Project description:Transcriptional Profiling of the Transition from Normal Intestinal Epithelia to Adenomas and Carcinomas in the APC(Min/+) Mouse. Samples used in analysis: * GSM6191-GSM6196 (WT): Ilea epithelial cells from C57/BL6 wild-type samples * GSM6197-GSM6201 (Adenoma): Epithelial cells from crypts of adenomas of APC(Min/+) mice * GSM6202-GSM6206 (Carcinoma): Epithelial cells from crypts of carcinomas of APC(Min/+) mice Using a PixCell IIe instrument (Arcturus), ~30,000 laser firings per sample were used to collect cells of interest. RNA was extracted from captured cells by PicoPure (Arcturus) technique, followed by 2 rounds of RiboAmp amplification (Arcturus), with incorporation of biotinylated nucleotides (Enzo) in the IVT of round 2. All protocols were as per manufacturers instructions. 15ug of labeled cRNA from individual samples were hybridized to respective MG_U74Av2 chips (Affymetrix) and washed/stained using the standard EukGEWS2v4 protocol (Affymetrix). Chips were scanned and analyzed using MAS 5 (Affymetrix) and data scaled to TI=500. Pairwise comparisons using the Mann-Whitney test were performed in DMT 3 (Affymetrix), comparing: * WT vs Adenoma (n=6 x n=5; 83.3% concordance) * WT vs Carcinoma (n=5 x n=5; 84% concordance) * Adenoma vs Carcinoma (n=5 x n=5; 84% concordance) This resulted in the identification of differentially expressed transcripts. Fold changes were calculated from signal-log-ratios. Identified transcripts were clustered based on functional information which was publicly available at time of analysis, obtained through the NetAffx web portal (Affymetrix). Keywords = colon cancer Keywords = gene expression Keywords = DNA microarrays Keywords = beta-catenin Keywords = familial adenomatous polyposis Keywords: ordered

Project description:To investigate the role of RAD21 in the transcriptional regulation of global gene expression at early stage of colorectal cancer developments, we peformed the genome-wide analysis to map genomic regions bound by Rad21 in normal small testinal crypts and tumors (adenomas) harvested from Apc Min/+ mice using ChIP-seq. ChIP-seq naalysis identified high confidence RAD21 binding sites unique to normal crypts or adenomas, as well as those common to both tissues. We further performed RNA-seq to profile the changes in gene expression from normal WT crypts to adenomas at the very early stage of adenomagenesis in the context of Rad21 heterozygous loss. mRNA profiles of normal small intestinal crypts (WT) and adenomas from Apc Min/+ and Apc Min/+:Rad21+/- double mutant mouse; Mapping of Rad21 genomic binding sites in normal intestinal crypts (WT) and Apc Min/+ adenomas

Project description:Oncogenic mutations that drive colorectal cancer can be present in healthy intestines for long periods without overt consequence. Mutation of Adenomatous polyposis coli (Apc), the most common initiating event in conventional adenomas, activates Wnt signaling, hence conferring fitness on mutant intestinal stem cells (ISCs). Apc mutations may occur in ISCs that arose by routine self-renewal or by dedifferentiation of their progeny. Although ISCs of these different origins are fundamentally similar, it is unclear if both generate tumours equally well in uninjured intestines. Also unknown is whether cis-regulatory elements are substantively modulated upon Wnt hyperactivation or as a feature of subsequent tumours. Here, we show in two mouse models that adenomas are not an obligatory outcome of Apc deletion in either ISC source but require proximity of mutant intestinal crypts. Reduced crypt density abrogates, and aggregation of mutant colonic crypts augments, adenoma formation. Moreover, adenoma-resident ISCs open chromatin at thousands of enhancers that are inaccessible in Apc-null ISCs not associated with adenomas. These cis-elements explain adenoma-selective gene activity and persist, with little further expansion of the repertoire, as other oncogenic mutations accumulate. Thus, cooperativity between neighbouring mutant crypts and new accessibility at specific enhancers are key steps early in intestinal tumourigenesis.

