Akiko Hata1,2, Giorgio Lagna1,3. 1. Cardiovascular Research Institute. 2. Department of Biochemistry and Biophysics. 3. Department of Molecular Pharmacology, University of California, San Francisco, San Francisco, California, USA.
Abstract
PURPOSE OF REVIEW: The TGFβ (transforming growth factor β) superfamily - a large group of structurally related and evolutionarily conserved proteins - profoundly shapes and organizes the vasculature during normal development and adult homeostasis. Mutations inactivating several of its ligands, receptors, or signal transducers set off hereditary hemorrhagic telangiectasia (HHT), a disorder that causes capillary networks to form incorrectly. Drosha, an essential microRNA-processing enzyme, also interfaces with TGFβ signal transducers, but its involvement in vascular conditions had not been tested until recently. This review summarizes current evidence that links mutations of Drosha to HHT. RECENT FINDINGS: Genetic studies have revealed that rare missense mutations in the Drosha gene occur more commonly among HHT patients than in healthy people. Molecular analyses also indicated that Drosha enzymes with HHT-associated mutations generate microRNAs less efficiently than their wild-type counterpart when stimulated by TGFβ ligands. In zebrafish or mouse, mutant Drosha proteins cause the formation of dilated, leaky blood vessels deprived of capillaries, similar to those typically found in patients with HHT. SUMMARY: Recent evidence suggests that Drosha-mediated microRNA biogenesis contributes significantly to the control of vascular development and homeostasis by TGFβ. Loss or reduction of Drosha function may predispose carriers to HHT and possibly other vascular diseases.
PURPOSE OF REVIEW: The TGFβ (transforming growth factor β) superfamily - a large group of structurally related and evolutionarily conserved proteins - profoundly shapes and organizes the vasculature during normal development and adult homeostasis. Mutations inactivating several of its ligands, receptors, or signal transducers set off hereditary hemorrhagic telangiectasia (HHT), a disorder that causes capillary networks to form incorrectly. Drosha, an essential microRNA-processing enzyme, also interfaces with TGFβ signal transducers, but its involvement in vascular conditions had not been tested until recently. This review summarizes current evidence that links mutations of Drosha to HHT. RECENT FINDINGS: Genetic studies have revealed that rare missense mutations in the Drosha gene occur more commonly among HHTpatients than in healthy people. Molecular analyses also indicated that Drosha enzymes with HHT-associated mutations generate microRNAs less efficiently than their wild-type counterpart when stimulated by TGFβ ligands. In zebrafish or mouse, mutant Drosha proteins cause the formation of dilated, leaky blood vessels deprived of capillaries, similar to those typically found in patients with HHT. SUMMARY: Recent evidence suggests that Drosha-mediated microRNA biogenesis contributes significantly to the control of vascular development and homeostasis by TGFβ. Loss or reduction of Drosha function may predispose carriers to HHT and possibly other vascular diseases.
Authors: Barbara Girerd; David Montani; Florence Coulet; Benjamin Sztrymf; Azzeddine Yaici; Xavier Jaïs; David Tregouet; Abilio Reis; Valérie Drouin-Garraud; Alain Fraisse; Olivier Sitbon; Dermot S O'Callaghan; Gérald Simonneau; Florent Soubrier; Marc Humbert Journal: Am J Respir Crit Care Med Date: 2010-01-07 Impact factor: 21.405
Authors: Jason E Fish; Massimo M Santoro; Sarah U Morton; Sangho Yu; Ru-Fang Yeh; Joshua D Wythe; Kathryn N Ivey; Benoit G Bruneau; Didier Y R Stainier; Deepak Srivastava Journal: Dev Cell Date: 2008-08 Impact factor: 12.270
Authors: Philip Kruber; Oguzhan Angay; Anja Winkler; Michael R Bösl; Susanne Kneitz; Katrin G Heinze; Manfred Gessler Journal: Int J Cancer Date: 2018-12-03 Impact factor: 7.396
Authors: Nicholas W Morrell; Donald B Bloch; Peter ten Dijke; Marie-Jose T H Goumans; Akiko Hata; Jim Smith; Paul B Yu; Kenneth D Bloch Journal: Nat Rev Cardiol Date: 2015-10-13 Impact factor: 32.419
Authors: Giovana T Torrezan; Elisa N Ferreira; Adriana M Nakahata; Bruna D F Barros; Mayra T M Castro; Bruna R Correa; Ana C V Krepischi; Eloisa H R Olivieri; Isabela W Cunha; Uri Tabori; Paul E Grundy; Cecilia M L Costa; Beatriz de Camargo; Pedro A F Galante; Dirce M Carraro Journal: Nat Commun Date: 2014-06-09 Impact factor: 14.919
Authors: Natalia Gromak; Martin Dienstbier; Sara Macias; Mireya Plass; Eduardo Eyras; Javier F Cáceres; Nicholas J Proudfoot Journal: Cell Rep Date: 2013-12-19 Impact factor: 9.423