FUT8 promotes breast cancer cell invasiveness by remodeling TGF-β receptor core fucosylation

Tu, Cheng Fen; Wu, Mengying; Lin, Yuh‐Charn; Kannagi, Reiji; Yang, Ruey‐Bing

doi:10.1186/s13058-017-0904-8

Cited by 167 publications

(162 citation statements)

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“…For these QTL regions, moreover, we found that some candidate genes can be predicted in the 11_Block2 and 19_Block5, while no candidate gene was discovered within the 12_Block2 and 16_Block1 regions. For the 11_Block2, the FUT8 was found to be a signaling receptor involved in many physiological and pathological processes [64], implying that this QTL might be related to cell growth. In the 19_Block5, the SLC9A3, EXOC3, AHRR, CEP72, PRB1 , and TPPP genes were predicted.…”

Section: Discussionmentioning

confidence: 99%

Genome-wide analysis reveals genetic diversity, linkage disequilibrium, and selection for milk traits in Chinese buffalo breeds

Duan

Liang

et al. 2019

Preprint

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12 Water buffalo holds the tremendous potential of milk and meat that widespread 13 throughout central and southern China. However, characterization of the population 14 genetics of Chinese buffalo is poorly understood. Using Axiom ® buffalo genotyping 15 array, we performed the genetic diversity, linkage disequilibrium (LD) pattern and 16 signature of selection in the 176 Chinese buffaloes from thirteen breeds. A total of 17 35,547 SNPs passed quality control and were used for further analyses. Population 18 genetic analysis revealed a clear separation between the swamp and river types. Ten 19 Chinese indigenous breeds clustered into the swamp group, Murrah and Nili-Ravi 20 breeds were the river group, and the crossbred breed was closer to the river group.21 Genetic diversity analysis showed that the swamp group had a lower average expected 22 heterozygosities compared to the river group. LD decay distance was much shorter in 23 the swamp group compared with the river group with value of approximately 50 2 0.2 24 Kb. Analysis of runs of homozygosity indicated that extensive remote and recent 25 inbreeding activity was respectively found within swamp and river groups. Moreover, 26 a total of 12 genomic regions under selection were detected between river and swamp 27 groups. Further, 12 QTL regions were found associated with buffalo milk production 28 traits. Some candidate genes within these QTLs were predicted to be involved in the 2 29 cell structure and function, suggesting that these genes might play vital roles in the 30 buffalo milk performance. Our data contribute to our understanding of the 31 characterization of population genetics in Chinese buffaloes, which in turn may be 32 utilized in buffalo breeding programs.33 Author Summary 34 Identifying the causal genes or markers associated with important economic traits in 35 livestock is critical to increasing the production level on the species. However, current 36 understanding of the genetic basis for milk production traits in buffalo is limited.37 Here, we confirmed the divergent evolution, distinct population structure, and LD 38 extent among Chinese buffalo breeds. We also identified 12 QTL regions associated 39 with milk production traits in buffaloes using the selective sweeps and haplotype 40 analysis. Further, a total of 7 genes involved in the cell structure and function were 41 predicted within the identified QTLs. These findings suggested that these genes can 42 serve as the candidate genes associated with buffalo milk production, which hold a 43 vital role in the milk trait improvement of dairy buffalo industry. Introduction45 Water buffalo (Bubalus bubalis), primarily raised for milk, meat and draught power, 46 is an essential part of the agricultural economy of many countries around the world. 47 Broadly, buffalo mainly consists of two types: the river (B. bubalis bubalis; n=50) and 48 swamp (B. bubalis carabensis; n=48), which are primarily distinguished based on 49 their distinct morphology and chromosomal karyotypes [1]. In China, the indi...

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Section: Discussionmentioning

confidence: 99%

Genome-wide analysis reveals genetic diversity, linkage disequilibrium, and selection for milk traits in Chinese buffalo breeds

Duan

Liang

et al. 2019

Preprint

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“…EMT-related genes such as COL11A1, COL8A2, and ADAM12 that are overexpressed in mCA could thus be potential biomarkers for canine invasive mCA, similarly to human mCA (Freire et al, 2015;Kleinert et al, 2015;Ma et al, 2015). In the glycolysis pathway, PLOD1/2, FUT8 and TSTA3 are deregulated genes that participate in metabolism and glycolytic processes, which can influence the malignant transformation of cells, tumour development and metastasis (Gilkes et al, 2013;Kim et al, 2012;Tu et al, 2017). Among the targets that are strongly differentially expressed between CAS from mCA and adenoma, we validated the selective down--regulation of ARVCF in adenoma.…”

