Your search keyword '"Wnt signaling pathway"' showing total 51,492 results

51. Wnt/β-Catenin Signaling Pathway in Pediatric Tumors: Implications for Diagnosis and Treatment.

Author

Choudhary, Sahar, Singh, Mithalesh Kumar, Kashyap, Seema, Seth, Rachna, and Singh, Lata

Subjects

DIAGNOSIS of tumors in children, TUMORS in children, CELL proliferation, CELLULAR signal transduction, RETINOBLASTOMA, CARCINOGENESIS, GENETIC mutation, NEPHROBLASTOMA, RHABDOMYOSARCOMA, WNT proteins, SIGNAL peptides, DISEASE progression, NEUROBLASTOMA, CHILDREN

Abstract

The evolutionarily conserved Wnt signaling has a significant and diverse role in maintaining cell homeostasis and tissue maintenance. It is necessary in the regulation of crucial biological functions such as embryonal development, proliferation, differentiation, cell fate, and stem cell pluripotency. The deregulation of Wnt/β-catenin signaling often leads to various diseases, including cancer and non-cancer diseases. The role of Wnt/β-catenin signaling in adult tumors has been extensively studied in literature. Although the Wnt signaling pathway has been well explored and recognized to play a role in the initiation and progression of cancer, there is still a lack of understanding on how it affects pediatric tumors. This review discusses the recent developments of this signaling pathway in pediatric tumors. We also focus on understanding how different types of variations in Wnt signaling pathway contribute to cancer development and provide an insight of tissue specific mutations that lead to clinical progression of these tumors. [ABSTRACT FROM AUTHOR]

Published

2024

52. Connection between MiR-490 and CCND1 and GSK3β genes play an effective role in Wnt signaling pathway in colorectal cancer.

Author

Banoei, Mahdieh, Moghadam, Negin Borzooee, Gowdini, Erfan, Heidarizadi, Azar, Amanpour, Saeid, Abgarmi, Zahra Mohammadi, Pornour, Majid, Negrini, Massimo, and Ganji, Shahla Mohammad

Abstract

The Wnt signaling pathway is identified as one of the main disrupted pathways in Colorectal cancer (CRC). Results from studies focusing on this route will aid greatly in the detection and treatment of CRC. MicroRNAs (MiRs), particularly MiR-490, has emerged as key regulator of gene expression in biological pathways, making it an attractive research target. This is notably true for the Wnt signaling pathway, which is usually disordered in CRC tissues. This study aimed to evaluate the expression level of MiR-490 isomiRs and determine some of its key target genes involved in Wnt signaling pathway in CRC tissues and cell lines, based on experimental and bioinformatics analysis. Elevated expression of GSK3β and CCND1 indicate that the progression of CRC tumor is associated with the inhibitory effect of MiR-490 isomiRs on the Wnt/β-catenin signaling pathway. This finding was supported by the observation of a positive connection between the expression pattern of miR-490-3p and 5p, and CCND1 and GSK3β in CRC. The valuable results of this study provide a means of identifying biomarkers with the potential to either inhibit or activate CRC cellular pathways. [ABSTRACT FROM AUTHOR]

Published

2024

53. A complex of Wnt/planar cell polarity signaling components Vangl1 and Fzd7 drives glioblastoma multiforme malignant properties

Author

Dreyer, Courtney A, VanderVorst, Kacey, Natwick, Dean, Bell, George, Sood, Prachi, Hernandez, Maria, Angelastro, James M, Collins, Sean R, and Carraway, Kermit L

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Brain Cancer, Cancer, Neurosciences, Rare Diseases, Brain Disorders, 2.1 Biological and endogenous factors, Humans, Mice, Animals, Glioblastoma, Cell Polarity, Actins, Wnt Signaling Pathway, Cell Proliferation, Cell Line, Tumor, Noncanonical Wnt signaling, Planar cell polarity, Motility, Proliferation, Oncology & Carcinogenesis, Oncology and carcinogenesis

Abstract

Targeting common oncogenic drivers of glioblastoma multiforme (GBM) in patients has remained largely ineffective, raising the possibility that alternative pathways may contribute to tumor aggressiveness. Here we demonstrate that Vangl1 and Fzd7, components of the non-canonical Wnt planar cell polarity (Wnt/PCP) signaling pathway, promote GBM malignancy by driving cellular proliferation, migration, and invasiveness, and engage Rho GTPases to promote cytoskeletal rearrangements and actin dynamics in migrating GBM cells. Mechanistically, we uncover the existence of a novel Vangl1/Fzd7 complex at the leading edge of migrating GBM cells and propose that this complex is critical for the recruitment of downstream effectors to promote tumor progression. Moreover, we observe that depletion of FZD7 results in a striking suppression of tumor growth and latency and extends overall survival in an intracranial mouse xenograft model. Our observations support a novel mechanism by which Wnt/PCP components Vangl1 and Fzd7 form a complex at the leading edge of migratory GBM cells to engage downstream effectors that promote actin cytoskeletal rearrangements dynamics. Our findings suggest that interference with Wnt/PCP pathway function may offer a novel therapeutic strategy for patients diagnosed with GBM.

