Browse
Submit Data
Databases
API
Help

Dataset Information

0 Views

0 Connections

0 Citations

0 Reanalyses

0 Downloads

Omics score: 0

Conditional expression of oncogenic KrasG12D and HrasG12D alleles in mouse keratinocytes reveals a dose dependent requirement for tumor formation.

ABSTRACT: The discovery that activation of the Hras gene was the driver mutation for tumor development in mouse skin treated with 7,12-dimethylbenz(a)anthracene illuminated the link between environmental and molecular carcinogenesis. Subsequent studies revealed that activating mutations in the closely related Kras gene could also drive skin tumor development and progression under certain conditions. To address a head to head comparison of downstream signaling produced by each activated oncogene primary keratinocytes were isolated from the LSL-HrasG12D and LSL -KrasG12D C57BL/6J mouse models that carry conditionally expressed mutant alleles when a Lox-STOP-Lox segment is excised by Cre recombinase adenovirus treatment. Keratinocytes expressing two mutant alleles of HrasG12D (HH), only one mutant allele of HrasG12D (H), one mutant allele of KrasG12D (K) or one mutant allele of each (HK) were evaluated for differences in downstream signaling, gene expression and the ability to form squamous papillomas orthotopically in vivo.

ORGANISM(S): Mus musculus

PROVIDER: GSE200607 | GEO | 2022/11/03

REPOSITORIES: GEO

ACCESS DATA

Json Xml

Dataset's files

Source:

			Action	DRS
		Other

Items per page:

1 - 1 of 1

Similar Datasets

RNAseq of mutant TP53 HCT116 cell line clones generated via CRISPR editing

Project description:To compare the impact of several TP53 mutant variants in an isogenic setting, different TP53 mutations were introduced in HCT116 colorectal carcinoma cells. This parental cell line is wild-type for TP53 and shows a prototypical p53 response. To ensure unambigous genotype-phenotype correlations, the cell were haploidized prior to CRISPR-editing by introducing inactivating deletions of intronic splicing into one of the two TP53 alleles, leaving only one functional copy of TP53. The remaining TP53 allele was altered by inserting a LoxP-flanked transcriptional stop cassette (Lox-Stop-Lox, LSL) into intron 4, which allowed reversible silencing of TP53 expression. The LSL cassette was then specifically targeted with CRISPR/Cas9 to introduce a variety of different mutant p53 alleles. The competency of the mutated p53 allele to induce a p53 response upon activation using Nutlin-3a was then assessed in an RNAseq experiment.

2024-10-16 | E-MTAB-12734 | biostudies-arrayexpress

Comparing the gene signature of mouse primary keratinocytes expressing a KrasG12D allele on mixed C57BL/6 :FVB/N background versus an F3 FVB/N backcross

Project description:LSL-KrasG12D mice were backcrossed with FVB/N mice and primary keratinocytes were harvested were from F1 and F3 and transduced in vitro with a Cre adenovirus to express a single mutant Kras allele. When cultures were harvested and transplanted on athymic hosts large squamous papilloma formed within 3 weeks but only from F3 keratinocyte cultures

2022-11-03 | GSE200632 | GEO

Master Regulators of oncogenic KRAS response in Pancreatic Cancer

Project description:We derived a transcriptional signature of oncogenic KRAS by using the KF508 murine pancreatic ductal cell line with an inducible Lox-Stop-Lox (LSL) cassette in front of the KRASG12D oncogene to regulate transcription. This dataset allowed us to study the differential expression profile after oncogenic KRAS induction in mouse.

2016-11-16 | GSE89846 | GEO

Transcriptomic output of endogenous KRasG12D and modestly overexpressed MYC in MEFs

Project description:We sought to compare the transcriptomic output of Kras activation with that of modestly overexpressed cMYC, to better understand the mechanism of oncogenic cooperation. We isolated fibrobalsts from mouse embryos carrying CRE-inducible alleles for KRasG12D (LSL-KRasG12D) and MYC (Rosa26-LSL-MYC), alongside double positive and wild-type control MEFs. All MEFs were infected at early passage with Adeno-CMV-CRE, to induced expression of conditional alleles, where present, and RNA was isolated 24hrs post infection.

