1. Characterization of a L136P mutation in Formin-like 2 (FMNL2) from a patient with chronic inflammatory bowel disease
- Author
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Trefzer, Raphael, Elpeleg, Orly, Gabrusskaya, Tatyana, Stepensky, Polina, Mor-Shaked, Hagar, Grosse, Robert, and Brandt, Dominique T.
- Subjects
Cultured tumor cells ,Biochemistry ,White Blood Cells ,Contractile Proteins ,Animal Cells ,Medicine and Health Sciences ,Pseudopodia ,Staining ,Cell Staining ,Cell Differentiation ,Extracellular Matrix ,Laboratory Equipment ,Podosomes ,Cell lines ,Engineering and Technology ,Medicine ,Cellular Structures and Organelles ,Cellular Types ,Biological cultures ,Research Article ,Immune Cells ,Science ,Immunology ,Equipment ,Formins ,Gastroenterology and Hepatology ,macromolecular substances ,Research and Analysis Methods ,Transfection ,Polymorphism, Single Nucleotide ,Cell Line ,Humans ,HeLa cells ,Molecular Biology Techniques ,Molecular Biology ,Blood Cells ,Macrophages ,Inflammatory Bowel Disease ,Biology and Life Sciences ,Proteins ,Cell Biology ,Laboratory Glassware ,Cell cultures ,Inflammatory Bowel Diseases ,Actins ,Cytoskeletal Proteins ,Specimen Preparation and Treatment ,Chronic Disease - Abstract
Diaphanous related formins are highly conserved proteins regulated by Rho-GTPases that act as actin nucleation and assembly factors. Here we report the functional characterization of a non-inherited heterozygous FMNL2 p.L136P mutation carried by a patient who presented with severe very early onset inflammatory bowel disease (IBD). We found that the FMNL2 L136P protein displayed subcellular mislocalization and deregulated protein autoinhibition indicating gain-of-function mechanism. Expression of FMNL2 L136P impaired cell spreading as well as filopodia formation. THP-1 macrophages expressing FMNL2 L136P revealed dysregulated podosome formation and a defect in matrix degradation. Our data indicate that the L136P mutation affects cellular actin dynamics in fibroblasts and immune cells such as macrophages.
- Published
- 2021