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Tetrahedral Framework Nuclear Acids Can Regulate Interleukin-17 Pathway to Alleviate Inflammation and Inhibit Heterotopic Ossification in Ankylosing Spondylitis

Lihang Wang, Yun Wang, Yang Jiang, Ming Chen, Zhuhai Li, Kai Wang, Chunshan Luo, Ning Ning, Jiancheng Zeng, Zongke Zhou, Yueming Song, Fan Yang, Shishu Huang, Yunfeng Lin

2023ACS Nano23 citationsDOI

Abstract

Ankylosing spondylitis (AS) is a chronic systemic inflammatory disease that leads to serious spinal deformity and ankylosis. Persistent inflammation and progressive ankylosis lead to loss of spinal flexibility in patients with AS. Tetrahedral framework nucleic acids (tFNAs) have emerged as a one kind of nanomaterial composed of four specially designed complementary DNA single strands with outstanding biological properties. Results from in vivo experiments demonstrated that tFNAs treatment could inhibit inflammatory responses and heterotopic ossification to halt disease progression. In vitro, tFNAs were proved to influence the biological behavior of AS primary chondrocytes and inhibit the secretion of pro-inflammatory cytokines through interleukin-17 pathway. The osteogenic process of chondrocytes was as well inhibited at the transcriptional level to regulate the expression of related proteins. Therefore, we believe tFNAs had a strong therapeutic effect and could serve as a nonsurgical remedy in the future to help patients suffering from AS.

Topics & Concepts

Ankylosing spondylitisOssificationInflammationAnkylosisHeterotopic ossificationImmunologyMedicineEnthesisCancer researchBioinformaticsBiologyPathologyAnatomySurgeryTendonSpondyloarthritis Studies and TreatmentsBone and Joint DiseasesEosinophilic Disorders and Syndromes
Tetrahedral Framework Nuclear Acids Can Regulate Interleukin-17 Pathway to Alleviate Inflammation and Inhibit Heterotopic Ossification in Ankylosing Spondylitis | Litcius