| Q37284950 | 90K Glycoprotein Promotes Degradation of Mutant β-Catenin Lacking the ISGylation or Phosphorylation Sites in the N-terminus |
| Q26739665 | A Second WNT for Old Drugs: Drug Repositioning against WNT-Dependent Cancers |
| Q34550256 | A Tale of Two Signals: AR and WNT in Development and Tumorigenesis of Prostate and Mammary Gland. |
| Q44439656 | A genetically inducible porcine model of intestinal cancer |
| Q35881172 | A kinome siRNA screen identifies HGS as a potential target for liver cancers with oncogenic mutations in CTNNB1. |
| Q33838881 | AA-NAT, MT1 and MT2 Correlates with Cancer Stem-Like Cell Markers in Colorectal Cancer: Study of the Influence of Stage and p53 Status of Tumors |
| Q38754856 | Anticancer Activity of Buttermilk Against SW480 Colon Cancer Cells is Associated with Caspase-Independent Cell Death and Attenuation of Wnt, Akt, and ERK Signaling |
| Q42371219 | Apigenin in cancer therapy: anti-cancer effects and mechanisms of action. |
| Q48254792 | Appendiceal goblet cell carcinoids and adenocarcinomas ex-goblet cell carcinoid are genetically distinct from primary colorectal-type adenocarcinoma of the appendix |
| Q36627473 | Arsenic trioxide inhibits viability and induces apoptosis through reactivating the Wnt inhibitor secreted frizzled related protein-1 in prostate cancer cells |
| Q52314668 | Bioengineered Systems and Designer Matrices That Recapitulate the Intestinal Stem Cell Niche. |
| Q41921396 | Bortezomib induces protective autophagy through AMP-activated protein kinase activation in cultured pancreatic and colorectal cancer cells |
| Q60912542 | CDX2 inhibits the proliferation and tumor formation of colon cancer cells by suppressing Wnt/β-catenin signaling via transactivation of GSK-3β and Axin2 expression |
| Q95841364 | Canonical WNT/β-Catenin Signaling Activated by WNT9b and RSPO2 Cooperation Regulates Facial Morphogenesis in Mice |
| Q51747985 | Carcinogenesis and Reactive Oxygen Species Signaling: Interaction of the NADPH Oxidase NOX1-5 and Superoxide Dismutase 1-3 Signal Transduction Pathways. |
| Q36707594 | Characterizing the activation of the Wnt signaling pathway in hilar cholangiocarcinoma using a tissue microarray approach |
| Q49959087 | Chir99021 and Valproic acid reduce the proliferative advantage of Apc mutant cells |
| Q44407394 | Closing the loop on the bone-resorbing osteoclast |
| Q50057883 | Colorectal Cancer Disparity in African Americans: Risk Factors and Carcinogenic Mechanisms |
| Q34027850 | Colorectal cancers mimic structural organization of normal colonic crypts |
| Q45325369 | Crosstalk between H9N2 avian influenza virus and crypt-derived intestinal organoids |
| Q39173519 | Culturing human intestinal stem cells for regenerative applications in the treatment of inflammatory bowel disease. |
| Q58799557 | DBC1 regulates Wnt/β-catenin-mediated expression of MACC1, a key regulator of cancer progression, in colon cancer |
| Q38824254 | Developmental signalling pathways in renal fibrosis: the roles of Notch, Wnt and Hedgehog |
| Q52348724 | Dishevelled: A masterful conductor of complex Wnt signals. |
| Q47133043 | Divergent effects of Wnt/β-catenin signaling modifiers on the preservation of human limbal epithelial progenitors according to culture condition |
| Q46457131 | Diverse Phytochemicals and Bioactivities in the Ancient Fruit and Modern Functional Food Pomegranate (Punica granatum). |
| Q47136528 | Driver pattern identification over the gene co-expression of drug response in ovarian cancer by integrating high throughput genomics data. |
| Q28066424 | Drug Discovery via Human-Derived Stem Cell Organoids |
| Q50638021 | Ecdysone signaling opposes epidermal growth factor signaling in regulating cyst differentiation in the male gonad of Drosophila melanogaster. |
| Q33802858 | Embryonic stem cell markers Sox-2 and OCT4 expression and their correlation with WNT signal pathway in cervical squamous cell carcinoma |
| Q100490624 | Emerging role of tumor cell plasticity in modifying therapeutic response |
| Q27027733 | Endoplasmic reticulum stress in hepatic steatosis and inflammatory bowel diseases |
| Q37649449 | Epigenetic and genetic deregulation in cancer target distinct signaling pathway domains |