Published

2023

54. Differential requirement of Hippo cascade during CTNNB1 or AXIN1 mutation‐driven hepatocarcinogenesis

Author

Liang, Binyong, Wang, Haichuan, Qiao, Yu, Wang, Xue, Qian, Manning, Song, Xinhua, Zhou, Yi, Zhang, Yi, Shang, Runze, Che, Li, Chen, Yifa, Huang, Zhiyong, Wu, Hong, Monga, Satdarshan P, Zeng, Yong, Calvisi, Diego F, Chen, Xiaoping, and Chen, Xin

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Stem Cell Research, Genetics, Liver Cancer, Cancer, Rare Diseases, Stem Cell Research - Nonembryonic - Non-Human, Liver Disease, Digestive Diseases, 2.1 Biological and endogenous factors, Aetiology, Humans, Mice, Animals, Carcinoma, Hepatocellular, Liver Neoplasms, beta Catenin, Carcinogenesis, Mutation, Wnt Signaling Pathway, Protein Serine-Threonine Kinases, Tumor Suppressor Proteins, Axin Protein, Medical Biochemistry and Metabolomics, Clinical Sciences, Immunology, Gastroenterology & Hepatology, Clinical sciences

Abstract

Background and aimsGain-of-function (GOF) mutations of CTNNB1 and loss-of-function (LOF) mutations of AXIN1 are recurrent genetic alterations in hepatocellular carcinoma (HCC). We aim to investigate the functional contribution of Hippo/YAP/TAZ in GOF CTNNB1 or LOF AXIN1 mutant HCCs.Approach and resultsThe requirement of YAP/TAZ in c-Met/β-Catenin and c-Met/sgAxin1-driven HCC was analyzed using conditional Yap , Taz , and Yap;Taz knockout (KO) mice. Mechanisms of AXIN1 in regulating YAP/TAZ were investigated using AXIN1 mutated HCC cells. Hepatocyte-specific inducible TTR-CreER T2KO system was applied to evaluate the role of Yap;Taz during tumor progression. Cabozantinib and G007-LK combinational treatment were tested in vitro and in vivo . Nuclear YAP/TAZ was strongly induced in c-Met/sgAxin1 mouse HCC cells. Activation of Hippo via overexpression of Lats2 or concomitant deletion of Yap and Taz significantly inhibited c-Met/sgAxin1 driven HCC development, whereas the same approaches had mild effects in c-Met/β-Catenin HCCs. YAP is the major Hippo effector in c-Met/β-Catenin HCCs, and both YAP and TAZ are required for c-Met/sgAxin1-dependent hepatocarcinogenesis. Mechanistically, AXIN1 binds to YAP/TAZ in human HCC cells and regulates YAP/TAZ stability. Genetic deletion of YAP/TAZ suppresses already formed c-Met/sgAxin1 liver tumors, supporting the requirement of YAP/TAZ during tumor progression. Importantly, tankyrase inhibitor G007-LK, which targets Hippo and Wnt pathways, synergizes with cabozantinib, a c-MET inhibitor, leading to tumor regression in the c-Met/sgAxin1 HCC model.ConclusionsOur studies demonstrate that YAP/TAZ are major signaling molecules downstream of LOF AXIN1 mutant HCCs, and targeting YAP/TAZ is an effective treatment against AXIN1 mutant human HCCs.

Published

2023

55. Dynamic interplay between IL-1 and WNT pathways in regulating dermal adipocyte lineage cells during skin development and wound regeneration

Author

Sun, Lixiang, Zhang, Xiaowei, Wu, Shuai, Liu, Youxi, Guerrero-Juarez, Christian F, Liu, Wenjie, Huang, Jinwen, Yao, Qian, Yin, Meimei, Li, Jiacheng, Ramos, Raul, Liao, Yanhang, Wu, Rundong, Xia, Tian, Zhang, Xinyuan, Yang, Yichun, Li, Fengwu, Heng, Shujun, Zhang, Wenlu, Yang, Minggang, Tzeng, Chi-Meng, Ji, Chao, Plikus, Maksim V, Gallo, Richard L, and Zhang, Ling-juan

Subjects

Biochemistry and Cell Biology, Biological Sciences, Stem Cell Research, Wound Healing and Care, 2.1 Biological and endogenous factors, Underpinning research, Aetiology, 1.1 Normal biological development and functioning, Skin, Mice, Animals, Humans, NF-kappa B, Glycogen Synthase Kinase 3, Cell Differentiation, Adipocytes, Wnt Signaling Pathway, Adipogenesis, Interleukin-1, beta Catenin, CP: Developmental biology, CP: Stem cell research, IL-1, WNT, adipocyte progenitor, adipogenesis, dermal adipocyte, lipolysis, myofibroblast, scRNA-seq, skin development, wound regeneration, Medical Physiology, Biological sciences

Abstract

Dermal adipocyte lineage cells are highly plastic and can undergo reversible differentiation and dedifferentiation in response to various stimuli. Using single-cell RNA sequencing of developing or wounded mouse skin, we classify dermal fibroblasts (dFBs) into distinct non-adipogenic and adipogenic cell states. Cell differentiation trajectory analyses identify IL-1-NF-κB and WNT-β-catenin as top signaling pathways that positively and negatively associate with adipogenesis, respectively. Upon wounding, activation of adipocyte progenitors and wound-induced adipogenesis are mediated in part by neutrophils through the IL-1R-NF-κB-CREB signaling axis. In contrast, WNT activation, by WNT ligand and/or ablation of Gsk3, inhibits the adipogenic potential of dFBs but promotes lipolysis and dedifferentiation of mature adipocytes, contributing to myofibroblast formation. Finally, sustained WNT activation and inhibition of adipogenesis is seen in human keloids. These data reveal molecular mechanisms underlying the plasticity of dermal adipocyte lineage cells, defining potential therapeutic targets for defective wound healing and scar formation.