Project description:Oncogenic mutations that drive colorectal cancer can be present in healthy intestines for long periods without overt consequence. Mutation of Adenomatous polyposis coli (Apc), the most common initiating event in conventional adenomas, activates Wnt signaling, hence conferring fitness on mutant intestinal stem cells (ISCs). Apc mutations may occur in ISCs that arose by routine self-renewal or by dedifferentiation of their progeny. Although ISCs of these different origins are fundamentally similar, it is unclear if both generate tumours equally well in uninjured intestines. Also unknown is whether cis-regulatory elements are substantively modulated upon Wnt hyperactivation or as a feature of subsequent tumours. Here, we show in two mouse models that adenomas are not an obligatory outcome of Apc deletion in either ISC source but require proximity of mutant intestinal crypts. Reduced crypt density abrogates, and aggregation of mutant colonic crypts augments, adenoma formation. Moreover, adenoma-resident ISCs open chromatin at thousands of enhancers that are inaccessible in Apc-null ISCs not associated with adenomas. These cis-elements explain adenoma-selective gene activity and persist, with little further expansion of the repertoire, as other oncogenic mutations accumulate. Thus, cooperativity between neighbouring mutant crypts and new accessibility at specific enhancers are key steps early in intestinal tumourigenesis.

Project description:Oncogenic mutations that drive colorectal cancer can be present in healthy intestines for long periods without overt consequence. Mutation of Adenomatous polyposis coli (Apc), the most common initiating event in conventional adenomas, activates Wnt signaling, hence conferring fitness on mutant intestinal stem cells (ISCs). Apc mutations may occur in ISCs that arose by routine self-renewal or by dedifferentiation of their progeny. Although ISCs of these different origins are fundamentally similar, it is unclear if both generate tumours equally well in uninjured intestines. Also unknown is whether cis-regulatory elements are substantively modulated upon Wnt hyperactivation or as a feature of subsequent tumours. Here, we show in two mouse models that adenomas are not an obligatory outcome of Apc deletion in either ISC source but require proximity of mutant intestinal crypts. Reduced crypt density abrogates, and aggregation of mutant colonic crypts augments, adenoma formation. Moreover, adenoma-resident ISCs open chromatin at thousands of enhancers that are inaccessible in Apc-null ISCs not associated with adenomas. These cis-elements explain adenoma-selective gene activity and persist, with little further expansion of the repertoire, as other oncogenic mutations accumulate. Thus, cooperativity between neighbouring mutant crypts and new accessibility at specific enhancers are key steps early in intestinal tumourigenesis.

Project description:Oncogenic mutations that drive colorectal cancer can be present in healthy intestines for long periods without overt consequence. Mutation of Adenomatous polyposis coli (Apc), the most common initiating event in conventional adenomas, activates Wnt signaling, hence conferring fitness on mutant intestinal stem cells (ISCs). Apc mutations may occur in ISCs that arose by routine self-renewal or by dedifferentiation of their progeny. Although ISCs of these different origins are fundamentally similar, it is unclear if both generate tumours equally well in uninjured intestines. Also unknown is whether cis-regulatory elements are substantively modulated upon Wnt hyperactivation or as a feature of subsequent tumours. Here, we show in two mouse models that adenomas are not an obligatory outcome of Apc deletion in either ISC source but require proximity of mutant intestinal crypts. Reduced crypt density abrogates, and aggregation of mutant colonic crypts augments, adenoma formation. Moreover, adenoma-resident ISCs open chromatin at thousands of enhancers that are inaccessible in Apc-null ISCs not associated with adenomas. These cis-elements explain adenoma-selective gene activity and persist, with little further expansion of the repertoire, as other oncogenic mutations accumulate. Thus, cooperativity between neighbouring mutant crypts and new accessibility at specific enhancers are key steps early in intestinal tumourigenesis.

Project description:To investigate the role of RAD21 in the transcriptional regulation of global gene expression at early stage of colorectal cancer developments, we peformed the genome-wide analysis to map genomic regions bound by Rad21 in normal small testinal crypts and tumors (adenomas) harvested from Apc Min/+ mice using ChIP-seq. ChIP-seq naalysis identified high confidence RAD21 binding sites unique to normal crypts or adenomas, as well as those common to both tissues. We further performed RNA-seq to profile the changes in gene expression from normal WT crypts to adenomas at the very early stage of adenomagenesis in the context of Rad21 heterozygous loss.