| Q92525224 | Establishment of a novel culture method for maintaining intestinal stem cells derived from human induced pluripotent stem cells |
| Q41831171 | Establishment of a tagged variant of Lgr4 receptor suitable for functional and expression studies in the mouse. |
| Q91405647 | FGF Signalling in the Self-Renewal of Colon Cancer Organoids |
| Q37097913 | Feedback Regulation in a Cancer Stem Cell Model can Cause an Allee Effect. |
| Q47103216 | FilaminA and Formin2 regulate skeletal, muscular, and intestinal formation through mesenchymal progenitor proliferation. |
| Q42910479 | Flavors of EGFR-Ras signals impacting intestinal homeostasis |
| Q91639493 | Frizzled-10 Extracellular Vesicles Plasma Concentration Is Associated with Tumoral Progression in Patients with Colorectal and Gastric Cancer |
| Q40069010 | Functional Enterospheres Derived In Vitro from Human Pluripotent Stem Cells. |
| Q64939214 | Functional link between plasma membrane spatiotemporal dynamics, cancer biology, and dietary membrane-altering agents. |
| Q43281043 | Gastrointestinal adverse effects of cyclin-dependent kinase 4 and 6 inhibitors in breast cancer patients: a systematic review and meta-analysis |
| Q47099108 | Gene expression profile comparison between colorectal cancer and adjacent normal tissues |
| Q28084346 | Genetics and Genetic Biomarkers in Sporadic Colorectal Cancer |
| Q38603810 | Genomic dissection of conserved transcriptional regulation in intestinal epithelial cells. |
| Q64912081 | HSV-1 single-cell analysis reveals the activation of anti-viral and developmental programs in distinct sub-populations. |
| Q91523394 | Hepatic transcriptomics analysis reveals that fructose intervention down-regulated xenobiotics-metabolising enzymes through aryl hydrocarbon receptor signalling suppression in C57BL/6N mice |
| Q40169192 | High fat diet-induced obesity increases the formation of colon polyps induced by azoxymethane in mice |
| Q38231786 | Hippo-YAP signaling pathway: A new paradigm for cancer therapy |
| Q90369334 | IRBIT Directs Differentiation of Intestinal Stem Cell Progeny to Maintain Tissue Homeostasis |
| Q89422636 | Identification of Critical Genes and Five Prognostic Biomarkers Associated with Colorectal Cancer |
| Q38264789 | Immunohistochemical Characterization of Large Intestinal Adenocarcinoma in the Rhesus Macaque (Macaca mulatta). |
| Q50050335 | Impact of Altered WNT2B Expression on Bladder Wall Fibroblasts: Implications for Apoptosis Regulation in the Stroma of the Lower Urinary Tract |
| Q28551498 | In Vitro Polarization of Colonoids to Create an Intestinal Stem Cell Compartment |
| Q89389069 | In Vitro Transcriptome Response to a Mixture of Lactobacilli Strains in Intestinal Porcine Epithelial Cell Line |
| Q88792583 | Innate Recognition of the Microbiota by TLR1 Promotes Epithelial Homeostasis and Prevents Chronic Inflammation |
| Q43378641 | Intestinal Organoids-Current and Future Applications. |
| Q39388017 | Intestinal barrier integrity and inflammatory bowel disease: Stem cell-based approaches to regenerate the barrier. |
| Q47109270 | Involvement of miR-451 in resistance to paclitaxel by regulating YWHAZ in breast cancer |
| Q33721363 | Keratins regulate colonic epithelial cell differentiation through the Notch1 signalling pathway |
| Q52619157 | LGR5 and BMI1 Increase Pig Intestinal Epithelial Cell Proliferation by Stimulating WNT/β-Catenin Signaling. |
| Q28076085 | Long-Term Culture of Intestinal Cell Progenitors: An Overview of Their Development, Application, and Associated Technologies |
| Q48000666 | Long-term effect of parasympathetic or sympathetic denervation on intestinal epithelial cell proliferation and apoptosis. |
| Q37672680 | Loss of AXIN1 drives acquired resistance to WNT pathway blockade in colorectal cancer cells carrying RSPO3 fusions |
| Q58805925 | MASTL induces Colon Cancer progression and Chemoresistance by promoting Wnt/β-catenin signaling |
| Q64053811 | MEK inhibitors activate Wnt signalling and induce stem cell plasticity in colorectal cancer |
| Q39339639 | Mend Your Fences: The Epithelial Barrier and its Relationship With Mucosal Immunity in Inflammatory Bowel Disease |
| Q50129679 | MicroRNA in gastrointestinal cell signalling |