Published

2023

56. Modulation of the canonical Wnt activity by androgen signaling in prostate epithelial basal stem cells

Author

Horton, Corrigan, Liu, Yueli, Wang, Jiawen, Green, Jonathan, Tsyporin, Jeremiah, Chen, Bin, and Wang, Zhu A

Subjects

Biochemistry and Cell Biology, Biological Sciences, Prostate Cancer, Genetics, Stem Cell Research, Cancer, Urologic Diseases, Stem Cell Research - Nonembryonic - Non-Human, Regenerative Medicine, Aetiology, 2.1 Biological and endogenous factors, Male, Humans, Mice, Animals, Androgens, Prostate, beta Catenin, Receptors, Androgen, Prostatic Neoplasms, Wnt Signaling Pathway, AR, Wnt, basal, luminal, mouse model, prostate, stem cell, Clinical Sciences, Biochemistry and cell biology

Abstract

Both the canonical Wnt and androgen receptor (AR) signaling pathways are important for prostate organogenesis and homeostasis. How they crosstalk to regulate prostate stem cell behaviors remains unclear. Here, we show in lineage-tracing mouse models that although Wnt is essential for basal stem cell multipotency, ectopic Wnt activity promotes basal cell over-proliferation and squamous phenotypes, which are counteracted by elevated levels of androgen. In prostate basal cell organoids, dihydrotestosterone (DHT) antagonizes R-spondin-stimulated growth in a concentration-dependent manner. DHT down-regulates the expressions of a Wnt reporter and target genes, and RNA sequencing (RNA-seq) analyses identify Wnt signaling as a key altered pathway. Mechanistically, DHT enhances AR and β-catenin protein binding, and CUT&RUN analyses reveal that ectopic AR sequesters β-catenin away from its Wnt-related cistrome. Our results suggest that an intermediate level of Wnt activity in prostate basal stem cells, achieved via AR-β-catenin interaction, is essential for normal prostate homeostasis.

Published

2023

57. Downregulating LKB1 in bone marrow mesenchymal stem cells could inhibit CD4+ T cell proliferation via the PD-1/PD-L1 signaling pathway

Author

Yaqin Zhang, Jingyi Ren, Zhongxian Liao, Xiaoyu Li, Chunying Zhang, Bihan Huang, Yingping Cao, and Jiadi Chen

Subjects

LKB1, Bone marrow mesenchymal stem cells, PD-L1, T cell proliferation, Wnt signaling pathway, Biology (General), QH301-705.5, Medicine

Abstract

Background: Our previous research has shown that LKB1 in amniotic mesenchymal stem cells (MSCs) serves as a vital regulator of regulatory T cell differentiation and T cell proliferation, which may have a similar role in bone marrow MSCs (BMMSCs). Therefore, we investigated the role of LKB1 in BMMSCs for regulating CD4+ T cell proliferation in the bone micro-environment of AML. Methods: RT-PCR was used to assessed LKB1 expression in BMMSCs derived from AML patients and healthy controls. Subsequently, LKB1 was knocked down in the BMMSCs line HS-5 (HS-5-LKB1KD). Co-cultures in vitro were established to analyze the effect of HS-5-LKB1KD on CD4+ T cell. Flow cytometry was employed to measure PD-L1 and CD4+ T cell proliferation levels. Western blot was utilized to detect related proteins. Results: The expression of LKB1 in BMMSCs derived from AML patients was decreased. Knockdown of LKB1 in HS-5 resulted in upregulation of PD-L1 expression. Co-culture of peripheral blood CD4+ T cell with HS-5-LKB1KD exhibited reduced CD4+ T cell proliferation compared to co-culture with HS-5-LKB1con. Furthermore, blocking PD-L1 in the co-culture conditions could restore the reduced CD4+ T cell proliferation. Additionally, it was found that upregulation of the Wnt signaling pathway-related proteins following LKB1 knockdown in HS-5, indicating that downregulating LKB1 could promote PD-L1 expression through activation of the Wnt signaling pathway. Conclusions: The decreased expression of LKB1 in BMMSCs may activate the Wnt signaling pathway, leading to increased PD-L1 expression. This inhibited CD4+ T cell proliferation, which might lead to impaired anti-tumor immunity in AML patients and promote AML progression.

Published

2024

58. The Wnt signaling pathway in hepatocellular carcinoma: Regulatory mechanisms and therapeutic prospects

Author

Shihui Ma, Guorui Meng, Tong Liu, Junqi You, Risheng He, Xudong Zhao, and Yunfu Cui

Subjects

Hepatocellular carcinoma, Wnt signaling pathway, EMT, CSCs, Immune evasion, Therapy, Therapeutics. Pharmacology, RM1-950

Abstract

Hepatocellular carcinoma (HCC) is a malignant tumor that arises from hepatocytes. Multiple signaling pathways play a regulatory role in the occurrence and development of HCC, with the Wnt signaling pathway being one of the primary regulatory pathways. In normal hepatocytes, the Wnt signaling pathway maintains cell regeneration and organ development. However, when aberrant activated, the Wnt pathway is closely associated with invasion, cancer stem cells(CSCs), drug resistance, and immune evasion in HCC. Among these factors, the development of drug resistance is one of the most important factors affecting the efficacy of HCC treatment. These mechanisms form the basis for tumor cell adaptation and evolution within the body, enabling continuous changes in tumor cells, resistance to drugs and immune system attacks, leading to metastasis and recurrence. In recent years, there have been numerous new discoveries regarding these mechanisms. An increasing number of drugs targeting the Wnt signaling pathway have been developed, with some already entering clinical trials. Therefore, this review encompasses the latest research on the role of the Wnt signaling pathway in the onset and progression of HCC, as well as advancements in its therapeutic strategies.

