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Single‐cell <scp>RNA</scp> Seq reveals cellular l<scp>andscape‐specific</scp> characteristics and potential etiologies for adolescent idiopathic scoliosis

Yilin Yang, Mingyuan Yang, Dongliang Shi, Kai Chen, Jian Zhao, Shisheng He, Yushu Bai, Pinquan Shen, Haijian Ni

2021JOR Spine18 citationsDOIOpen Access PDF

Abstract

BACKGROUNDS: Abnormal vertebral growth and development have been found in adolescent idiopathic scoliosis (AIS) patients, and the proliferation and differentiation of bone development-related cells play important roles in its pathogenesis. However, a comprehensive single-cell-level differentiation roadmap in AIS has not been achieved. METHODS: The present study compared the single-cell level cellular landscapes of spinal cancellous bone tissues between AIS patients and healthy subjects using high throughput single-cell RNA sequencing (scRNA-seq), which covers multiple cellular lineages including osteoblast, chondrocyte, osteoclast and related immunocytes. We constructed the differentiation trajectories of bone development-related cell lineages through pseudotime analysis, and the intercellular-communication networks between bone development-related cells and immunocytes were further developed. RESULTS: -Distributed stochastic neighbor embedding (t-SNE) analysis showed that mesenchymal stem cells (MSC) were classified into three subtypes: MSC-LOXL2, MSC-IGFBP5, and MSC-GJA1. Gene ontology (GO) analysis showed that MSC-GJA1 might possess greater osteoblast differentiation potential than the others. MSC-IGFBP5 was the specific MSC subtype observed only in AIS. There were two distinct gene expression clusters: OB-DPT and OB-OLFML2B, and the counts of osteoblasts derived from AIS was significantly less than that of non-AIS subjects. In AIS patients, MSC-IGFBP5 failed to differentiate into osteoblasts and exhibited negative regulation of cell proliferation and enhanced cell death. CPC-PCNA was found to be the specific chondrocyte progenitor cell (CPC) subtype observed only in AIS patients. The cell counts of OC-BIRC3 in AIS were less than those in controls. Pseudotime analysis suggested two possible distinct osteoclast differentiation patterns in AIS and control subjects. Monocytes in AIS mainly differentiated into OC-CRISP3. CONCLUSIONS: Our single-cell analysis first revealed differences existed in the cellular states between AIS patients and healthy subjects and found the differentiation disruption of specific MSC and CPC clusters in AIS. Cell communication analysis provided the possible pathogenesis of osteoblast and chondrocyte differentiation dysfunction in AIS.

Topics & Concepts

OsteoblastProgenitor cellChondrocyteCell growthCellular differentiationMesenchymal stem cellCellBiologyStem cellCell biologyGeneGeneticsAnatomyCartilageIn vitroScoliosis diagnosis and treatmentConnective tissue disorders researchSpine and Intervertebral Disc Pathology
Single‐cell <scp>RNA</scp> Seq reveals cellular l<scp>andscape‐specific</scp> characteristics and potential etiologies for adolescent idiopathic scoliosis | Litcius