| Q92890000 | Molecular mutation characteristics of mismatch and homologous recombination repair genes in gastrointestinal cancer |
| Q38953543 | Molecular pathways driving disease-specific alterations of intestinal epithelial cells |
| Q61798124 | Msx1 loss suppresses formation of the ectopic crypts developed in the Apc-deficient small intestinal epithelium |
| Q92941250 | Mucosal Injury during Anti-Cancer Treatment: From Pathobiology to Bedside |
| Q93344920 | NHE8 Deficiency Promotes Colitis-Associated Cancer in Mice via Expansion of Lgr5-Expressing Cells |
| Q38324456 | Nanocarrier-mediated drugs targeting cancer stem cells: an emerging delivery approach |
| Q26801253 | New and emerging factors in tumorigenesis: an overview |
| Q92856883 | Podocan Promotes Differentiation of Bovine Skeletal Muscle Satellite Cells by Regulating the Wnt4-β-Catenin Signaling Pathway |
| Q36775710 | Positive cross talk between protein kinase D and β-catenin in intestinal epithelial cells: impact on β-catenin nuclear localization and phosphorylation at Ser552 |
| Q28117769 | Post-transcriptional regulation of Wnt co-receptor LRP6 and RNA-binding protein HuR by miR-29b in intestinal epithelial cells |
| Q37665239 | Prognostic impact of the expression of Wnt-signaling proteins in cervical carcinoma FIGO stage I-IV treated with radiotherapy or chemoradiotherapy |
| Q48261865 | Prostaglandin E2 promotes intestinal repair through an adaptive cellular response of the epithelium |
| Q38643148 | Prostate Cancer Stem-like Cells Contribute to the Development of Castration-Resistant Prostate Cancer |
| Q37458003 | Reduced CD146 expression promotes tumorigenesis and cancer stemness in colorectal cancer through activating Wnt/β-catenin signaling |
| Q60916009 | Reduced SERCA Function Preferentially Affects Wnt Signaling by Retaining E-Cadherin in the Endoplasmic Reticulum |
| Q90225694 | Regulation of Ketogenic Enzyme HMGCS2 by Wnt/β-catenin/PPARγ Pathway in Intestinal Cells |
| Q40294117 | Regulation of the TMEPAI promoter by TCF7L2: the C-terminal tail of TCF7L2 is essential to activate the TMEPAI gene |
| Q26795741 | Regulation of the Wnt/β-Catenin Signaling Pathway by Human Papillomavirus E6 and E7 Oncoproteins |
| Q89230444 | Runx1 Role in Epithelial and Cancer Cell Proliferation Implicates Lipid Metabolism and Scd1 and Soat1 Activity |
| Q26743403 | S100A4 in Cancer Metastasis: Wnt Signaling-Driven Interventions for Metastasis Restriction |
| Q42700673 | S100A4 in cancer progression and metastasis: A systematic review |
| Q33607622 | SOX2 is required to maintain cancer stem cells in ovarian cancer. |
| Q39026588 | Self-renewal molecular mechanisms of colorectal cancer stem cells |
| Q64236640 | Shortcuts to intestinal carcinogenesis by genetic engineering in organoids |
| Q39005862 | Signaling Cross Talk between TGF-β/Smad and Other Signaling Pathways |
| Q98184113 | Signatures of co-deregulated genes and their transcriptional regulators in colorectal cancer |
| Q26795609 | Similar but different: distinct roles for KRAS and BRAF oncogenes in colorectal cancer development and therapy resistance |
| Q38412355 | Stem cell and progenitor fate in the mammalian intestine: Notch and lateral inhibition in homeostasis and disease |
| Q28076017 | Stem cell dynamics and pretumor progression in the intestinal tract |
| Q26742019 | TCF/LEF Transcription Factors: An Update from the Internet Resources |
| Q58745021 | Tales from the crypt: intestinal niche signals in tissue renewal, plasticity and cancer |
| Q37686903 | Targeted exome sequencing reveals distinct pathogenic variants in Iranians with colorectal cancer. |
| Q33616786 | Targeting Colorectal Cancer Proliferation, Stemness and Metastatic Potential Using Brassicaceae Extracts Enriched in Isothiocyanates: A 3D Cell Model-Based Study. |
| Q92701031 | The Best for the Most Important: Maintaining a Pristine Proteome in Stem and Progenitor Cells |
| Q49887000 | The COP9 signalosome inhibits Cullin-RING E3 ubiquitin ligases independently of its deneddylase activity |
| Q92126767 | The Central Contributions of Breast Cancer Stem Cells in Developing Resistance to Endocrine Therapy in Estrogen Receptor (ER)-Positive Breast Cancer |
| Q92213375 | The Delivery of a Wnt Pathway Inhibitor Toward CSCs Requires Stable Liposome Encapsulation and Delayed Drug Release in Tumor Tissues |