Published

2024

59. Modulation of miR-466d-3p on Wnt signaling pathway in response to DEPs-induced blood-brain barrier disruption

Author

Yue Jiang, Ya Zhang, Huimin Suo, Yanming Lv, Siqi Liu, Zhijian Gao, Yingying Chen, Mingming Zhang, Xiangning Meng, and Shuying Gao

Subjects

diesel exhaust particles, blood brain barrier, MicroRNA, tight junctions, Wnt signaling pathway, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Background: Diesel exhaust particles (DEPs), a predominant component of ambient particulate matter (PM), are classified as ultrafine particles with the capacity to penetrate the cerebral blood-brain barrier (BBB). This penetration is implicated in the pathogenesis of central nervous system (CNS) disorders. The integrity of the BBB is inextricably linked to cerebrovascular homeostasis and the development of neurodegenerative disease, highlighting the importance of studying the effects and mechanisms of DEPs on BBB function damage. Methods and results: Utilizing mouse cerebral microvascular endothelial cells (bEnd.3 cells) as an in vitro model of the BBB, we explored the detrimental effects of DEPs exposure on BBB permeability and integrity, with particular focus on inflammation, cell apoptosis, and miRNA expression profiles. Our findings revealed that exposure to DEPs at varying concentrations for 48 h resulted in the inhibition of bEND.3 cell proliferation, induction of cell apoptosis, and an upregulation in the secretion of inflammatory cytokines/chemokines and adhesion molecules. The BBB integrity was further compromised, as evidenced by a decrease in trans-epithelial electrical resistance(TEER), a reduction in cytoskeletal F-actin, and diminished tight junction (TJ) protein expression. Microarray analysis revealed that 23 miRNAs were upregulated and 11 were downregulated in response to a 50 μg/mL DEPs treatment, with miR-466d-3p being notably differentially expressed. Wnt3 was identified as a target of miR-466d-3p, with the Wnt signaling pathway being significantly enriched. We validated that miR-466d-3p expression was downregulated, and the protein expression levels of Wnt/β-catenin and Wnt/PCP signaling components were elevated. The modulation of the Wnt signaling pathway by miR-466d-3p was demonstrated by the transfection of miR-466d-3p mimic, which resulted in a downregulation of Wnt3 and β-catenin protein expression, and the mRNA level of Daam1, as well as an enhancement of TJ proteins ZO-1 and Claudin-5 expression. Conclusions: Our study further confirmed that DEPs can induce the disruption of BBB integrity through inflammatory processes. We identified alterations in the expression profile of microRNAs (miRNAs) in endothelial cells, with miR-466d-3p emerging as a key regulator of tight junction (TJ) proteins, essential for maintaining BBB integrity. Additionally, our findings primarily demonstrated that the Wnt/ β-catenin and Wnt/PCP signaling pathway can be activated by DEPs and are regulated by miR-466d-3p. Under the combined effects of Wnt/PCP and inflammation, there is an ultimate increase in BBB hyperpermeability.

Published

2024

60. Integration of microbiome, metabolomics and transcriptome for in-depth understanding of berberine attenuates AOM/DSS-induced colitis-associated colorectal cancer

Author

Mengxia Wang, Yan Ma, Guodong Yu, Bao Zeng, Wenhao Yang, Cuihong Huang, Yujuan Dong, Benqin Tang, and Zhengzhi Wu

Subjects

Berberine, Colitis-associated colorectal cancer, Gut microbiota, Amino acid metabolism, Wnt signaling pathway, Therapeutics. Pharmacology, RM1-950

Abstract

A type of colorectal cancer (CRC)，Colitis-associated colorectal cancer (CAC)， is closely associated with chronic inflammation and gut microbiota dysbiosis. Berberine (BBR) has a long history in the treatment of intestinal diseases, which has been reported to inhibit colitis and CRC. However, the mechanism of its action is still unclear. Here, this study aimed to explore the potential protective effects of BBR on azoxymethane (AOM)/dextransulfate sodium (DSS)-induced colitis and tumor mice, and to elucidate its potential molecular mechanisms by microbiota, genes and metabolic alterations. The results showed that BBR inhibited the gut inflammation and improved the function of mucosal barrier to ameliorate AOM/DSS-induced colitis. And BBR treatment significantly reduced intestinal tumor development and ki-67 expression of intestinal tissue along with promoted apoptosis. Through microbiota analysis based on the 16 S rRNA gene, we found that BBR treatment improved intestinal microbiota imbalance in AOM/DSS-induced colitis and tumor mice, which were characterized by an increase of beneficial bacteria, for instance Akkermanisa, Lactobacillus, Bacteroides uniformis and Bacteroides acidifaciens. In addition, transcriptome analysis showed that BBR regulated colonic epithelial signaling pathway in CAC mice particularly by tryptophan metabolism and Wnt signaling pathway. Notably, BBR treatment resulted in the enrichment of amino acids metabolism and microbiota-derived SCFA metabolites. In summary, our research findings suggest that the gut microbiota-amino acid metabolism-Wnt signaling pathway axis plays critical role in maintaining intestinal homeostasis, which may provide new insights into the inhibitory effects of BBR on colitis and colon cancer.

Published

2024

61. CD11b/CD86 involved in the microenvironment of colorectal cancer by promoting Wnt signaling activation

Author

Junyu Ke, Guirong Chen, Yihui You, Qinghua Xie, Zheng‐lin Liu, Chunhui Song, Yanqiu Zheng, Zejun Shan, Jinbin Song, Zhangyu Jiang, Haiyan Wang, Qun Du, Yongqiang Wu, Xin‐lin Chen, and Yanwu Li

Subjects

colitis associated colon cancer, colorectal cancer, tumor microenvironment, tumor stem cell, tumor‐associated macrophage, Wnt signaling pathway, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Colorectal cancer (CRC) is a malignancy that arises within the gastrointestinal tract. Despite ongoing research, the etiology and pathogenesis of CRC remain elusive; particularly, the distribution and characteristics of tumor‐associated macrophages is currently an active area of investigation in understanding the pathological progression and prevention of CRC. Methods This study utilized CRC patient surgical samples, mouse models of colitis‐associated cancer, colonic organoid, and co‐culture cell line to examine the changes in CD11b/CD86 at different pathological region and detect the Wnt signaling pathway activity. Results Our findings revealed a sensitive and increased expression of CD11b from the early to the advanced CRC tissues and correlated with poor prognosis, while CD86 expression was reduced in advanced CRC tissues. CD133 expression was also elevated in advanced CRC tissues and mainly co‐localized with CD11b, suggesting a positive regulatory effect of CD11b and CD133 expression that may contribute to CRC progression. In AOM/DSS mouse models, activation of the Wnt signaling pathway was associated with increased CD133 and CD11b expression. In vitro, THP‐1 cell was induced to high expression of CD11b, and the above conditional cultural medium enhanced HCT116 cell colony number and CD133 protein expression. Furthermore, colonic crypts from AOM/DSS mouse models were isolated to culture, and the colonic organoids exhibited dilation and significant increases expression of CD133 and β‐Catenin/N‐P‐B‐Catenin. Conclusions CD11b might be an important factor to participate the progress of CRC. And the high CD11b of CRC microenviroment might potentially promote CD133 expression and associate with Wnt signal activation.

