Your search keyword '"Manuel H Taft"' showing total 5 results

1. Variants in exons 5 and 6 of ACTB cause syndromic thrombocytopenia

Author

Michael C. Frühwald, Constanca Figueiredo, Barbara Klink, Christine Chaponnier, Ramona Hecker, Nadja Ehmke, Luzie Gawehn, P. Reinke, Theresia Reindl, Sharissa L. Latham, Katharina Sarnow, Dietmar J. Manstein, Werner Stenzel, Konrad Grützmann, Indra Niehaus, Michael J. Friez, Ralf Knöfler, Denise Horn, Nataliya Di Donato, Kerstin Becker, Jennifer A. Lee, Evelin Schröck, Michael J. Lyons, Manuel H. Taft, Teresa Neuhann, Andreas Rump, and Dorothee Eicke

Subjects

0301 basic medicine, Genetics, Microcephaly, Multidisciplinary, ACTG1, biology, Platelet maturation, Science, fungi, General Physics and Astronomy, General Chemistry, medicine.disease, Phenotype, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Exon, 030104 developmental biology, Germline mutation, biology.protein, medicine, lcsh:Q, Actin-binding protein, lcsh:Science, Actin

Abstract

Germline mutations in the ubiquitously expressed ACTB, which encodes β-cytoplasmic actin (CYA), are almost exclusively associated with Baraitser-Winter Cerebrofrontofacial syndrome (BWCFF). Here, we report six patients with previously undescribed heterozygous variants clustered in the 3′-coding region of ACTB. Patients present with clinical features distinct from BWCFF, including mild developmental disability, microcephaly, and thrombocytopenia with platelet anisotropy. Using patient-derived fibroblasts, we demonstrate cohort specific changes to β-CYA filament populations, which include the enhanced recruitment of thrombocytopenia-associated actin binding proteins (ABPs). These perturbed interactions are supported by in silico modeling and are validated in disease-relevant thrombocytes. Co-examination of actin and microtubule cytoskeleton constituents in patient-derived megakaryocytes and thrombocytes indicates that these β-CYA mutations inhibit the final stages of platelet maturation by compromising microtubule organization. Our results define an ACTB-associated clinical syndrome with a distinct genotype-phenotype correlation and delineate molecular mechanisms underlying thrombocytopenia in this patient cohort. Genetic variants in ACTB and ACTG1 have been associated with Baraitser-Winter Cerebrofrontofacial syndrome. Here, the authors report of a syndromic thrombocytopenia caused by variants in ACTB exons 5 or 6 that compromise the organization and coupling of the cytoskeleton, leading to impaired platelet maturation.

Published

2018

2. 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

3. Variants in exons 5 and 6 of ACTB cause syndromic thrombocytopenia

Author

Sharissa L. Latham, Nadja Ehmke, Patrick Y. A. Reinke, Manuel H. Taft, Dorothee Eicke, Theresia Reindl, Werner Stenzel, Michael J. Lyons, Michael J. Friez, Jennifer A. Lee, Ramona Hecker, Michael C. Frühwald, Kerstin Becker, Teresa M. Neuhann, Denise Horn, Evelin Schrock, Indra Niehaus, Katharina Sarnow, Konrad Grützmann, Luzie Gawehn, Barbara Klink, Andreas Rump, Christine Chaponnier, Constanca Figueiredo, Ralf Knöfler, Dietmar J. Manstein, and Nataliya Di Donato

Subjects

Science

Abstract

Genetic variants in ACTB and ACTG1 have been associated with Baraitser-Winter Cerebrofrontofacial syndrome. Here, the authors report of a syndromic thrombocytopenia caused by variants in ACTB exons 5 or 6 that compromise the organization and coupling of the cytoskeleton, leading to impaired platelet maturation.

Published

2018

4. The Conserved Lysine-265 Allosterically Modulates Nucleotide- and Actin-binding Site Coupling in Myosin-2

Author

Vincent A. Behrens, Stefan Münnich, Georg Adler-Gunzelmann, Claudia Thiel, Arnon Henn, Sharissa L. Latham, and Manuel H. Taft

Subjects

Medicine, Science

Abstract

Abstract Myosin motor proteins convert chemical energy into force and movement through their interactions with nucleotide and filamentous actin (F-actin). The evolutionarily conserved lysine-265 (K265) of the myosin-2 motor from Dictyostelium discoideum (Dd) is proposed to be a key residue in an allosteric communication pathway that mediates actin-nucleotide coupling. To better understand the role of K265, point mutations were introduced within the Dd myosin-2 M765-2R framework, replacing this lysine with alanine (K265A), glutamic acid (K265E) or glutamine (K265Q), and the functional and kinetic properties of the resulting myosin motors were assessed. The alanine and glutamic acid substitutions reduced actin-activated ATPase activity, slowed the in vitro sliding velocity and attenuated the inhibitory potential of the allosteric myosin inhibitor pentabromopseudilin (PBP). However, glutamine substitution did not substantially change these parameters. Structural modelling suggests that K265 interacts with D590 and Q633 to establish a pivotal allosteric branching point. Based on our results, we propose: (1) that the K265-D590 interaction functions to reduce myosins basal ATPase activity in the absence of F-actin, and (2) that the dynamic formation of the K265-Q633 salt bridge upon actin cleft closure regulates the activation of product release by actin filaments.

Published

2017

5. Author Correction: Variants in exons 5 and 6 of ACTB cause syndromic thrombocytopenia

Author

Sharissa L. Latham, Nadja Ehmke, Patrick Y. A. Reinke, Manuel H. Taft, Dorothee Eicke, Theresia Reindl, Werner Stenzel, Michael J. Lyons, Michael J. Friez, Jennifer A. Lee, Ramona Hecker, Michael C. Frühwald, Kerstin Becker, Teresa M. Neuhann, Denise Horn, Evelin Schrock, Indra Niehaus, Katharina Sarnow, Konrad Grützmann, Luzie Gawehn, Barbara Klink, Andreas Rump, Christine Chaponnier, Constanca Figueiredo, Ralf Knöfler, Dietmar J. Manstein, and Nataliya Di Donato

Subjects

Science

Abstract

The original version of this Article contained an error in Figure 4. In panel i, the lower CYA and α-SMA images were inadvertently inverted. This has been corrected in both the PDF and HTML versions of the Article.

Published

2018