Osteomesopyknosis associated with a novel ALOX5 variant that impacts the RANKL pathway

Jose L. Fernandez‐Luna; José L. Hernández; Soraya Curiel‐Olmo; Néstor A. Martínez‐Amador; Ana I. Vega; Remedios Quirce; Santiago Montes‐Moreno; Olga Gutierrez; Alvaro delReal; Carolina Sañudo; Jose A. Riancho

doi:10.1002/mgg3.2471

Molecular Genetics & Genomic Medicine (May 2024)

Osteomesopyknosis associated with a novel ALOX5 variant that impacts the RANKL pathway

Jose L. Fernandez‐Luna,
José L. Hernández,
Soraya Curiel‐Olmo,
Néstor A. Martínez‐Amador,
Ana I. Vega,
Remedios Quirce,
Santiago Montes‐Moreno,
Olga Gutierrez,
Alvaro delReal,
Carolina Sañudo,
Jose A. Riancho

Affiliations

Jose L. Fernandez‐Luna: Unidad de Genética, Hospital UM Valdecilla Santander Spain
José L. Hernández: Instituto de Investigación Valdecilla (IDIVAL) Santander Spain
Soraya Curiel‐Olmo: Unidad de Genética, Hospital UM Valdecilla Santander Spain
Néstor A. Martínez‐Amador: Servicio de Medicina Nuclear Hospital UM Valdecilla Santander Spain
Ana I. Vega: Unidad de Genética, Hospital UM Valdecilla Santander Spain
Remedios Quirce: Instituto de Investigación Valdecilla (IDIVAL) Santander Spain
Santiago Montes‐Moreno: Instituto de Investigación Valdecilla (IDIVAL) Santander Spain
Olga Gutierrez: Unidad de Genética, Hospital UM Valdecilla Santander Spain
Alvaro delReal: Instituto de Investigación Valdecilla (IDIVAL) Santander Spain
Carolina Sañudo: Instituto de Investigación Valdecilla (IDIVAL) Santander Spain
Jose A. Riancho: Instituto de Investigación Valdecilla (IDIVAL) Santander Spain

DOI: https://doi.org/10.1002/mgg3.2471
Journal volume & issue: Vol. 12, no. 5
pp. n/a – n/a

Abstract

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Abstract Background Bone tissue homeostasis relies on the coordinated activity of the bone‐forming osteoblasts and bone‐resorbing osteoclasts. Osteomesopyknosis is considered a distinctive rare sclerosing skeletal disorder of unelucidated pathophysiology and presumably autosomal dominant transmission. However, the causal genes are unknown. Methods We present a case report encompassing clinical assessments, imaging studies, and whole‐exome sequencing analysis, complemented by functional in vitro experiments. Results This new case of osteomesopyknosis was associated with a missense ALOX5 variant predicted to induce protein misfolding and proteasomal degradation. Transfection experiments demonstrated that the variant was associated with reduced protein levels restored by proteasomal inhibition with bortezomib. Likewise, gene expression analysis showed that the mutated gene was associated with a decreased RANKL/OPG ratio, which is a critical driver of osteoclast precursor differentiation. Conclusion Our data indicate impaired bone resorption as the underlying mechanism of this rare osteosclerosis, implicating ALOX5 pathogenic variants as potential etiological factors.

Published in Molecular Genetics & Genomic Medicine

ISSN: 2324-9269 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Genetics
Website: https://onlinelibrary.wiley.com/journal/23249269

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