PLX017673

GSE151631: RNA sequencing of corneas from two keratoconus patient groups identifies potential biomarkers and decreased NRF2-antioxidant responses

• Organsim human
• Type RNASEQ
• Target gene
• Project ARCHS4

Purpose: The goals of this study are to identify differentially expressed genes between keratoconus patient and health control.; Methods: We conducted a case: control RNA sequencing study of 7 African American, 12 Middle Eastern subjects, and 7 controls. Total RNA was isolated from individual corneas and sequenced at Macrogen Inc. using the TruSeq stranded RNA library kit. The samples were sequenced at 101 bp using the Illumina HiSeq. 2500 platform. Raw images were generated using the HiSeq Control software v2.2.38, base calling using an integrated primary analysis software, Real time Analysisv1.18.61.0, and converted into FASTQ files using the Illumina package bcl2fastq v1.8.4. The alignment of reads against the human reference genome hg19 was performed using the STAR 2.6.0a software. Followed by gene expression quantification using Cufflinks 2.2.1. The differential expression analysis was conducted by Cuffdiff and DESeq2 (version: 1.24.0). The criteria for significantly differential expression is adjusted p 0.01, absolute fold change 2, and FPKM 5 in at least one group.; Results: We identified an overwhelming decrease in the expression of anti-oxidant genes regulated by NRF2 and those of the acute phase and tissue injury response pathways, in both patient groups. Concordantly, NRF2 immunofluorescence staining was decreased in patient corneas, while KEAP2, which helps to degrade NRF2, was increased. Diminished NRF2 signaling raises the possibility of NRF2 activators as future treatment strategies in keratoconus. Although separated by geography and ancestry, key commonalities in the two patient transcriptomes speak of disease intrinsic gene expression networks. The African American patient group also showed increases in extracellular matrix transcripts that may be due to underlying profibrogenic changes in this group. Transcripts increased across all patient samples include Thrombospondin 2 (THBS2), encoding a matricellular protein, and cellular proteins, GAS1, CASR and OTOP2, and are promising biomarker candidates.; Conclusions: Our approach of analyzing transcriptomic data from different populations and patient groups will help to develop signatures and biomarkers for keratoconus subtypes. Further, RNA sequence data on individual patients obtained from multiple studies may lead to a core keratoconus signature of deregulated genes and a better understanding of its pathogenesis. SOURCE: Shukti Chakravarti (Shukti.Chakravarti@nyulangone.org) - NYU Langone Medical Center