Orphanet Journal of Rare Diseases (Mar 2022)

SATB2-associated syndrome: characterization of skeletal features and of bone fragility in a prospective cohort of 19 patients

  • M. Mouillé,
  • M. Rio,
  • S. Breton,
  • M. L. Piketty,
  • A. Afenjar,
  • J. Amiel,
  • Y. Capri,
  • A. Goldenberg,
  • C. Francannet,
  • C. Michot,
  • C. Mignot,
  • L. Perrin,
  • C. Quelin,
  • J. Van Gils,
  • G. Barcia,
  • V. Pingault,
  • G. Maruani,
  • E. Koumakis,
  • V. Cormier-Daire

DOI
https://doi.org/10.1186/s13023-022-02229-5
Journal volume & issue
Vol. 17, no. 1
pp. 1 – 14

Abstract

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Abstract Background Individuals with pathogenic variants in SATB2 display intellectual disability, speech and behavioral disorders, dental abnormalities and often features of Pierre Robin sequence. SATB2 encodes a transcription factor thought to play a role in bone remodeling. The primary aim of our study was to systematically review the skeletal manifestations of SATB2-associated syndrome. For this purpose, we performed a non-interventional, multicenter cohort study, from 2017 to 2018. We included 19 patients, 9 females and 10 males ranging in age from 2 to 19 years-old. The following data were collected prospectively for each patient: clinical data, bone markers and calcium and phosphate metabolism parameters, skeletal X-rays and bone mineral density. Results Digitiform impressions were present in 8/14 patients (57%). Vertebral compression fractures affected 6/17 patients (35%). Skeletal demineralization (16/17, 94%) and cortical thinning of vertebrae (15/17) were the most frequent radiological features at the spine. Long bones were generally demineralized (18/19). The distal phalanges were short, thick and abnormally shaped. C-telopeptide (CTX) and Alkaline phosphatase levels were in the upper normal values and osteocalcin and serum procollagen type 1 amino-terminal propeptide (P1NP) were both increased. Vitamin D insufficiency was frequent (66.7%). Conclusion We conclude that SATB2 pathogenic variants are responsible for skeletal demineralization and osteoporosis. We found increased levels of bone formation markers, supporting the key role of SATB2 in osteoblast differentiation. These results support the need for bone evaluation in children and adult patients with SATB2-associated syndrome (SAS).

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