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Series GSE164069

Query DataSets for GSE164069

Status

Public on Oct 11, 2022

Title

Lamin A/C-dependent chromatin architecture safeguards naïve pluripotency to prevent aberrant cardiovascular cell fate and function

Organism

Experiment type

Expression profiling by high throughput sequencing
Genome binding/occupancy profiling by high throughput sequencing
Other

Summary

Tight control of cell fate choices is crucial for normal development. Here we show that lamin A/C plays a key role in chromatin organization in embryonic stem cells (ESCs), which safeguards naïve pluripotency and ensures proper cell fate choices during cardiogenesis. We find major changes in chromatin compaction and localization of cardiac genes already in Lmna−/−ESCs resulting in precocious activation of a transcriptional program promoting cardiomyocyte versus endothelial cell fate, accompanied by premature cardiomyocyte differentiation, cell cycle withdrawal, and abnormal contractility. Gata4 is activated by lamin A/C loss and Gata4 silencing or haploinsufficiency rescues the aberrant cardiovascular cell fate choices induced by lamin A/C deficiency. Importantly, we observe divergent functions of lamin A/C in naïve pluripotent stem cells and cardiomyocytes, which has distinct contributions to the transcriptional alterations of patients with LMNA-associated cardiomyopathy. Thus, disruption of lamin A/C-dependent chromatin architecture in ESCs is a primary event in LMNA loss-of-function cardiomyopathy.

Overall design

Refer to individual Series

Citation(s)

Submission date

Dec 30, 2020

Last update date

Jan 10, 2023

Contact name

Gergana Dobreva

E-mail(s)

[email protected]

Organization name

Medical Faculty Mannheim/University of Heidelberg

Department

Cardiovascular Genomics and Epigenomics

Lab

AG Dobreva

Street address

Ludolf-Krehl-Str. 7-11

City

Mannheim

State/province

Baden Württemberg

ZIP/Postal code

68167

Country

Germany

Platforms (2)

GPL19057	Illumina NextSeq 500 (Mus musculus)
GPL23479	BGISEQ-500 (Mus musculus)

Samples (55)

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GSM4995991	ESC_LMNA_ctr_RNA_seq_Rep1
GSM4995992	ESC_LMNA_ctr_RNA_seq_Rep2
GSM4995993	ESC_LMNA_ctr_RNA_seq_Rep3

GSM4995994	ESC_LMNA_KO_RNA_seq_Rep1
GSM4995995	ESC_LMNA_KO_RNA_seq_Rep2
GSM4995996	ESC_LMNA_KO_RNA_seq_Rep3
GSM4995997	Day6_CPC_sorted_LMNA_ctr_RNA_seq_Rep1
GSM4995998	Day6_CPC_sorted_LMNA_ctr_RNA_seq_Rep2
GSM4995999	Day6_CPC_sorted_LMNA_ctr_RNA_seq_Rep3
GSM4996000	Day6_CPC_sorted_LMNA_KO_RNA_seq_Rep1
GSM4996001	Day6_CPC_sorted_LMNA_KO_RNA_seq_Rep2
GSM4996002	Day6_CPC_sorted_LMNA_KO_RNA_seq_Rep3
GSM4996003	Day10_EBs_LMNA_ctr_RNA_seq_Rep1
GSM4996004	Day10_EBs_LMNA_ctr_RNA_seq_Rep2
GSM4996005	Day10_EBs_LMNA_ctr_RNA_seq_Rep3
GSM4996006	Day10_EBs_LMNA_KO_RNA_seq_Rep1
GSM4996007	Day10_EBs_LMNA_KO_RNA_seq_Rep2
GSM4996008	Day10_EBs_LMNA_KO_RNA_seq_Rep3
GSM4996009	Day10_sorted_CM_LMNA_ctr_RNA_seq_Rep1
GSM4996010	Day10_sorted_CM_LMNA_ctr_RNA_seq_Rep2
GSM4996011	Day10_sorted_CM_LMNA_ctr_RNA_seq_Rep3
GSM4996012	Day10_sorted_CM_LMNA_KO_RNA_seq_Rep1
GSM4996013	Day10_sorted_CM_LMNA_KO_RNA_seq_Rep2
GSM4996014	Day10_sorted_CM_LMNA_KO_RNA_seq_Rep3
GSM4996015	Day10_CM_LMNA_KD_RNA_seq_Rep1
GSM4996016	Day10_CM_LMNA_KD_RNA_seq_Rep2
GSM4996017	Day10_CM_LMNA_KD_RNA_seq_Rep3
GSM4996018	Day10_CM_LMNA_PLKO_RNA_seq_Rep1
GSM4996019	Day10_CM_LMNA_PLKO_RNA_seq_Rep2
GSM4996020	Day10_CM_LMNA_PLKO_RNA_seq_Rep3
GSM4996021	ESC_LMNA_ctr_ATAC_seq_Rep1
GSM4996022	ESC_LMNA_ctr_ATAC_seq_Rep2
GSM4996023	ESC_LMNA_ctr_ATAC_seq_Rep3
GSM4996024	ESC_LMNA_KO_ATAC_seq_Rep1
GSM4996025	ESC_LMNA_KO_ATAC_seq_Rep2
GSM4996026	ESC_LMNA_KO_ATAC_seq_Rep3
GSM4996027	CM_LMNA_ctr_ATAC_seq_Rep1
GSM4996028	CM_LMNA_ctr_ATAC_seq_Rep2
GSM4996029	CM_LMNA_ctr_ATAC_seq_Rep3
GSM4996030	CM_LMNA_KO_ATAC_seq_Rep1
GSM4996031	CM_LMNA_KO_ATAC_seq_Rep2
GSM4996032	CM_LMNA_KO_ATAC_seq_Rep3
GSM4996033	ESC_LMNA_ctr_HIC_seq_Rep1
GSM4996034	ESC_LMNA_ctr_HIC_seq_Rep2
GSM4996035	ESC_LMNA_ctr_HIC_seq_Rep3
GSM4996036	ESC_LMNA_KO_HIC_seq_Rep1
GSM4996037	ESC_LMNA_KO_HIC_seq_Rep2
GSM4996038	ESC_LMNA_KO_HIC_seq_Rep3
GSM6438105	ESC_Lmna_ctr_fromMUT_ATAC_seq_Rep1
GSM6438106	ESC_Lmna_ctr_fromMUT_ATAC_seq_Rep2
GSM6438107	ESC_Lmna_G609G_het_ATAC_seq_Rep1
GSM6438108	ESC_Lmna_G609G_het_ATAC_seq_Rep2
GSM6438109	ESC_Lmna_G609G_hom_ATAC_seq_Rep1
GSM6438110	ESC_Lmna_H222P_hom_ATAC_seq_Rep1
GSM6438111	ESC_Lmna_H222P_hom_ATAC_seq_Rep2

This SuperSeries is composed of the following SubSeries:

More...

GSE164061	Lamin A/C-dependent chromatin architecture safeguards naïve pluripotency to prevent aberrant cardiovascular cell fate and function[RNA-seq_ESC]
GSE164062	Lamin A/C-dependent chromatin architecture safeguards naïve pluripotency to prevent aberrant cardiovascular cell fate and function[RNA-seq_CPC]
GSE164063	Lamin A/C-dependent chromatin architecture safeguards naïve pluripotency to prevent aberrant cardiovascular cell fate and function[RNA-seq_D10 EBs]

Relations

BioProject

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
GSE164069_RAW.tar	1.0 Gb	(http)(custom)	TAR (of BW)
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