Ellen Sanders scite author profile

Truncating mutations in the tumor suppressor gene adenomatous polyposis coli (APC) are the initiating step in the vast majority of sporadic colorectal cancers, and they underlie familial adenomatous polyposis (FAP) syndromes. Modeling of APC- driven tumor formation in the mouse has contributed substantially to our mechanistic understanding of the associated disease, but additional models are needed to explore therapeutic opportunities and overcome current limitations of mouse models. We report on a novel and penetrant genetic cancer model in Xenopus tropicalis, an aquatic tetrapod vertebrate with external development, diploid genome and short life cycle. Tadpoles and froglets derived from embryos injected with TAL effector nucleases targeting the apc gene rapidly developed intestinal hyperplasia and other neoplasms observed in FAP patients, including desmoid tumors and medulloblastomas. Bi-allelic apc mutations causing frame shifts were detected in the tumors, which displayed activation of the Wnt/β-catenin pathway and showed increased cellular proliferation. We further demonstrate that simultaneous double bi-allelic mutation of apc and a non-relevant gene is possible in the neoplasias, opening the door for identification and characterization of effector or modifier genes in tumors expressing truncated apc. Our results demonstrate the power of modeling human cancer in Xenopus tropicalis using mosaic TALEN-mediated bi-allelic gene disruption.

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RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition

Nunes

Depestel

Mus

et al. 2022

Sci. Adv.

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High-risk neuroblastoma, a pediatric tumor originating from the sympathetic nervous system, has a low mutation load but highly recurrent somatic DNA copy number variants. Previously, segmental gains and/or amplifications allowed identification of drivers for neuroblastoma development. Using this approach, combined with gene dosage impact on expression and survival, we identified ribonucleotide reductase subunit M2 (RRM2) as a candidate dependency factor further supported by growth inhibition upon in vitro knockdown and accelerated tumor formation in a neuroblastoma zebrafish model coexpressing human RRM2 with MYCN. Forced RRM2 induction alleviates excessive replicative stress induced by CHK1 inhibition, while high RRM2 expression in human neuroblastomas correlates with high CHK1 activity. MYCN-driven zebrafish tumors with RRM2 co-overexpression exhibit differentially expressed DNA repair genes in keeping with enhanced ATR-CHK1 signaling activity. In vitro, RRM2 inhibition enhances intrinsic replication stress checkpoint addiction. Last, combinatorial RRM2-CHK1 inhibition acts synergistic in high-risk neuroblastoma cell lines and patient-derived xenograft models, illustrating the therapeutic potential.

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Whole Mount Immunohistochemistry and In Situ Hybridization of Larval and Adult Zebrafish Dental Tissues

Verstraeten

Sanders

Huysseune

2012

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Tooth development is increasingly being studied in a variety of vertebrate model organisms, each contributing its own perspective to our understanding of dental diversity. In situ hybridization and immunohistochemistry are well-established and frequently used techniques to study the presence of mRNA and protein. Here, we describe a protocol for whole mount immunohistochemistry and in situ hybridization that can be applied to all stages of zebrafish development and dissected bony parts. The description of these protocols is followed by the outline of a quick decalcification method and the procedure for embedding in epoxy resin to obtain serial sections with high histological quality.

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Ocular Anterior Segment Dysgenesis upon Ablation of p120 Catenin in Neural Crest Cells

Tian¹,

Sanders²,

Reynolds

et al. 2012

Invest. Ophthalmol. Vis. Sci.

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PURPOSE. Development of the ocular anterior segment depends largely on periocular mesenchyme cells, which are derived predominantly from neural crest cells (NCC). Specific and differential cell adhesion is expected to be instrumental in induction, migration, and differentiation of NCC. As p120 catenin (ctn) is an important component of cadherin-catenin cell adhesion complexes, we assessed its role in development of the anterior segment structure. METHODS.We generated conditional p120ctn fl/fl ;Wnt1Cre knockout mice and studied the effect of this gene ablation on eye development in vivo. In addition, p120ctn was knocked down in vitro.RESULTS. Wnt1Cre-mediated deletion of floxed p120ctn alleles in NCC resulted in serious ocular anterior segment dysgenesis (ASD), including iridocorneal angle closure, complete anterior chamber obliteration, iris and ciliary body hypoplasia, corneal malformation and opacity, and glaucoma-like defects. A completely penetrant phenotype was visible approximately three weeks after birth, but histologic defects were obvious at embryonal day 18.5 (E18.5). Neither migration of NCC nor expression of key transcription factors appeared to be affected. In contrast, the N-cadherin expression pattern was changed significantly in iridocorneal angle cells and corneal endothelium. A human trabecular meshwork cell line in which p120ctn was knocked down also showed decreased expression levels of N-cadherin and b-catenin at the plasma membrane, but no defect in cell migration.CONCLUSIONS. p120ctn has a critical role in ocular mesenchyme development. Loss of p120ctn and the associated N-cadherin downregulation in NCC leads to ASD without affecting cell migration. p120ctn abnormalities might have a role in the pathophysiology of mammalian eye development. (Invest Ophthalmol Vis Sci. 2012;53:5139-5153)

