Journal ArticleDOI
Mutations in the gene encoding PDGF-B cause brain calcifications in humans and mice
Annika Keller,Annika Keller,Annika Keller,Ana Westenberger,María Jesús Sobrido,María García-Murias,Aloysius Domingo,Renee L. Sears,R. R. Lemos,Andrés Ordóñez-Ugalde,Gaël Nicolas,José Eriton Gomes da Cunha,Elisabeth J. Rushing,Michael Hugelshofer,Moritz C. Wurnig,Andres Kaech,Regina Reimann,Katja Lohmann,Valerija Dobricic,Angel Carracedo,Igor Petrović,Janis M. Miyasaki,Irina Abakumova,Maarja Mäe,Maarja Mäe,Elisabeth Raschperger,Elisabeth Raschperger,Mayana Zatz,Katja Zschiedrich,Jörg Klepper,Elizabeth Spiteri,Elizabeth Spiteri,J.M. Prieto,I. Navas,Michael Preuss,Carmen Dering,Milena Jankovic,Martin Paucar,Per Svenningsson,Kioomars Saliminejad,Hamid Reza Khorram Khorshid,Ivana Novakovic,Adriano Aguzzi,Andreas Boss,Isabelle Le Ber,Gilles Defer,Didier Hannequin,Vladimir S. Kostic,Dominique Campion,Daniel H. Geschwind,Giovanni Coppola,Christer Betsholtz,Christer Betsholtz,Christine Klein,João Ricardo Mendes de Oliveira +54 more
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TLDR
The data present a clear link between Pdgfb mutations and brain calcifications in mice, as well as between PDGFB mutations and IBGC in humans.Abstract:
Calcifications in the basal ganglia are a common incidental finding and are sometimes inherited as an autosomal dominant trait (idiopathic basal ganglia calcification (IBGC)). Recently, mutations in the PDGFRB gene coding for the platelet-derived growth factor receptor β (PDGF-Rβ) were linked to IBGC. Here we identify six families of different ancestry with nonsense and missense mutations in the gene encoding PDGF-B, the main ligand for PDGF-Rβ. We also show that mice carrying hypomorphic Pdgfb alleles develop brain calcifications that show age-related expansion. The occurrence of these calcium depositions depends on the loss of endothelial PDGF-B and correlates with the degree of pericyte and blood-brain barrier deficiency. Thus, our data present a clear link between Pdgfb mutations and brain calcifications in mice, as well as between PDGFB mutations and IBGC in humans.read more
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Journal ArticleDOI
Characteristics and therapeutic potential of sodium-dependent phosphate cotransporters in relation to idiopathic basal ganglia calcification
TL;DR: Among the causative genes of idiopathic basal ganglia calcification (IBGC), this article focused specifically on PiT2, and its potential for a therapeutic target of IBGC.
Journal ArticleDOI
The primary familial brain calcification-associated protein MYORG is an α-galactosidase with restricted substrate specificity
Richard W. Meek,Jacob A. Brockerman,Osei Boakye Fordwour,Wesley F. Zandberg,Gideon J. Davies,David J. Vocadlo +5 more
TL;DR: It is shown that myogenesis-regulating glycosidase (MYORG) is an α-galactosidase and the high-resolution crystal structure of MYORG in complex with substrate and inhibitor is presented, opening the possibility of using pharmacological chaperones to enhance the activity of mutant forms of MyORG.
Journal ArticleDOI
Characteristics and therapeutic potential of sodium-dependent phosphate cotransporters in relation to idiopathic basal ganglia calcification
TL;DR: Among the causative genes of idiopathic basal ganglia calcification (IBGC), this paper focused specifically on Type-III sodium-dependent phosphate transporters (PiT1 and PiT2) and its potential for a therapeutic target of IBGC.
Book ChapterDOI
Phosphorus homeostasis and related disorders
TL;DR: Deficiencies in the supply of phosphate, and disruptions of the complex regulatory system managing its availability, are discussed as the basis of debilitating musculoskeletal diseases.
Journal ArticleDOI
Secondary White Matter Injury and Therapeutic Targets After Subarachnoid Hemorrhage
TL;DR: In this paper, the authors summarized the pathophysiology processes and mechanisms of white matter injury after SAH, with a view to providing new strategies for the prevention and treatment of long-term cognitive dysfunction.
References
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Journal ArticleDOI
Mechanism of Action and In Vivo Role of Platelet-Derived Growth Factor
TL;DR: Structural and functional properties of PDGF and PDGF receptors, the mechanism whereby PDGF exerts its cellular effects, and the role ofPDGF in normal and diseased tissues are discussed.
Journal ArticleDOI
Pericytes regulate the blood–brain barrier
Annika Armulik,Guillem Genové,Maarja Mäe,Maya H. Nisancioglu,Elisabet Wallgard,Elisabet Wallgard,Colin Niaudet,Liqun He,Liqun He,Jenny Norlin,Per Lindblom,Karin Strittmatter,Karin Strittmatter,Bengt Johansson,Christer Betsholtz +14 more
TL;DR: A novel and critical role for pericytes is indicated in the integration of endothelial and astrocyte functions at the neurovascular unit, and in the regulation of the blood–brain barrier.
Journal ArticleDOI
Pericyte Loss and Microaneurysm Formation in PDGF-B-Deficient Mice
TL;DR: Comparisons made between PDGF null mouse phenotypes suggest a general role for PDGFs in the development of myofibroblasts, and endothelial cells of the sprouting capillaries in the mutant mice appeared to be unable to attract PDGF-Rbeta-positive pericyte progenitor cells.
Journal ArticleDOI
Role of platelet-derived growth factors in physiology and medicine.
TL;DR: Basic aspects of the PDGF ligands and receptors, their developmental and pathological functions, principles of their pharmacological inhibition, and results using PDGF pathway-inhibitory or stimulatory drugs in preclinical and clinical contexts are reviewed.
Journal ArticleDOI
Pericytes are required for blood–brain barrier integrity during embryogenesis
TL;DR: Pericytes regulate functional aspects of the blood–brain barrier, including the formation of tight junctions and vesicle trafficking in CNS endothelial cells, but inhibit the expression of molecules that increase vascular permeability and CNS immune cell infiltration.
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