Published

2024

62. Multi-omics of Bohring-Opitz syndrome truncating ASXL1 mutations identify canonical and non-canonical Wnt signaling dysregulation

Author

Lin, Isabella, Wei, Angela, Awamleh, Zain, Singh, Meghna, Ning, Aileen, Herrera, Analeyla, Biobank and Registry, REACH, Russell, Bianca E, Weksberg, Rosanna, and Arboleda, Valerie A

Subjects

Biomedical and Clinical Sciences, Human Genome, Intellectual and Developmental Disabilities (IDD), Genetics, Rare Diseases, Clinical Research, Pediatric Research Initiative, Pediatric, Brain Disorders, 2.1 Biological and endogenous factors, Aetiology, Humans, Intellectual Disability, Mutation, Epigenesis, Genetic, Multiomics, Wnt Signaling Pathway, Repressor Proteins, Transcription Factors, Kidney Neoplasms, REACH Biobank and Registry, Development, Epigenetics, Genetic diseases, Leukemias, Biomedical and clinical sciences, Health sciences

Abstract

ASXL1 (additional sex combs-like 1) plays key roles in epigenetic regulation of early developmental gene expression. De novo protein-truncating mutations in ASXL1 cause Bohring-Opitz syndrome (BOS; OMIM #605039), a rare neurodevelopmental condition characterized by severe intellectual disabilities, distinctive facial features, hypertrichosis, increased risk of Wilms tumor, and variable congenital anomalies, including heart defects and severe skeletal defects giving rise to a typical BOS posture. These BOS-causing ASXL1 variants are also high-prevalence somatic driver mutations in acute myeloid leukemia. We used primary cells from individuals with BOS (n = 18) and controls (n = 49) to dissect gene regulatory changes caused by ASXL1 mutations using comprehensive multiomics assays for chromatin accessibility (ATAC-seq), DNA methylation, histone methylation binding, and transcriptome in peripheral blood and skin fibroblasts. Our data show that regardless of cell type, ASXL1 mutations drive strong cross-tissue effects that disrupt multiple layers of the epigenome. The data showed a broad activation of canonical Wnt signaling at the transcriptional and protein levels and upregulation of VANGL2, which encodes a planar cell polarity pathway protein that acts through noncanonical Wnt signaling to direct tissue patterning and cell migration. This multiomics approach identifies the core impact of ASXL1 mutations and therapeutic targets for BOS and myeloid leukemias.

Published

2023

63. Unraveling the Role of Wnt Signaling Pathway in the Pathogenesis of Autism Spectrum Disorder (ASD): A Systematic Review

Author

Bou Najm, Daniel, Alame, Saada, and Takash Chamoun, Wafaa

Published

2024

64. Unlocking Hope: Therapeutic Advances and Approaches in Modulating the Wnt Pathway for Neurodegenerative Diseases

Author

Faraji, Navid, Ebadpour, Negar, Abavisani, Mohammad, and Gorji, Ali

Published

2024

65. BML-281 promotes neuronal differentiation by modulating Wnt/Ca2+ and Wnt/PCP signaling pathway

Author

Choi, Jiyun, Gang, Seoyeon, Ramalingam, Mahesh, Hwang, Jinsu, Jeong, Haewon, Yoo, Jin, Cho, Hyong-Ho, Kim, Byeong C., Jang, Geupil, Jeong, Han-Seong, and Jang, Sujeong

Published

2024

66. Identification of epigenetic silencing of the SFRP2 gene in colorectal cancer as a clinical biomarker and molecular significance

Author

Hatim Boughanem, Jesús pilo, Libia Alejandra García-Flores, Isabel Arranz, María Ramos-Fernandez, María Ortega-Castan, Ana B. Crujeiras, Juan Sandoval, and Manuel Macias-Gonzalez

Subjects

SRFP2, DNA methylation, Colorectal cancer biomarkers, Promoter methylation, Wnt signaling pathway, Medicine

Abstract

Abstract Background Several studies have suggested secreted frizzled-related protein 2 (SFRP2) gene as a potential clinical biomarker in colorectal cancer (CRC). However, its diagnostic role remains unclear. In this study, we aimed to investigate the significance of SFRP2 methylation levels in a large cohort of biological specimens (including blood, adipose and colonic tissues) from patients with CRC, thereby potentially identifying new biomarker utility. Methods We examined the expression (by qPCR) and methylation status (by 450 K DNA array and DNA pyrosequencing) of the SFRP2 gene in healthy participants (N = 110, aged as 53.7 (14.2), 48/62 males/females) and patients with CRC (N = 85, aged 67.7 (10.5), 61/24 males/females), across different biological tissues, and assessing its potential as a biomarker for CRC. Additionally, we investigated the effect of recombinant human SFRP2 (rhSFRP2) as a therapeutic target, on cell proliferation, migration, and the expression of key genes related to carcinogenesis and the Wnt pathway. Results Our findings revealed that SFRP2 promoter methylation in whole blood could predict cancer stage (I + II vs. III + IV) (AUC = 0.653), lymph node invasion (AUC = 0.692), and CRC recurrence (AUC = 0.699) in patients with CRC (all with p

Published

2024

67. PAX1 represses canonical Wnt signaling pathway and plays dual roles during endoderm differentiation

Author

Danxiu Miao, Jie Ren, Yanhan Jia, Yihui Jia, Yanshu Li, Huizhe Huang, and Rui Gao