Project description:Transcriptional Profiling of the Transition from Normal Intestine to Adenoma in the APC(Min/+) Mouse. Tissue was from male 91-days old APC(Min/+) mouse (an animal model for human colon cancer). RNA was purified using Trizol and labeled for hybridization to high density oligonucleotide Affymetrix MG_U74Av2 arrays, using manufacturer protocol. We measured the relative expression level of >12000 genes and ESTs. ----------------------------------------- Samples used in analysis: * GSM12501: Normal intestine diet #1 sample C1_0112 Dnmt+/- Min/+ * GSM12502: Tumor diet #1 sample T1_0112 Dnmt+/- Min/+ * GSM12503: Normal intestine diet #1 sample C2_0112 Dnmt+/+ Min/+ * GSM12504: Tumor diet #1 sample T2_0112 Dnmt+/+ Min/+ * GSM12505: Normal intestine diet #2 sample C1_003 Dnmt+/- Min/+ * GSM12506: Tumor diet #2 sample T1_003 Dnmt+/- Min/+ * GSM12507: Normal intestine diet #2 sample C2_003 Dnmt+/+ Min/+ * GSM12508: Tumor diet #2 sample T2_003 Dnmt+/+ Min/+ * GSM12509: Normal intestine diet #3 sample C1_005 Dnmt+/- Min/+ * GSM12510: Tumor diet #3 sample T1_005 Dnmt+/- Min/+ * GSM12511: Normal intestine diet #3 sample C2_005 Dnmt+/+ Min/+ * GSM12512: Tumor diet #3 sample T2_005 Dnmt+/+ Min/+ - - - - - - - - - - - - - - - - - - - - - Comparisons were performed as described in Chen Z, Ge B, Hudson TJ and Rozen R. Gene Expression Patterns 1, 89-93, 2002. Comparing Normal intestine vs Adenoma. - - - - - - - - - - - - - - - - - - - - - This resulted in the identification of differentially expressed transcripts. Identified transcripts were clustered based on functional information which was publicly available at time of analysis, obtained through the NetAffx WEB portal (www.Affymetrix.com) and literature. Keywords = Mouse Keywords = Min Keywords = normal Keywords = intestine Keywords = tumor Keywords = tumour Keywords = colon cancer Keywords = gene expression Keywords = beta-catenin Keywords = high density oligonucleotide microarrays Keywords = familial adenomatous polyposis Keywords = FAP Keywords = colorectal cancer Keywords = Affymetrix MGU74Av2 GeneChip probe array Keywords = mouse model Keywords = APC Keywords = adenomatous polyposis coli Keywords: ordered

Project description:We wanted to assess the role of Lef1 in ex vivo organoids using genetic mouse models of intestinal adenomas and scRNA-seq technology. Tumorigenesis was initiated by inducing Apc mutation in Lgr5+ stem cells. Intestinal cells of Lgr5-CreERT;Apc fl/fl (LApc) mouse and Lgr5-CreERT;Apc fl/fl; Lef1 fl/fl (LApcL) mouse were used to generate adenoma organoids. Organoids were cultured without growth factors for three passages and dissociated with Tryple express. We used WT mice as a control to distinguish adenoma cells. WT organoids were cultured with growth factors.

Project description:Background & aim: Flat adenomas form a specific phenotype of colorectal adenomas that has been associated with more severe molecular changes and consequently a more aggressive clinical behavior compared to their polypoid counterparts. In the present study we set out to compare one of the molecular changes most explicitly associated with adenoma to carcinoma progression, i.e. chromosomal instability, between flat and polypoid colorectal adenomas. Methods: Consecutive series of 83 flat and 35 polypoid adenomas were analyzed for DNA copy number changes using a high resolution arrayCGH platform as well as for mutations in the adenomatous polyposis coli (APC) gene. Gene ontology on the genes located on the significantly different regions was performed. Results: Overall, flat adenomas show similar DNA copy number changes as polypoid adenomas. Patterns of DNA copy number changes differed between the two phenotypes with significantly more frequently loss of 5q14.3 and 5q15-q23.3 in flat adenomas, while loss of 1p36.32-p35.3, 10q25.2-q25.3, 17p12 and chromosome 18 were more frequent in polypoid adenomas. The 5q15-q23.3 region harbors the APC locus, therefore mutation status of APC was investigated, showing significantly less mutations in flat adenomas. Pathway analysis and datamining linked the 5q region to inflammation. Conclusion: These results provide evidence that flat and polypoid adenomas have partly overlapping DNA copy number changes, while alterations more specific to flat adenomas have associations with inflammation. Loss of 5q has been associated with aggressive behavior and this could serve as an explanation for a more aggressive clinical behavior of flat lesions. FFPE colorectal tissue samples of 35 polypoid adenomas and 83 flat adenomas. Test samples were compared to an external pool of normal male/female reference DNA.