Unraveling the Role of RSPRY1 in TGF-β Pathway Dysregulation: Insights into the Pathogenesis of Spondyloepimetaphyseal Dysplasia
Gozde Imren, Beren Karaosmanoglu, Bihter Muratoglu, Cansu Ozdemir, Gulen Eda Utine, Pelin Ozlem Simsek-Kiper, Ekim Z. Taskiran

TL;DR
This study explores how RSPRY1 gene mutations cause skeletal disorders by disrupting TGF-β signaling and ECM dynamics.
Contribution
The study identifies RSPRY1 as a novel regulator of TGF-β signaling in skeletal homeostasis and SEMD pathogenesis.
Findings
RSPRY1 deficiency leads to constitutive TGF-β pathway activation and altered ECM dynamics.
RSPRY1 regulates cell motility through SMAD3-dependent mechanisms.
Targeting TGF-β signaling may offer therapeutic strategies for SEMD.
Abstract
Skeletal dysplasias, characterized by bone, cartilage, and connective tissue abnormalities, often arise due to disruptions in extracellular matrix (ECM) dynamics and growth factor-dependent signaling pathways. RSPRY1, a secreted protein with RING and SPRY domains, has been implicated in bone development, yet its exact role remains to be determined. RSPRY1 gene mutations are associated with spondyloepimetaphyseal dysplasia (SEMD), a rare skeletal disorder characterized by severe epiphyseal and metaphyseal deformities. This study aimed to determine the molecular and cellular mechanisms by which RSPRY1 deficiency affects skeletal homeostasis. Transcriptome analysis of fibroblasts from patients with homozygous RSPRY1 mutations showed there was significant enrichment of transforming growth factor beta (TGF-β) signaling and ECM-related pathways. Functional wound healing assays showed that…
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Taxonomy
TopicsBone Metabolism and Diseases · Bone health and treatments · TGF-β signaling in diseases