Subjects

PAX1, Wnt signaling pathway, TCF7L2, Endoderm differentiation, SCID, Medicine, Cytology, QH573-671

Abstract

Abstract Background Paired box 1 (PAX1) is a transcription factor and essential for the development of pharyngeal pouches-derived tissues, including thymus. PAX1 mutations are identified in Severe Combined Immunodeficiency (SCID) patients with Otofaciocervical Syndrome Type 2 (OTFCS2). However, despite the critical roles of PAX1 in embryonic development and diseases, detailed insights into its molecular mode of action are critically missing. Methods The repressing roles of PAX1 and SCID associated mutants on Wnt signaling pathway were investigated by luciferase reporter assays, qRT-PCR and in situ hybridization in HEK293FT, HCT116 cells and zebrafish embryos, respectively. Co-immunoprecipitation (co-IP) and western blotting assays were carried out to identify the molecular mechanisms underlying PAX1’s role on Wnt signaling pathway. hESC based endoderm differentiation, flow cytometry, high-throughput sequencing data analysis, and qRT-PCR assays were utilized to determine the roles of PAX1 during endoderm differentiation. Results Here, we show that PAX1 represses canonical Wnt signaling pathway in vertebrate cells. Mechanically, PAX1 competes with SUMO E3 ligase PIASy to bind to TCF7L2, thus perturbing TCF7L2 SUMOylation level, further reducing its transcriptional activity and protein stability. Moreover, we reveal that PAX1 plays dual roles in hESC-derived definitive and foregut/pharyngeal endoderm cells, which give rise to the thymus epithelium, by inhibiting Wnt signaling. Importantly, our data show PAX1 mutations found in SCID patients significantly compromise the suppressing ability of PAX1 on Wnt signaling. Conclusions Our study presents a novel molecular mode of action of PAX1 in regulation of canonical Wnt signaling and endoderm differentiation, thus providing insights for the molecular basis of PAX1 associated SCID, offering better understanding of the behavior of PAX1 in embryogenesis.

Published

2024

68. Mesenchymal stem/stromal cells from human pluripotent stem cell-derived brain organoid enhance the ex vivo expansion and maintenance of hematopoietic stem/progenitor cells

Author

Ya Zhou, Xinping Cai, Xiuxiu Zhang, Yong Dong, Xu Pan, Mowen Lai, Yimeng Zhang, Yijin Chen, Xiaohong Li, Xia Li, Jiaxin Liu, Yonggang Zhang, and Feng Ma

Subjects

MSCs, Human brain organoids, HSCs, Wnt signaling pathway, HSC transplantation, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Mesenchymal stem/stromal cells (MSCs) are of great therapeutic value due to their role in maintaining the function of hematopoietic stem/progenitor cells (HSPCs). MSCs derived from human pluripotent stem cells represent an ideal alternative because of their unlimited supply. However, the role of MSCs with neural crest origin derived from HPSCs on the maintenance of HSPCs has not been reported. Methods Flow cytometric analysis, RNA sequencing and differentiation ability were applied to detect the characteristics of stromal cells from 3D human brain organoids. Human umbilical cord blood CD34+ (UCB-CD34+) cells were cultured in different coculture conditions composed of stromal cells and umbilical cord MSCs (UC-MSCs) with or without a cytokine cocktail. The hematopoietic stroma capacity of stromal cells was tested in vitro with the LTC-IC assay and in vivo by cotransplantation of cord blood nucleated cells and stroma cells into immunodeficient mice. RNA and proteomic sequencing were used to detect the role of MSCs on HSPCs. Results The stromal cells, derived from both H1-hESCs and human induced pluripotent stem cells forebrain organoids, were capable of differentiating into the classical mesenchymal-derived cells (osteoblasts, chondrocytes, and adipocytes). These cells expressed MSC markers, thus named pluripotent stem cell-derived MSCs (pMSCs). The pMSCs showed neural crest origin with CD271 expression in the early stage. When human UCB-CD34+ HSPCs were cocultured on UC-MSCs or pMSCs, the latter resulted in robust expansion of UCB-CD34+ HSPCs in long-term culture and efficient maintenance of their transplantability. Comparison by RNA sequencing indicated that coculture of human UCB-CD34+ HSPCs with pMSCs provided an improved microenvironment for HSC maintenance. The pMSCs highly expressed the Wnt signaling inhibitors SFRP1 and SFRP2, indicating that they may help to modulate the cell cycle to promote the maintenance of UCB-CD34+ HSPCs by antagonizing Wnt activation. Conclusions A novel method for harvesting MSCs with neural crest origin from 3D human brain organoids under serum-free culture conditions was reported. We demonstrate that the pMSCs support human UCB-HSPC expansion in vitro in a long-term culture and the maintenance of their transplantable ability. RNA and proteomic sequencing indicated that pMSCs provided an improved microenvironment for HSC maintenance via mechanisms involving cell–cell contact and secreted factors and suppression of Wnt signaling. This represents a novel method for large-scale production of MSCs of neural crest origin and provides a potential approach for development of human hematopoietic stromal cell therapy for treatment of dyshematopoiesis.

