Litcius/Paper detail

Pathogenic ACVR1R206H activation by Activin A‐induced receptor clustering and autophosphorylation

Anassuya Ramachandran, Merima Mehić, Laabiah Wasim, Dessislava Malinova, Ilaria Gori, Beata K. Blaszczyk, Diana Carvalho, Eileen M. Shore, Chris Jones, Marko Hyvönen, Pavel Tolar, Caroline S. Hill

2021The EMBO Journal52 citationsDOIOpen Access PDF

Abstract

Abstract Fibrodysplasia ossificans progressiva (FOP) and diffuse intrinsic pontine glioma (DIPG) are debilitating diseases that share causal mutations in ACVR1, a TGF‐β family type I receptor. ACVR1 R206H is a frequent mutation in both diseases. Pathogenic signaling via the SMAD1/5 pathway is mediated by Activin A, but how the mutation triggers aberrant signaling is not known. We show that ACVR1 is essential for Activin A‐mediated SMAD1/5 phosphorylation and is activated by two distinct mechanisms. Wild‐type ACVR1 is activated by the Activin type I receptors, ACVR1B/C. In contrast, ACVR1 R206H activation does not require upstream kinases, but is predominantly activated via Activin A‐dependent receptor clustering, which induces its auto‐activation. We use optogenetics and live‐imaging approaches to demonstrate Activin A‐induced receptor clustering and show it requires the type II receptors ACVR2A/B. Our data provide molecular mechanistic insight into the pathogenesis of FOP and DIPG by linking the causal activating genetic mutation to disrupted signaling.

Topics & Concepts

Activin receptorBiologyAutophosphorylationPhosphorylationFibrodysplasia ossificans progressivaMutationReceptorSignal transductionActivin type 2 receptorsGeneticsCell biologyCancer researchTGF beta signaling pathwayGeneProtein kinase AAnatomyOssificationHeterotopic Ossification and Related ConditionsTGF-β signaling in diseasesMedical Imaging and Pathology Studies