PUBLICATION

DiGeorge Syndrome Gene tbx1 Functions through wnt11r to Regulate Heart Looping and Differentiation

Authors

Choudhry, P., and Trede, N.S.

ID

ZDB-PUB-130410-19

Date

2013

Source

PLoS One 8(3): e58145 (Journal)

Registered Authors

Trede, Nick

Keywords

Heart, Zebrafish, Embryos, Cardiac ventricles, Cardiac atria, Larvae, Heart development, Gene regulation

MeSH Terms

Animals
Cell Differentiation/genetics
Cell Differentiation/physiology
DiGeorge Syndrome/genetics*
Gene Expression Regulation, Developmental/genetics
Gene Expression Regulation, Developmental/physiology
Heart/embryology*
T-Box Domain Proteins/genetics*
T-Box Domain Proteins/metabolism*
Zebrafish
Zebrafish Proteins/genetics*
Zebrafish Proteins/metabolism*

(all 12)

PubMed

23533583 Full text @ PLoS One

Abstract

DiGeorge syndrome (DGS) is the most common microdeletion syndrome, and is characterized by congenital cardiac, craniofacial and immune system abnormalities. The cardiac defects in DGS patients include conotruncal and ventricular septal defects. Although the etiology of DGS is critically regulated by TBX1 gene, the molecular pathways underpinning TBX1's role in heart development are not fully understood. In this study, we characterized heart defects and downstream signaling in the zebrafish tbx1^/ mutant, which has craniofacial and immune defects similar to DGS patients. We show that tbx1^/ mutants have defective heart looping, morphology and function. Defective heart looping is accompanied by failure of cardiomyocytes to differentiate normally and failure to change shape from isotropic to anisotropic morphology in the outer curvatures of the heart. This is the first demonstration of tbx1's role in regulating heart looping, cardiomyocyte shape and differentiation, and may explain how Tbx1 regulates conotruncal development in humans. Next we elucidated tbx1's molecular signaling pathway guided by the cardiac phenotype of tbx1^/ mutants. We show for the first time that wnt11r (wnt11 related), a member of the non-canonical Wnt pathway, and its downstream effector gene alcama (activated leukocyte cell adhesion molecule a) regulate heart looping and differentiation similarly to tbx1. Expression of both wnt11r and alcama are downregulated in tbx1^/ mutants. In addition, both wnt11r^/ mutants and alcama morphants have heart looping and differentiation defects similar to tbx1^/ mutants. Strikingly, heart looping and differentiation in tbx1^/ mutants can be partially rescued by ectopic expression of wnt11r or alcama, supporting a model whereby heart looping and differentiation are regulated by tbx1 in a linear pathway through wnt11r and alcama. This is the first study linking tbx1 and non-canonical Wnt signaling and extends our understanding of DGS and heart development.

Genes / Markers

Marker	Marker Type	Name
alcama	GENE	activated leukocyte cell adhesion molecule a
bmp4	GENE	bone morphogenetic protein 4
elnb	GENE	elastin b
myh6	GENE	myosin, heavy chain 6, cardiac muscle, alpha
myh7	GENE	myosin heavy chain 7
myl7	GENE	myosin, light chain 7, regulatory
notch1b	GENE	notch receptor 1b
nppa	GENE	natriuretic peptide A
tbx1	GENE	T-box transcription factor 1
tbx20	GENE	T-box transcription factor 20

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Figures

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Expression

Phenotype

Fish	Conditions	Stage	Phenotype	Figure
WT + MO3-alcama	standard conditions	Long-pec	heart looping disrupted, abnormal	Fig. 7
tbx1^tm208/+; wnt11^fh224/+	standard conditions	Long-pec	heart looping disrupted, abnormal	Fig. 6
tbx1^tm208/tm208	standard conditions	Prim-15	heart jogging disrupted, abnormal	Fig. 1
tbx1^tm208/tm208	standard conditions	Prim-25 to Long-pec	atrium decreased angle to cardiac ventricle, abnormal	Fig. 1
tbx1^tm208/tm208	standard conditions	Prim-25 to Long-pec	heart looping disrupted, abnormal	Fig. 1
tbx1^tm208/tm208	standard conditions	Prim-25 to Long-pec	heart straight, abnormal	Fig. 1
tbx1^tm208/tm208	standard conditions	Long-pec	cardiac muscle cell circular, abnormal	Fig. 2
tbx1^tm208/tm208	standard conditions	Long-pec	cardiac muscle cell shape, abnormal	Fig. 2
tbx1^tm208/tm208	standard conditions	Long-pec	cardiac ventricle increased width, abnormal	Fig. S1
tbx1^tm208/tm208	standard conditions	Long-pec	cardiac ventricle shortened, abnormal	Fig. S1

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Mutations / Transgenics

Allele	Construct	Type	Affected Genomic Region
fh224		Point Mutation	wnt11
tm208		Point Mutation	tbx1
twu34Tg	Tg(myl7:EGFP)	Transgenic Insertion

Human Disease / Model

Human Disease	Fish	Conditions	Evidence
DiGeorge syndrome			TAS

Sequence Targeting Reagents

Target	Reagent	Reagent Type
alcama	MO3-alcama	MRPHLNO

Fish

Fish
tbx1^tm208/+; wnt11^fh224/+
tbx1^tm208/tm208
tbx1^tm208/tm208; twu34Tg
twu34Tg
wnt11^fh224/fh224
WT
WT + MO3-alcama

Antibodies

Orthology

Engineered Foreign Genes

Marker	Marker Type	Name
EGFP	EFG	EGFP

Mapping

Choudhry et al., 2013 ZDB-PUB-130410-19 PMID:23533583

DiGeorge Syndrome Gene tbx1 Functions through wnt11r to Regulate Heart Looping and Differentiation

Choudhry et al., 2013

ZDB-PUB-130410-19
PMID:23533583