Published

2024

69. A DLG1-ARHGAP31-CDC42 axis is essential for the intestinal stem cell response to fluctuating niche Wnt signaling

Author

Castillo-Azofeifa, David, Wald, Tomas, Reyes, Efren A, Gallagher, Aaron, Schanin, Julia, Vlachos, Stephanie, Lamarche-Vane, Nathalie, Bomidi, Carolyn, Blutt, Sarah, Estes, Mary K, Nystul, Todd, and Klein, Ophir D

Subjects

Biochemistry and Cell Biology, Biological Sciences, Cancer, Colo-Rectal Cancer, Digestive Diseases, Regenerative Medicine, Stem Cell Research, Stem Cell Research - Nonembryonic - Non-Human, 1.1 Normal biological development and functioning, Underpinning research, Aetiology, 2.1 Biological and endogenous factors, Oral and gastrointestinal, Animals, Mice, Cell Proliferation, GTPase-Activating Proteins, Intestinal Mucosa, Intestines, Stem Cell Niche, Stem Cells, Wnt Signaling Pathway, Arhgap31, Cdc42, Dlg1, Wnt, cell death, epithelium, intestine, organoid, regeneration, stem cells, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

A central factor in the maintenance of tissue integrity is the response of stem cells to variations in the levels of niche signals. In the gut, intestinal stem cells (ISCs) depend on Wnt ligands for self-renewal and proliferation. Transient increases in Wnt signaling promote regeneration after injury or in inflammatory bowel diseases, whereas constitutive activation of this pathway leads to colorectal cancer. Here, we report that Discs large 1 (Dlg1), although dispensable for polarity and cellular turnover during intestinal homeostasis, is required for ISC survival in the context of increased Wnt signaling. RNA sequencing (RNA-seq) and genetic mouse models demonstrated that DLG1 regulates the cellular response to increased canonical Wnt ligands. This occurs via the transcriptional regulation of Arhgap31, a GTPase-activating protein that deactivates CDC42, an effector of the non-canonical Wnt pathway. These findings reveal a DLG1-ARHGAP31-CDC42 axis that is essential for the ISC response to increased niche Wnt signaling.

Published

2023

70. Wnt Signaling in the Phenotype and Function of Tumor-Associated Macrophages.

Author

Tigue, Megan L, Loberg, Matthew A, Goettel, Jeremy A, Weiss, William A, Lee, Ethan, and Weiss, Vivian L

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Cancer, 2.1 Biological and endogenous factors, Aetiology, Wnt Signaling Pathway, Tumor-Associated Macrophages, Macrophages, Cell Proliferation, Phenotype, Tumor Microenvironment, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis

Abstract

Tumor-associated macrophages (TAM) play an important role in supporting tumor growth and suppressing antitumor immune responses, and TAM infiltration has been associated with poor patient prognosis in various cancers. TAMs can be classified as pro-inflammatory, M1-like, or anti-inflammatory, M2-like. While multiple factors within the tumor microenvironment affect the recruitment, polarization, and functions of TAMs, accumulating evidence suggests that Wnt signaling represents an important, targetable driver of an immunosuppressive, M2-like TAM phenotype. TAM production of Wnt ligands mediates TAM-tumor cross-talk to support cancer cell proliferation, invasion, and metastasis. Targeting TAM polarization and the protumorigenic functions of TAMs through inhibitors of Wnt signaling may prove a beneficial treatment strategy in cancers where macrophages are prevalent in the microenvironment.

Published

2023

71. Protein Kinase G2 Is Essential for Skeletal Homeostasis and Adaptation to Mechanical Loading in Male but Not Female Mice.

Author

Kalyanaraman, Hema, Pal China, Shyamsundar, Cabriales, Justin, Moininazeri, Jafar, Casteel, Darren, Garcia, Julian, Wong, Van, Sah, Robert, Boss, Gerry, Pilz, Renate, and Chen, Albert

Subjects

ANALYSIS-OTHER (MECHANICAL LOADING), GENETIC ANIMAL MODEL, MOLECULAR PATHWAYS-REMODELING, OSTEOBLASTS, WNT/β-CATENIN, Female, Animals, Mice, Male, beta Catenin, Bone and Bones, Osteoblasts, Osteogenesis, Mice, Knockout, Wnt Signaling Pathway, Cyclic GMP-Dependent Protein Kinases, Homeostasis

Abstract

We previously showed that the NO/cGMP/protein kinase G (PKG) signaling pathway positively regulates osteoblast proliferation, differentiation, and survival in vitro, and that cGMP-elevating agents have bone-anabolic effects in mice. Here, we generated mice with an osteoblast-specific (OB) knockout (KO) of type 2 PKG (gene name Prkg2) using a Col1a1(2.3 kb)-Cre driver. Compared to wild type (WT) littermates, 8-week-old male OB Prkg2-KO mice had fewer osteoblasts, reduced bone formation rates, and lower trabecular and cortical bone volumes. Female OB Prkg2-KO littermates showed no bone abnormalities, despite the same degree of PKG2 deficiency in bone. Expression of osteoblast differentiation- and Wnt/β-catenin-related genes was lower in primary osteoblasts and bones of male KO but not female KO mice compared to WT littermates. Osteoclast parameters were unaffected in both sexes. Since PKG2 is part of a mechano-sensitive complex in osteoblast membranes, we examined its role during mechanical loading. Cyclical compression of the tibia increased cortical thickness and induced mechanosensitive and Wnt/β-catenin-related genes to a similar extent in male and female WT mice and female OB Prkg2-KO mice, but loading had a minimal effect in male KO mice. We conclude that PKG2 drives bone acquisition and adaptation to mechanical loading via the Wnt/β-catenin pathway in male mice. The striking sexual dimorphism of OB Prkg2-KO mice suggests that current U.S. Food and Drug Administration-approved cGMP-elevating agents may represent novel effective treatment options for male osteoporosis. © 2022 American Society for Bone and Mineral Research (ASBMR).