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SOX11 is a lineage-dependency factor and master epigenetic regulator in neuroblastoma

Decaesteker

Louwagie

Loontiens

et al. 2020

Preprint

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The pediatric extra-cranial tumor neuroblastoma (NB) is characterised by a low mutation burden while copy number alterations are present in most high-risk cases. We identified SOX11 as a strong lineage dependency transcription factor in adrenergic NB based on recurrent chromosome 2p focal gains and amplifications, its specific expression in the normal sympatho-adrenal lineage and adrenergic NBs and its regulation by multiple adrenergic specific cis-interacting (super-)enhancers. Adrenergic NBs are strongly dependent on high SOX11 expression levels for growth and proliferation. Through genome-wide DNA-binding and transcriptome analysis, we identified and validated functional SOX11 target genes, several of which implicated in chromatin remodeling and epigenetic modification. SOX11 controls chromatin accessibility predominantly affecting distal adrenergic lineage-specific enhancers marked by binding sites of the adrenergic core regulatory circuitry. During normal sympathoblast differentiation we find expression of SOX11 prior to members of the adrenergic core regulatory circuitry. Given the broad control of SOX11 of multiple epigenetic regulatory complexes and its presumed pioneer factor function, we propose that adrenergic NB cells have co-opted the normal role of SOX11 as a crucial regulator of chromatin accessibility and cell identity.

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Zebrafish teeth as a model for repetitive epithelial morphogenesis: dynamics of E-cadherin expression

et al. 2010

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BackgroundThe development of teeth is the result of interactions between competent mesenchyme and epithelium, both of which undergo extensive morphogenesis. The importance of cell adhesion molecules in morphogenesis has long been acknowledged but remarkably few studies have focused on the distribution and function of these molecules in tooth development.ResultsWe analyzed the expression pattern of an important epithelial cadherin, E-cadherin, during the formation of first-generation teeth as well as replacement teeth in the zebrafish, using in situ hybridization and whole mount immunostaining to reveal mRNA expression and protein distribution. E-cadherin was detected in every layer of the enamel organ during the different stages of tooth development, but there were slight differences between first-generation and replacement teeth in the strength and distribution of the signal. The dental papilla, which is derived from the mesenchyme, did not show any expression. Remarkably, the crypts surrounding the functional teeth showed an uneven distribution of E-cadherin throughout the pharyngeal region.ConclusionsThe slight differences between E-cadherin expression in zebrafish teeth and developing mouse and human teeth are discussed in the light of fundamental differences in structural and developmental features of the dentition between zebrafish and mammals. Importantly, the uninterrupted expression of E-cadherin indicates that down-regulation of E-cadherin is not required for formation of an epithelial tooth bud. Further research is needed to understand the role of other cell adhesion systems during the development of teeth and the formation of replacement teeth.

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Basement membrane penetration by chick embryo primitive streak cells in vitro

Sanders¹

1989

Cell Differentiation and Development

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Armc8 is an evolutionarily conserved armadillo protein involved in cell–cell adhesion complexes through multiple molecular interactions

Gul

Hulpiau

Sanders

et al. 2019

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Armadillo-repeat-containing protein 8 (Armc8) belongs to the family of armadillo-repeat containing proteins, which have been found to be involved in diverse cellular functions including cell–cell contacts and intracellular signaling. By comparative analyses of armadillo repeat protein structures and genomes from various premetazoan and metazoan species, we identified orthologs of human Armc8 and analyzed in detail the evolutionary relationship of Armc8 genes and their encoded proteins. Armc8 is a highly ancestral armadillo protein although not present in yeast. Consequently, Armc8 is not the human ortholog of yeast Gid5/Vid28. Further, we performed a candidate approach to characterize new protein interactors of Armc8. Interactions between Armc8 and specific δ-catenins (plakophilins-1, -2, -3 and p0071) were observed by the yeast two-hybrid approach and confirmed by co-immunoprecipitation and co-localization. We also showed that Armc8 interacts specifically with αE-catenin but neither with αN-catenin nor with αT-catenin. Degradation of αE-catenin has been reported to be important in cancer and to be regulated by Armc8. A similar process may occur with respect to plakophilins in desmosomes. Deregulation of desmosomal proteins has been considered to contribute to tumorigenesis.

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Ellen Sanders

TALEN-mediated apc mutation in Xenopus tropicalis phenocopies familial adenomatous polyposis

RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition

Whole Mount Immunohistochemistry and In Situ Hybridization of Larval and Adult Zebrafish Dental Tissues

Ocular Anterior Segment Dysgenesis upon Ablation of p120 Catenin in Neural Crest Cells

SOX11 is a lineage-dependency factor and master epigenetic regulator in neuroblastoma

Zebrafish teeth as a model for repetitive epithelial morphogenesis: dynamics of E-cadherin expression

Basement membrane penetration by chick embryo primitive streak cells in vitro

Armc8 is an evolutionarily conserved armadillo protein involved in cell–cell adhesion complexes through multiple molecular interactions

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