Mutations in the gene encoding PDGF-B cause brain calcifications in humans and mice.
Annika KellerAna WestenbergerMaria J SobridoMaria García-MuriasAloysius DomingoRenee L SearsRoberta R LemosAndres Ordoñez-UgaldeGael NicolasJosé E Gomes da CunhaElisabeth J RushingMichael HugelshoferMoritz C WurnigAndres KaechRegina ReimannKatja LohmannValerija DobričićAngel CarracedoIgor PetrovićJanis M MiyasakiIrina AbakumovaMaarja Andaloussi MäeElisabeth RaschpergerMayana ZatzKatja ZschiedrichJörg KlepperElizabeth SpiteriJose M PrietoInmaculada NavasMichael PreussCarmen DeringMilena JankovićMartin PaucarPer SvenningssonKioomars SaliminejadHamid R K KhorshidIvana NovakovićAdriano AguzziAndreas BossIsabelle Le BerGilles DeferDidier HannequinVladimir S KostićDominique CampionDaniel H GeschwindGiovanni CoppolaChrister BetsholtzChristine KleinJoao R M OliveiraPublished in: Nature genetics (2013)
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.
Keyphrases
- blood brain barrier
- growth factor
- smooth muscle
- vascular smooth muscle cells
- cerebral ischemia
- genome wide
- white matter
- high fat diet induced
- resting state
- copy number
- genome wide identification
- risk assessment
- endothelial cells
- type diabetes
- gene expression
- autism spectrum disorder
- dna methylation
- insulin resistance
- skeletal muscle
- electronic health record
- adipose tissue
- angiotensin ii
- transcription factor
- deep learning