Cohesin composition and dosage independently affect early development in zebrafish

Author:

Labudina Anastasia A.1,Meier Michael1,Gimenez Gregory1,Tatarakis David2,Ketharnathan Sarada1,Mackie Bridget1,Schilling Thomas F.2,Antony Jisha1,Horsfield Julia A.1ORCID

Affiliation:

1. Dunedin School of Medicine, University of Otago 1 Department of Pathology , , P.O. Box 913, Dunedin 9016 , New Zealand

2. University of California, Irvine 2 Department of Developmental and Cell Biology , , Irvine, CA 92697-2300 , USA

Abstract

ABSTRACT Cohesin, a chromatin-associated protein complex with four core subunits (Smc1a, Smc3, Rad21 and either Stag1 or 2), has a central role in cell proliferation and gene expression in metazoans. Human developmental disorders termed ‘cohesinopathies’ are characterized by germline variants of cohesin or its regulators that do not entirely eliminate cohesin function. However, it is not clear whether mutations in individual cohesin subunits have independent developmental consequences. Here, we show that zebrafish rad21 or stag2b mutants independently influence embryonic tailbud development. Both mutants have altered mesoderm induction, but only homozygous or heterozygous rad21 mutation affects cell cycle gene expression. stag2b mutants have narrower notochords and reduced Wnt signaling in neuromesodermal progenitors as revealed by single-cell RNA sequencing. Stimulation of Wnt signaling rescues transcription and morphology in stag2b, but not rad21, mutants. Our results suggest that mutations altering the quantity versus composition of cohesin have independent developmental consequences, with implications for the understanding and management of cohesinopathies.

Funder

Royal Society Te Apārangi

University of Otago

Fulbright New Zealand

National Institutes of Health

National Science Foundation

Simons Foundation

Publisher

The Company of Biologists

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