2020-03-16 | E-MTAB-6824 | biostudies-arrayexpress

Differential gene expression in Fosl1 siRNA vs Control siRNA treated murine pancreatic cancer cells

Project description:A subset of human pancreatic ductal adenocarcinoma cells (PDACs) is characterized by high Fosl1 expression and Fosl1 is linked to the control of pro-inflammatory pathways and growth of PDAC cells. To mimick the human disease in mice (> 90% of PDAC patients harbour Kras mutations) the mutated LSL-KrasG12D allele was combined with the pancreas specific Cre recombinase Ptf1aCre (p48Cre). The two pancreatic cancer cell lines (Ptf1aCre, LSL-KrasG12D/+) were isolated from these mice and used for transcriptomics studies. The two different murine pancreatic cancer cell lines (Ptf1aCre, LSL-KrasG12D) were treated with two different Fosl1 siRNAs and one control siRNA, each. 72h after transfection a sufficient knockdown was tested by immunoblotting and qPCR. Total mRNA was isolated and checked for integrity. According to manufacture's recommendation the samples were subjected to microarray analysis using the Affymetrix Mouse Gene ST 1.0 array chip to discover differentially expressed genes.

2016-12-23 | E-MTAB-4299 | biostudies-arrayexpress

Murine Pancreatic Cancer Cells: KLF10 wild type vs KLF10 knockout

Project description:Transcriptional profiling of mouse pancreatic cancer cells comparing Pdx-1Cre LSL-KrasG12D P53L/L cells with Pdx-1Cre LSL-KrasG12D KLF10L/L P53L/L cells, and to determine the effects of KLF10 deficiency on murine PDAC gene expression. Two-condition experiment, Pdx-1Cre LSL-KrasG12D P53L/L cells vs. Pdx-1Cre LSL-KrasG12D KLF10L/L P53L/L cells: 3 KLF10 wild type replicates, 3 KLF10 knockout replicates.

2016-08-22 | E-GEOD-85521 | biostudies-arrayexpress

Blocking oncogenic Ras-induced β-catenin degradation and prosenescent inflammation redirects premature senescence to mesenchymal transformation (miRNA expression)

Project description:We constructed LSL-KrasG12D/+ and Spc-Cre;LSL-KrasG12D/+ mice to investigate the role of microRNA in the pathogenesis of lung cancer

2019-06-30 | GSE132096 | GEO

Effect of Notch4 deletion on pancreatic tumorigenesis in mice

Project description:The gene expression of N4-/-PKC (Notch4 -/-; p16fl/fl;LSL-KrasG12D;p48-Cre) mouse pancreatic tumor cell lines was compared to that of PKC ( p16fl/fl; LSL-KrasG12D;p48-Cre) mouse pancreatic tumor cell lines

2023-03-20 | GSE184060 | GEO

RNA-seq analysis between mouse UPS tumors (KP) and mouse UPS tumors without HIF-2alpha (KPH2)

Project description:Purpose: determine RNA expression differences in an unbiased fashion between UPS tumors derived from LSL-KrasG12D;Trp53-/- (KP) mice, and UPS tumors derived from LSL-KrasG12D;Trp53-/-;Epas1-/- (KPH2) mice. Epas1 encodes HIF-2alpha protein.

2015-12-31 | GSE67672 | GEO

TGIF1 loss contributes to progression of KRASG12D-induced pancreatic ductal adenocarcinoma involving HAS2-CD44 activation and PD-L1 upregulation.

Project description:Transcriptional profiling of mouse Pancreatic cancer cells comparing Pdx1-Cre LSL-KrasG12D TGIF1L/L P53L/L cells with Pdx1-Cre LSL-KrasG12D P53L/L cells, and to determine the effects of TGIF1 deletion on PDAC gene expression.

2018-01-22 | GSE108843 | GEO

OmicsDI is part of the ELIXIR infrastructure

OmicsDI is an Elixir interoperability service. Learn more ›

Tweets

OmicsDI Databases

PRIDE
PeptideAtlas
MassIVE
JPOST Repository
Physiome Model Repository

EGA
EVA
ENA
LINCS
PAXDB
Cell Collective

MetaboLights
Metabolomics Workbench
MetabolomeExpress
GNPS
BioModels
FAIRDOMHub

ArrayExpress
dbGaP
ExpressionAtlas
GEO
NODE

Information

Databases
Help
API
Contact us
Code on GitHub
Terms of use
Submit Data