An integrated computational and experimental study uncovers
            <scp>FUT</scp>
            9 as a metabolic driver of colorectal cancer

Auslander, Noam; Cunningham, Chelsea E.; Toosi, Behzad M.; McEwen, Emily; Yizhak, Keren; Vizeacoumar, Frederick S.; Parameswaran, Sreejit; Gonen, N; Freywald, Tanya; Bhanumathy, Kalpana K.; Freywald, Andrew; Vizeacoumar, Franco J.; Ruppin, Eytan

doi:10.15252/msb.20177739

Cited by 36 publications

(23 citation statements)

References 68 publications

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“…We confirmed the impact of SFTPB UTR mutations by performing a genome-wide association analysis of expression differences and found that samples with SFTPB mutations showed lower RNA abundance in PCDHA7 , a gene known to be involved in cells’ self-recognition and non-self-discrimination (chi-squared p -value 3.6 × 10 -8 ). While other promising candidates exist, such as FUT9 , a fucosyltransferase involved in organ bud progression during embryogenesis and has been implicated in cancer initiation 36 , we found no additional evidence for supporting its driver status.…”

Section: Resultscontrasting

confidence: 85%

Retrospective evaluation of whole exome and genome mutation calls in 746 cancer samples

et al. 2020

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The Cancer Genome Atlas (TCGA) and International Cancer Genome Consortium (ICGC) curated consensus somatic mutation calls using whole exome sequencing (WES) and whole genome sequencing (WGS), respectively. Here, as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium, which aggregated whole genome sequencing data from 2,658 cancers across 38 tumour types, we compare WES and WGS side-by-side from 746 TCGA samples, finding that ~80% of mutations overlap in covered exonic regions. We estimate that low variant allele fraction (VAF < 15%) and clonal heterogeneity contribute up to 68% of private WGS mutations and 71% of private WES mutations. We observe that ~30% of private WGS mutations trace to mutations identified by a single variant caller in WES consensus efforts. WGS captures both ~50% more variation in exonic regions and un-observed mutations in loci with variable GC-content. Together, our analysis highlights technological divergences between two reproducible somatic variant detection efforts.

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Section: Resultscontrasting

confidence: 85%

Retrospective evaluation of whole exome and genome mutation calls in 746 cancer samples

et al. 2020

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“…Yet, in the human samples we have not detected any significant alteration of FUT4 (Figure 2). Importantly, despite the reported expression of FUT9 in human colon [74], we were unable to detect measureable amount of FUT9 transcript in the colon samples independently of the status of inflammation, despite using three different primer and probe sets (data not shown).…”

Section: Support Of Immune Cell Traffickingmentioning

confidence: 73%

Transcriptome Based Profiling of the Immune Cell Gene Signature in Rat Experimental Colitis and Human IBD Tissue Samples

et al. 2020

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Chronic intestinal inflammation is characteristic of Inflammatory Bowel Disease (IBD) that is associated with the exaggerated infiltration of immune cells. A complex interplay of inflammatory mediators and different cell types in the colon are responsible for the maintenance of tissue homeostasis and affect pathological conditions. Gene expression alteration of colon biopsies from IBD patients and an in vivo rat model of colitis were examined by RNA-Seq and QPCR, while we used in silico methods, such as Ingenuity Pathway Analysis (IPA) application and the Immune Gene Signature (ImSig) package of R, to interpret whole transcriptome data and estimate immune cell composition of colon tissues. Transcriptome profiling of in vivo colitis model revealed the most significant activation of signaling pathways responsible for leukocyte recruitment and diapedesis. We observed significant alteration of genes related to glycosylation or sensing of danger signals and pro- and anti-inflammatory cytokines and chemokines, as well as adhesion molecules. We observed the elevated expression of genes that implies the accumulation of monocytes, macrophages, neutrophils and B cells in the inflamed colon tissue. In contrast, the rate of T-cells slightly decreased in the inflamed regions. Interestingly, natural killer and plasma cells do not show enrichment upon colon inflammation. In general, whole transcriptome analysis of the in vivo experimental model of colitis with subsequent bioinformatics analysis provided a better understanding of the dynamic changes in the colon tissue of IBD patients.

