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hrp0094p1-126 | Growth A | ESPE2021

Identification and tissue-specific characterization of novel SHOX-regulated genes in zebrafish highlights SOX family members among other genes

Hoffmann Sandra , Roeth Ralph , Diebold Sabrina , Gogel Jasmin , Hassel David , Just Steffen , Rappold Gudrun A ,

SHOX deficiency causes a spectrum of clinical phenotypes related to skeletal dysplasia and short stature, including Léri-Weill dyschondrosteosis, Langer mesomelic dysplasia, Turner syndrome, and idiopathic short stature. SHOX controls chondrocyte proliferation and differentiation, bone maturation, cellular growth arrest and apoptosis via transcriptional regulation of its direct target genes NPPB, FGFR3, and CTGF. However, our u...

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hrp0089p1-p175 | Growth & Syndromes P1 | ESPE2018

Dual Function of the Retinoic Acid Catabolizing Enzyme CYP26C1 – Underlying Idiopathic Short Stature and Modifying Disease Severity in SHOX Deficiency

Montalbano Antonino , Juergensen Lonny , Fukami Maki , Thiel Christian T , Hauer Nadine H , Fricke-Otto Susanne , Binder Gerhard , Naiki Y , Ogata Tsutomu , Hassel David , Rappold Gudrun A

Short stature is diagnosed when height is significantly below the average of the general population for that persons age and sex. To elucidate the factors that modify disease severity/penetrance in short stature, we have studied a three-generation family with SHOX deficiency. We have found that the retinoic acid degrading enzyme CYP26C1 is a modifier for SHOX deficiency phenotypes towards the more severe clinical manifestations (Leri-Weill dyschondrosteosis) and confirme...

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ESPE Abstracts

Identification and tissue-specific characterization of novel SHOX-regulated genes in zebrafish highlights SOX family members among other genes

Dual Function of the Retinoic Acid Catabolizing Enzyme CYP26C1 – Underlying Idiopathic Short Stature and Modifying Disease Severity in SHOX Deficiency

BiosciAbstracts