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Orthopaedic Proceedings
Vol. 104-B, Issue SUPP_8 | Pages 7 - 7
1 Aug 2022
Mathieu H Amani H Patten SA Parent S Aragon J Barchi S Joncas J Child A Moldovan F
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The aim of this study is to clarify the implication of ciliary pathway on the onset of the spinal curvature that occurs in Adolescent Idiopathic Scoliosis (AIS) patients through functional studies of two genes: POC5 and TTLL11. Since the genetic implication for AIS is accepted, many association and candidate gene analysis revealed the implication of ciliary genes.

The characterisation of these two proteins was assessed by qPCR, WB and immunofluorescence in vitro using control cells and cells derived from AIS patients. The impact of genetic modification of these genes on the functionality of the proteins in vitro and in vivo was analysed in zebrafish model created by CRISPR/Cas9 using microCT and histologic analysis.

Our study revealed that mutant cells, for both gene, were less ciliated and the primary cilia was significantly shorter compared to control cells. We also observed a default in cilia glutamylation by immunofluorescence and Western Blot. Moreover, we observed in both zebrafish model, a 3D spine curvature similar to the spinal deformation in AIS. Interestingly, our preliminary results of immunohistology showed a retinal defect, especially at the cone cell layer level.

This study strongly supports the implication of the ciliary pathway in the onset of AIS and this is the first time that a mechanism is described for AIS. Indeed, we show that shorter cilia could be less sensitive to environmental factors due to lower glutamylation and result in altered signalling pathway. Identifying the biological mechanism involved is crucial for elucidating AIS pathogenesis.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXVII | Pages 43 - 43
1 Jun 2012
Patten SA Fendri K Moldovan F
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Introduction

Adolescent idiopathic scoliosis (AIS) is the most common spinal deformity in children, and its cause is unknown. Recently, researchers have traced a defect in the gene CHD7 to AIS. CHD7 encodes for a chromodomain helicase of the DNA-binding domain protein family and is thought to have a crucial role in many basic cellular functions. However, the functional role of CHD7 in AIS is still elusive. In this study, we investigated the potential pathogenic effect of gene defects in CHD7 in vivo by evaluating their effect on spine formation and development in zebrafish.

Methods

To investigate the function of the CHD7 encoded protein, we generated an antisense morpholino oligonucleotide against the CHD7 gene to disrupt the translation of the gene transcripts and knockdown the levels of its protein. The morpholino was injected into single-cell stage zebrafish embryos. The injected fish were allowed to develop and were then assessed for distinct phenotypes reminiscent of scoliosis by histological stains.