Polten, Kai C. Wollert, Pathology, and ACS - Heart failure & arrhythmias

Subjects

Heart Failure, Multidisciplinary, Macrophages, Myocardial Infarction, Endothelial Cells, Neovascularization, Physiologic, Ligands, Mice, Mutant Strains, Mice, Proto-Oncogene Proteins c-kit, Adipokines, Animals, Cytokines, Nerve Growth Factors, Cells, Cultured

Abstract

Effective tissue repair after myocardial infarction entails a vigorous angiogenic response, guided by incompletely defined immune cell–endothelial cell interactions. We identify the monocyte- and macrophage-derived cytokine METRNL (meteorin-like) as a driver of postinfarction angiogenesis and high-affinity ligand for the stem cell factor receptor KIT (KIT receptor tyrosine kinase). METRNL mediated angiogenic effects in cultured human endothelial cells through KIT-dependent signaling pathways. In a mouse model of myocardial infarction, METRNL promoted infarct repair by selectively expanding the KIT-expressing endothelial cell population in the infarct border zone. Metrnl -deficient mice failed to mount this KIT-dependent angiogenic response and developed severe postinfarction heart failure. Our data establish METRNL as a KIT receptor ligand in the context of ischemic tissue repair.

Published

2022

5. Mutation E334Q in ACTG1 leads to perturbed interactions with cofilin and cytoskeletal myosin isoforms

Author

Johannes N. Greve, Manuel H. Taft, Nataliya Di Donato, and Dietmar J. Manstein

Subjects

Biophysics

Published

2022

6. An allosteric inhibitor of RhoGAP class-IX myosins suppresses the metastatic features of cancer cells

Author

Despoina Kyriazi, Lea Voth, Almke Bader, Wiebke Ewert, Juliane Gerlach, Kerstin Elfrink, Peter Franz, Mariana I. Tsap, Bastian Schirmer, Julia Damiano-Guercio, Falk K. Hartmann, Masina Plenge, Azam Salari, Dennis Schöttelndreier, Katharina Strienke, Nadine Bresch, Claudio Salinas, Herwig O. Gutzeit, Nora Schaumann, Kais Hussein, Heike Bähre, Inga Brüsch, Peter Claus, Detlef Neumann, Manuel H. Taft, Halyna R. Shcherbata, Anaclet Ngezahayo, Martin Bähler, Mahdi Amiri, Hans-Joachim Knölker, Matthias Preller, and Georgios Tsiavaliaris

Subjects

Science

Abstract

Abstract Aberrant Ras homologous (Rho) GTPase signalling is a major driver of cancer metastasis, and GTPase-activating proteins (GAPs), the negative regulators of RhoGTPases, are considered promising targets for suppressing metastasis, yet drug discovery efforts have remained elusive. Here, we report the identification and characterization of adhibin, a synthetic allosteric inhibitor of RhoGAP class-IX myosins that abrogates ATPase and motor function, suppressing RhoGTPase-mediated modes of cancer cell metastasis. In human and murine adenocarcinoma and melanoma cell models, including three-dimensional spheroid cultures, we reveal anti-migratory and anti-adhesive properties of adhibin that originate from local disturbances in RhoA/ROCK-regulated signalling, affecting actin-dynamics and actomyosin-based cell-contractility. Adhibin blocks membrane protrusion formation, disturbs remodelling of cell-matrix adhesions, affects contractile ring formation, and disrupts epithelial junction stability; processes severely impairing single/collective cell migration and cytokinesis. Combined with the non-toxic, non-pathological signatures of adhibin validated in organoids, mouse and Drosophila models, this mechanism of action provides the basis for developing anti-metastatic cancer therapies.

Published

2024

7. Editorial: Unconventional myosins in motile and contractile functions: fifty years on the stage

Author

Manuel H. Taft and Maria Jolanta Redowicz

Subjects

unconventional myosins, physiology, cytoskeleton, molecular motor, myosin-1, myosin-6, Physiology, QP1-981

Published

2024