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. 2025 May 1;112(5):1233-1246.
doi: 10.1016/j.ajhg.2025.03.013. Epub 2025 Apr 10.

FBXO22 deficiency defines a pleiotropic syndrome of growth restriction and multi-system anomalies associated with a unique epigenetic signature

Navin B Ramakrishna  1 Umar Bin Mohamad Sahari  2 Yoshikazu Johmura  3 Nur Ain Ali  1 Malak Alghamdi  4 Peter Bauer  5 Suliman Khan  5 Natalia Ordoñez  5 Mariana Ferreira  5 Jorge Pinto Basto  5 Fowzan S Alkuraya  6 Eissa Ali Faqeih  7 Mari Mori  8 Naif A M Almontashiri  9 Aisha Al Shamsi  10 Gehad ElGhazali  11 Hala Abu Subieh  12 Mode Al Ojaimi  13 Ayman W El-Hattab  13 Said Ahmed Said Al-Kindi  14 Nadia Alhashmi  15 Fahad Alhabshan  16 Abdulaziz Al Saman  17 Hala Tfayli  18 Mariam Arabi  19 Simone Khalifeh  20 Alan Taylor  21 Majid Alfadhel  22 Ruchi Jain  21 Shruti Sinha  21 Shruti Shenbagam  21 Revathy Ramachandran  23 Umut Altunoğlu  24 Anju Jacob  25 Nandu Thalange  25 Mireille El Bejjani  25 Arnaud Perrin  1 Jay W Shin  2 Almundher Al-Maawali  26 Azza Al-Shidhani  26 Amna Al-Futaisi  26 Fatma Rabea  27 Ikram Chekroun  27 Mohamed A Almarri  28 Tomohiko Ohta  29 Makoto Nakanishi  30 Alawi Alsheikh-Ali  31 Fahad R Ali  23 Aida M Bertoli-Avella  5 Bruno Reversade  32 Ahmad Abou Tayoun  33
Affiliations

FBXO22 deficiency defines a pleiotropic syndrome of growth restriction and multi-system anomalies associated with a unique epigenetic signature

Navin B Ramakrishna et al. Am J Hum Genet. .

Abstract

FBXO22 encodes an F-box protein, which acts as a substrate-recognition component of the SKP1-CUL1-F-box (SCF) E3 ubiquitin ligase complex. Despite its known roles in the post-translational ubiquitination and degradation of specific substrates, including histone demethylases, the impact of FBXO22 on human development remains unknown. Here, we characterize a pleiotropic syndrome with prominent prenatal onset growth restriction and notable neurodevelopmental delay across 16 cases from 14 families. Through exome and genome sequencing, we identify four distinct homozygous FBXO22 variants with loss-of-function effects segregating with the disease: three predicted to lead to premature translation termination due to frameshift effects and a single-amino-acid-deletion variant, which, we show, impacts protein stability in vitro. We confirm that affected primary fibroblasts with a frameshift mutation are bereft of endogenous FBXO22 and show increased levels of the known substrate histone H3K9 demethylase KDM4B. Accordingly, we delineate a unique epigenetic signature for this disease in peripheral blood via long-read sequencing. Altogether, we identify and demonstrate that FBXO22 deficiency leads to a pleiotropic syndrome in humans, encompassing growth restriction and neurodevelopmental delay, the pathogenesis of which may be explained by broad chromatin alterations.

Keywords: DNA methylation; E3 ubiquitin ligase; FBXO22; Mendelian disease; epigenetics; neurodevelopmental disorder; pleiotropic syndrome.

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Conflict of interest statement

Declaration of interests P.B., S. Khan, N.O., M.F., J.P.B., and A.M.B.-A. are employees of Centogene GmbH.

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