Literature DB >> 28263186

Loss of DDRGK1 modulates SOX9 ubiquitination in spondyloepimetaphyseal dysplasia.

Adetutu T Egunsola, Yangjin Bae, Ming-Ming Jiang, David S Liu, Yuqing Chen-Evenson, Terry Bertin, Shan Chen, James T Lu, Lisette Nevarez, Nurit Magal, Annick Raas-Rothschild, Eric C Swindell, Daniel H Cohn, Richard A Gibbs, Philippe M Campeau, Mordechai Shohat, Brendan H Lee.   

Abstract

Shohat-type spondyloepimetaphyseal dysplasia (SEMD) is a skeletal dysplasia that affects cartilage development. Similar skeletal disorders, such as spondyloepiphyseal dysplasias, are linked to mutations in type II collagen (COL2A1), but the causative gene in SEMD is not known. Here, we have performed whole-exome sequencing to identify a recurrent homozygous c.408+1G>A donor splice site loss-of-function mutation in DDRGK domain containing 1 (DDRGK1) in 4 families affected by SEMD. In zebrafish, ddrgk1 deficiency disrupted craniofacial cartilage development and led to decreased levels of the chondrogenic master transcription factor sox9 and its downstream target, col2a1. Overexpression of sox9 rescued the zebrafish chondrogenic and craniofacial phenotype generated by ddrgk1 knockdown, thus identifying DDRGK1 as a regulator of SOX9. Consistent with these results, Ddrgk1-/- mice displayed delayed limb bud chondrogenic condensation, decreased SOX9 protein expression and Col2a1 transcript levels, and increased apoptosis. Furthermore, we determined that DDRGK1 can directly bind to SOX9 to inhibit its ubiquitination and proteasomal degradation. Taken together, these data indicate that loss of DDRGK1 decreases SOX9 expression and causes a human skeletal dysplasia, identifying a mechanism that regulates chondrogenesis via modulation of SOX9 ubiquitination.

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Year:  2017        PMID: 28263186      PMCID: PMC5373861          DOI: 10.1172/JCI90193

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  48 in total

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Review 10.  Enzymatic Machinery of Ubiquitin and Ubiquitin-Like Modification Systems in Chondrocyte Homeostasis and Osteoarthritis.

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