Cytoskeletal Keratins Are Overexpressed in a Zebrafish Model of Idiopathic Scoliosis

Overview

Journal Genes (Basel)

Publisher MDPI

Date 2023 May 27

PMID 37239418

Authors

Melissa Cuevas

Elizabeth Terhune

Cambria Wethey

MkpoutoAbasi James

Rahwa Netsanet

Denisa Grofova

Anna Monley

Nancy Hadley Miller

Affiliations

Soon will be listed here.

Abstract

Idiopathic scoliosis (IS) is a three-dimensional rotation of the spine >10 degrees with an unknown etiology. Our laboratory established a late-onset IS model in zebrafish () containing a deletion in . A total of 25% of zebrafish develop spinal curvatures and are otherwise developmentally normal, although the molecular mechanisms underlying the scoliosis are unknown. To define transcripts associated with scoliosis in this model, we performed bulk mRNA sequencing on 6 weeks past fertilization (wpf) zebrafish with and without scoliosis. Additionally, we sequenced , and AB zebrafish ( = 3 per genotype). Sequencing reads were aligned to the GRCz11 genome and FPKM values were calculated. Differences between groups were calculated for each transcript by the -test. Principal component analysis showed that transcriptomes clustered by sample age and genotype. mRNA was mildly reduced in both homozygous and heterozygous zebrafish compared to AB. Sonic hedgehog target genes were upregulated in zebrafish over AB, but no difference was detected between scoliotic and non-scoliotic mutants. The top upregulated genes in scoliotic zebrafish were cytoskeletal keratins. Pankeratin staining of 6 wpf scoliotic and non-scoliotic zebrafish showed increased keratin levels within the zebrafish musculature and intervertebral disc (IVD). Keratins are major components of the embryonic notochord, and aberrant keratin expression has been associated with intervertebral disc degeneration (IVDD) in both zebrafish and humans. The role of increased keratin accumulation as a molecular mechanism associated with the onset of scoliosis warrants further study.

Citing Articles

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Li D, Wan X, Yun Y, Li Y, Duan W Curr Genomics. 2024; 25(4):261-297.

PMID: 39156728 PMC: 11327808. DOI: 10.2174/0113892029273121240401060228.

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