Section: Results Transcriptomic Profiling Of Matched Cas and Normal Smentioning

confidence: 88%

Differential stromal reprogramming in benign and malignant naturally occurring canine mammary tumours identifies disease-promoting stromal components

Amini

Nassiri

Malbon

et al. 2019

Preprint

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statement: RNAsequencing--based analysis of stromal reprogramming between benign and malignant naturally occurring canine mammary tumours identifies potential molecular drivers in cancer--associated stroma that support tumour growth and malignancy. AbstractThe importance of cancer--associated stroma (CAS) for initiation and progression of cancer is well accepted. However, as stromal changes in benign forms of naturally occurring tumours are poorly understood, it remains unclear how CAS from benign and malignant tumours compare. Spontaneous canine mammary tumours are viewed as excellent models of human mammary carcinomas (mCA). We have recently reported highly conserved stromal reprogramming between canine and human mCA based on transcriptome analysis of laser--capture-microdissected FFPE specimen. To identify stromal changes between benign and malignant mammary tumours, we have analysed CAS and matched normal stroma from 13 canine mammary adenomas and compared them to 15 canine mCA. Our analyses revealed distinct stromal reprogramming even in small benign tumours. While similarities in stromal reprogramming exist, the CAS signature clearly distinguished adenomas from mCA, suggesting that it may reliably discriminate between benign and malignant tumours. We identified strongly discriminatory genes and found strong differential enrichment in several hallmark signalling pathways between benign and malignant CAS. The distinction between CAS from adenoma and mCA was further substantiated by differential abundance in cellular composition. Finally, to determine key players in CAS reprograming between adenomas and mCA, a network--based gene screening method identified modules of co--expressing genes with distinct expression profile in benign and malignant CAS, and revealed several hub genes as potential molecular drivers in CAS. Given the relevance of canine CAS as a model for the human disease, our

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“…The addition of a 1,6 linked fucose to the chain initiating GlcNAc on complex N-glycans is catalyzed by the fucosyltransferase, FUT8 (Yang et al, 2017). FUT8-mediated core-fucoylation has been implicated as a driver of cancer invasiveness in breast cancer by fucosylation of TGF-β (Tu et al, 2017), in colorectal cancer through a p53-mediated mechanism (Noda et al, 2018), in melanoma by fucosylation of L1CAM (Agrawal et al, 2017), through a β-catenin– and LEF-1–dependent mechanism in nonsmall cell lung cancer (Chen et al, 2013), and through miRNA regulation of fucosylation in hepatocellular carcinoma (Cheng et al, 2016b).…”

Section: Critical Glycan Moieties Aberrantly Expressed In Cancermentioning

confidence: 99%

Don’t sugarcoat it: How glycocalyx composition influences cancer progression

Buffone

Weaver

2019

Journal of Cell Biology

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Mechanical interactions between tumors and the extracellular matrix (ECM) of the surrounding tissues have profound effects on a wide variety of cellular functions. An underappreciated mediator of tumor–ECM interactions is the glycocalyx, the sugar-decorated proteins and lipids that act as a buffer between the tumor and the ECM, which in turn mediates all cell-tissue mechanics. Importantly, tumors have an increase in the density of the glycocalyx, which in turn increases the tension of the cell membrane, alters tissue mechanics, and drives a more cancerous phenotype. In this review, we describe the basic components of the glycocalyx and the glycan moieties implicated in cancer. Next, we examine the important role the glycocalyx plays in driving tension-mediated cancer cell signaling through a self-enforcing feedback loop that expands the glycocalyx and furthers cancer progression. Finally, we discuss current tools used to edit the composition of the glycocalyx and the future challenges in leveraging these tools into a novel tractable approach to treat cancer.

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FUT8 promotes breast cancer cell invasiveness by remodeling TGF-β receptor core fucosylation

Cited by 167 publications

References 39 publications

Genome-wide analysis reveals genetic diversity, linkage disequilibrium, and selection for milk traits in Chinese buffalo breeds

Genome-wide analysis reveals genetic diversity, linkage disequilibrium, and selection for milk traits in Chinese buffalo breeds

Differential stromal reprogramming in benign and malignant naturally occurring canine mammary tumours identifies disease-promoting stromal components

Don’t sugarcoat it: How glycocalyx composition influences cancer progression

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