Low-Input RNA-Sequencing in Patients with Cartilage Lesions, Osteoarthritis, and Healthy Cartilage

Cartilage. 2021 Dec;13(1_suppl):550S-562S. doi: 10.1177/19476035211057245. Epub 2021 Nov 15.

Abstract

Objective: To analyze and compare cartilage samples from 3 groups of patients utilizing low-input RNA-sequencing.

Design: Cartilage biopsies were collected from patients in 3 groups (n = 48): Cartilage lesion (CL) patients had at least ICRS grade 2, osteoarthritis (OA) samples were taken from patients undergoing knee replacement, and healthy cartilage (HC) was taken from ACL-reconstruction patients without CLs. RNA was isolated using an optimized protocol. RNA samples were assessed for quality and sequenced with a low-input SmartSeq2 protocol.

Results: RNA isolation yielded 48 samples with sufficient quality for sequencing. After quality control, 13 samples in the OA group, 9 in the HC group, and 9 in the CL group were included in the analysis. There was a high degree of co-clustering between the HC and CL groups with only 6 genes significantly up- or downregulated. OA and the combined HC/CL group clustered significantly separate from each other, yielding 659 significantly upregulated and 1,369 downregulated genes. GO-term analysis revealed that genes matched to cartilage and connective tissue development terms.

Conclusion: The gene expression profiles from the 3 groups suggest that there are no major differences in gene expression between cartilage from knees with a cartilage injury and knees without an apparent cartilage injury. OA cartilage, as expected, showed markedly different gene expression from the other 2 groups. The gene expression profiles resulting from this low-input RNA-sequencing study offer opportunities to discover new pathways not previously recognized that may be explored in future studies.

Keywords: cartilage lesion; gene expression; healthy cartilage; knee cartilage; osteoarthritis.

MeSH terms

  • Arthroplasty, Replacement, Knee*
  • Cartilage Diseases* / pathology
  • Cartilage, Articular* / pathology
  • Humans
  • Osteoarthritis, Knee* / surgery
  • RNA

Substances

  • RNA