| Q52648259 | The Force Is Strong with This One: Metabolism (Over)powers Stem Cell Fate. |
| Q58798789 | The Guanylate Cyclase C-cGMP Signaling Axis Opposes Intestinal Epithelial Injury and Neoplasia |
| Q54955004 | The curious case of Gαs gain-of-function in neoplasia. |
| Q53546333 | The high expression of TC1 (C8orf4) was correlated with the expression of β-catenin and cyclin D1 and the progression of squamous cell carcinomas of the tongue. |
| Q91865980 | The interplay between intrinsic and extrinsic Wnt signaling in controlling intestinal transformation |
| Q93116736 | The protein secretion modulator TMED9 drives CNIH4/TGFα/GLI signaling opposing TMED3-WNT-TCF to promote colon cancer metastases |
| Q28315755 | The significance and scope of evolutionary developmental biology: a vision for the 21st century |
| Q39077281 | The thyroid hormone nuclear receptors and the Wnt/β-catenin pathway: An intriguing liaison. |
| Q45988026 | Three-Dimensional Spatiotemporal Modeling of Colon Cancer Organoids Reveals that Multimodal Control of Stem Cell Self-Renewal is a Critical Determinant of Size and Shape in Early Stages of Tumor Growth. |
| Q41866524 | Thyroid cancer 1 (C8orf4) shows high expression, no mutation and reduced methylation level in lung cancers, and its expression correlates with β-catenin and DNMT1 expression and poor prognosis |
| Q46123678 | Tissue Engineering Functional Gastrointestinal Regions: The Importance of Stem and Progenitor Cells |
| Q36568272 | Transgenic Expression of miR-222 Disrupts Intestinal Epithelial Regeneration by Targeting Multiple Genes Including Frizzled-7. |
| Q41612198 | Troy is expressed in human stomach mucosa and a novel putative prognostic marker of intestinal type gastric cancer |
| Q90974923 | Truncated PPM1D impairs stem cell response to genotoxic stress and promotes growth of APC-deficient tumors in the mouse colon |
| Q49494144 | Tumor-infiltrating lymphocytes are associated with β-catenin overexpression in breast cancer |
| Q43102287 | Tuning WNT-β-catenin signaling via BCL9 proteins for targeting colorectal cancer cells |
| Q36264193 | Up-regulated NRIP2 in colorectal cancer initiating cells modulates the Wnt pathway by targeting RORβ. |
| Q47103777 | WNT Inhibitory Activity of Malus Pumila miller cv Annurca and Malus domestica cv Limoncella Apple Extracts on Human Colon-Rectal Cells Carrying Familial Adenomatous Polyposis Mutations. |
| Q92422653 | WNT Signaling in Disease |
| Q92538517 | WNT Signaling in Tumors: The Way to Evade Drugs and Immunity |
| Q35864859 | WNT5A transforms intestinal CD8αα⁺ IELs into an unconventional phenotype with pro-inflammatory features. |
| Q54206333 | Wingless/Wnt Signaling in Intestinal Development, Homeostasis, Regeneration and Tumorigenesis: A Drosophila Perspective. |
| Q58773646 | Wnt Effector TCF4 Is Dispensable for Wnt Signaling in Human Cancer Cells |
| Q37345651 | Wnt Signaling Inhibition Deprives Small Intestinal Stem Cells of Clonogenic Capacity |
| Q39306017 | Wnt Signaling in Normal and Malignant Stem Cells |
| Q35788801 | Wnt pathway in atypical teratoid rhabdoid tumors |
| Q38825746 | Wnt pathway regulation of intestinal stem cells |
| Q55017017 | Wnt signaling in cervical cancer? |
| Q34131672 | Wnt signaling inhibits adrenal steroidogenesis by cell-autonomous and non-cell-autonomous mechanisms |
| Q38874087 | Wnt/β-catenin pathway in tissue injury: roles in pathology and therapeutic opportunities for regeneration |
| Q34491576 | Wnt4 is essential to normal mammalian lung development |
| Q38780385 | Wnt9A Induction Linked to Suppression of Human Colorectal Cancer Cell Proliferation |
| Q28250934 | YAP/TEAD co-activator regulated pluripotency and chemoresistance in ovarian cancer initiated cells |
| Q90422041 | miR-122 enhances sensitivity of hepatocellular carcinoma to oxaliplatin via inhibiting MDR1 by targeting Wnt/β-catenin pathway |
| Q91871550 | miR-4666-3p and miR-329 Synergistically Suppress the Stemness of Colorectal Cancer Cells via Targeting TGF-β/Smad Pathway |
| Q34028517 | α-catenin. A tumor suppressor beyond adherens junctions |
| Q57471387 | β-Catenin is a pH sensor with decreased stability at higher intracellular pH |