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“…In the present study, we exploited the CRISPR-dCas9-VPR system for transcriptional activation of certain α1-3 fucosyltransferase genes, Fut4 (Giordano et al 2015) and Fut9 (Auslander et al 2017), playing a major role in colorectal cancer pathogenesis. According to our findings, transcriptional activation of the Fut4 and Fut9 genes in MC38 cells resulted in specific neo-expression of the Lewis x antigen on the cell surface.…”

Section: Discussionmentioning

confidence: 99%

“…Although different fucosyltransferases are responsible for its synthesis, fucosyltransferase 4 (FUT4) and fucosyltransferase 9 (FUT9) are the most competent ones in synthesizing Lewis x (Mondal et al 2018). Notably, both enzymes are strongly associated with colorectal cancer progression, metastasis and resistance to chemotherapy (Giordano et al 2015, Auslander et al 2017). However, the biosynthetic properties of the FUT4 and FUT9 enzymes and the potential effect of increased Lewis x expression on the glycosylation status of colorectal cancer cells have not been fully investigated yet.…”

Section: Introductionmentioning

confidence: 99%

Transcriptional activation of fucosyltransferase (FUT) genes using the CRISPR-dCas9-VPR technology reveals potent N-glycome alterations in colorectal cancer cells

et al. 2018

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Aberrant fucosylation in cancer cells is considered as a signature of malignant cell transformation and it is associated with tumor progression, metastasis and resistance to chemotherapy. Specifically, in colorectal cancer cells, increased levels of the fucosylated Lewisx antigen are attributed to the deregulated expression of pertinent fucosyltransferases, like fucosyltransferase 4 (FUT4) and fucosyltransferase 9 (FUT9). However, the lack of experimental models closely mimicking cancer-specific regulation of fucosyltransferase gene expression has, so far, limited our knowledge regarding the substrate specificity of these enzymes and the impact of Lewisx synthesis on the glycome of colorectal cancer cells. Therefore, we sought to transcriptionally activate the Fut4 and Fut9 genes in the well-known murine colorectal cancer cell line, MC38, which lacks expression of the FUT4 and FUT9 enzymes. For this purpose, we utilized a physiologically relevant, guide RNA-based model of de novo gene expression, namely the CRISPR-dCas9-VPR system. Induction of the Fut4 and Fut9 genes in MC38 cells using CRISPR-dCas9-VPR resulted in specific neo-expression of functional Lewisx antigen on the cell surface. Interestingly, Lewisx was mainly carried by N-linked glycans in both MC38-FUT4 and MC38-FUT9 cells, despite pronounced differences in the biosynthetic properties and the expression stability of the induced enzymes. Moreover, Lewisx expression was found to influence core-fucosylation, sialylation, antennarity and the subtypes of N-glycans in the MC38-glycovariants. In conclusion, exploiting the CRISPR-dCas9-VPR system to augment glycosyltransferase expression is a promising method of transcriptional gene activation with broad application possibilities in glycobiology and oncology research.

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An integrated computational and experimental study uncovers FUT 9 as a metabolic driver of colorectal cancer

Cited by 36 publications

References 68 publications

Retrospective evaluation of whole exome and genome mutation calls in 746 cancer samples

Retrospective evaluation of whole exome and genome mutation calls in 746 cancer samples

Transcriptome Based Profiling of the Immune Cell Gene Signature in Rat Experimental Colitis and Human IBD Tissue Samples

Transcriptional activation of fucosyltransferase (FUT) genes using the CRISPR-dCas9-VPR technology reveals potent N-glycome alterations in colorectal cancer cells

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