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Series GSE65439

Query DataSets for GSE65439

Status

Public on Oct 01, 2015

Title

Two Forkhead transcription factors regulate cardiac progenitor specification by controlling the expression of receptors of the fibroblast growth factor and Wnt signaling pathways

Organism

Drosophila melanogaster

Experiment type

Expression profiling by array

Summary

Cardiogenesis involves multiple biological processes acting in concert during development, a coordination achieved by the regulation of diverse cardiac genes by a finite set of transcription factors (TFs). Previous work from our laboratory identified the roles of two Forkhead TFs, Checkpoint suppressor homologue (CHES-1-like) and Jumeau (Jumu) in governing cardiac progenitor cell divisions by regulating Polo kinase activity. These TFs were also implicated in the regulation of numerous other cardiac genes. Here we show that these two Forkhead TFs play an additional and mutually redundant role in specifying the cardiac mesoderm (CM): eliminating the functions of both CHES-1-like and jumu in the same embryo results in defective hearts with missing hemisegments. Our observations indicate that this process is mediated by the Forkhead TFs regulating the fibroblast growth factor receptor Heartless (Htl) and the Wnt receptor Frizzled (Fz), both previously known to function in cardiac progenitor specification: CHES-1-like and jumu exhibit synergistic genetic interactions with htl and fz in CM specification, thereby implying function through the same genetic pathways, and transcriptionally activate the expression of both receptor-encoding genes. Furthermore, ectopic overexpression of either htl or fz in the mesoderm partially rescues the defective CM specification phenotype seen in embryos doubly homozygous for mutations in jumu and CHES-1-like. Together, these data emphasize the functional redundancy that leads to robustness in the cardiac progenitor specification process mediated by Forkhead TFs regulating the expression of signaling pathway receptors, and illustrate the pleiotropic functions of this class of TFs in different aspects of cardiogenesis.

Overall design

GFP-positive cells were profiled from Stage 11-early Stage 12 Drosophila embryos of the following three genotypes:
Df(1)CHES-1-like1; twi-GAL4 UAS-2EGFP
twi-GAL4 Df(3R)Exel6157/UAS-2EGFP Df(3R)Exel6157
twi-GAL4 UAS-2EGFP

Contributor(s)

Ahmad SM, Bhattacharyya P, Jeffries N, Gisselbrecht SS, Michelson AM

Citation(s)

22814603, 26657774, 33547352

Submission date

Jan 29, 2015

Last update date

Feb 16, 2021

Contact name

Shaad M. Ahmad

E-mail(s)

[email protected]

Organization name

National Heart Lung and Blood Institute

Department

Systems Biology Center

Lab

Laboratory of Developmental Systems Biology

Street address

Building 10, Room 7N311, 10 Center Drive MSC 1654

City

Bethesda

State/province

ZIP/Postal code

20892

Country

USA

Platforms (1)

GPL1322

[Drosophila_2] Affymetrix Drosophila Genome 2.0 Array

Samples (9)

More...

GSM1596206	GFP-positive cells from Df(1)CHES-1-like1; twi-GAL4 UAS-2EGFP embryos, rep 1
GSM1596207	GFP-positive cells from Df(1)CHES-1-like1; twi-GAL4 UAS-2EGFP embryos, rep 2
GSM1596208	GFP-positive cells from Df(1)CHES-1-like1; twi-GAL4 UAS-2EGFP embryos, rep 3

Relations

BioProject

PRJNA274039

Download family	Format
SOFT formatted family file(s)	SOFT
MINiML formatted family file(s)	MINiML
Series Matrix File(s)	TXT

Supplementary file	Size	Download	File type/resource
GSE65439_RAW.tar	17.8 Mb	(http)(custom)	TAR (of CEL)
Processed data included within Sample table