Published

2023

72. The PMA phorbol ester tumor promoter increases canonical Wnt signaling via macropinocytosis

Author

Tejeda-Munoz, Nydia, Azbazdar, Yagmur, Monka, Julia, Binder, Grace, Dayrit, Alex, Ayala, Raul, O'Brien, Neil, and De Robertis, Edward M

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Biological Sciences, Cancer, Colo-Rectal Cancer, Digestive Diseases, Aetiology, 2.1 Biological and endogenous factors, Female, Pregnancy, Humans, Animals, Mice, Carcinogens, Wnt Signaling Pathway, Glycogen Synthase Kinase 3, Phorbol Esters, Esters, Neoplasms, Wnt signaling, macropinocytosis, lysosomes, colorectal cancer, beta-catenin, Xenopus, cancer biology, developmental biology, xenopus, β-catenin, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Activation of the Wnt pathway lies at the core of many human cancers. Wnt and macropinocytosis are often active in the same processes, and understanding how Wnt signaling and membrane trafficking cooperate should improve our understanding of embryonic development and cancer. Here, we show that a macropinocytosis activator, the tumor promoter phorbol 12-myristate 13-acetate (PMA), enhances Wnt signaling. Experiments using the Xenopus embryo as an in vivo model showed marked cooperation between the PMA phorbol ester and Wnt signaling, which was blocked by inhibitors of macropinocytosis, Rac1 activity, and lysosome acidification. Human colorectal cancer tissue arrays and xenografts in mice showed a correlation of cancer progression with increased macropinocytosis/multivesicular body/lysosome markers and decreased GSK3 levels. The crosstalk between canonical Wnt, focal adhesions, lysosomes, and macropinocytosis suggests possible therapeutic targets for cancer progression in Wnt-driven cancers.

Published

2023

73. The USP46 complex deubiquitylates LRP6 to promote Wnt/β-catenin signaling

Author

Ng, Victoria H, Spencer, Zachary, Neitzel, Leif R, Nayak, Anmada, Loberg, Matthew A, Shen, Chen, Kassel, Sara N, Kroh, Heather K, An, Zhenyi, Anthony, Christin C, Bryant, Jamal M, Lawson, Amanda, Goldsmith, Lily, Benchabane, Hassina, Hansen, Amanda G, Li, Jingjing, D’Souza, Starina, Lebensohn, Andres M, Rohatgi, Rajat, Weiss, William A, Weiss, Vivian L, Williams, Charles, Hong, Charles C, Robbins, David J, Ahmed, Yashi, and Lee, Ethan

Subjects

Biochemistry and Cell Biology, Biological Sciences, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, Humans, beta Catenin, Ligases, Low Density Lipoprotein Receptor-Related Protein-6, Receptors, Wnt, Ubiquitin, Wnt Signaling Pathway, Zebrafish, Endopeptidases

Abstract

The relative abundance of Wnt receptors plays a crucial role in controlling Wnt signaling in tissue homeostasis and human disease. While the ubiquitin ligases that ubiquitylate Wnt receptors are well-characterized, the deubiquitylase that reverses these reactions remains unclear. Herein, we identify USP46, UAF1, and WDR20 (USP46 complex) as positive regulators of Wnt signaling in cultured human cells. We find that the USP46 complex is similarly required for Wnt signaling in Xenopus and zebrafish embryos. We demonstrate that Wnt signaling promotes the association between the USP46 complex and cell surface Wnt coreceptor, LRP6. Knockdown of USP46 decreases steady-state levels of LRP6 and increases the level of ubiquitylated LRP6. In contrast, overexpression of the USP46 complex blocks ubiquitylation of LRP6 by the ubiquitin ligases RNF43 and ZNFR3. Size exclusion chromatography studies suggest that the size of the USP46 cytoplasmic complex increases upon Wnt stimulation. Finally, we show that USP46 is essential for Wnt-dependent intestinal organoid viability, likely via its role in LRP6 receptor homeostasis. We propose a model in which the USP46 complex increases the steady-state level of cell surface LRP6 and facilitates the assembly of LRP6 into signalosomes via a pruning mechanism that removes sterically hindering ubiquitin chains.

Published

2023

74. Integrated genomic analysis reveals aberrations in WNT signaling in germ cell tumors of childhood and adolescence

Author

Xu, Lin, Pierce, Joshua L, Sanchez, Angelica, Chen, Kenneth S, Shukla, Abhay A, Fustino, Nicholas J, Stuart, Sarai H, Bagrodia, Aditya, Xiao, Xue, Guo, Lei, Krailo, Mark D, Shaikh, Furqan, Billmire, Deborah F, Pashankar, Farzana, Bestrashniy, Jessica, Oosterhuis, J Wolter, Gillis, Ad JM, Xie, Yang, Teot, Lisa, Mora, Jaume, Poynter, Jenny N, Rakheja, Dinesh, Looijenga, Leendert HJ, Draper, Bruce W, Frazier, A Lindsay, and Amatruda, James F

Subjects

Cancer, Genetics, Pediatric, Human Genome, Aetiology, 2.1 Biological and endogenous factors, Male, Child, Infant, Female, Young Adult, Humans, Adolescent, Infant, Newborn, Child, Preschool, Adult, Wnt Signaling Pathway, Neoplasms, Germ Cell and Embryonal, Teratoma, Testicular Neoplasms, Genomics

Abstract

Germ cell tumors (GCTs) are neoplasms of the testis, ovary and extragonadal sites that occur in infants, children, adolescents and adults. Post-pubertal (type II) malignant GCTs may present as seminoma, non-seminoma or mixed histologies. In contrast, pre-pubertal (type I) GCTs are limited to (benign) teratoma and (malignant) yolk sac tumor (YST). Epidemiologic and molecular data have shown that pre- and post-pubertal GCTs arise by distinct mechanisms. Dedicated studies of the genomic landscape of type I and II GCT in children and adolescents are lacking. Here we present an integrated genomic analysis of extracranial GCTs across the age spectrum from 0-24 years. Activation of the WNT pathway by somatic mutation, copy-number alteration, and differential promoter methylation is a prominent feature of GCTs in children, adolescents and young adults, and is associated with poor clinical outcomes. Significantly, we find that small molecule WNT inhibitors can suppress GCT cells both in vitro and in vivo. These results highlight the importance of WNT pathway signaling in GCTs across all ages and provide a foundation for future efforts to develop targeted therapies for these cancers.

Published

2023

75. Vangl-dependent Wnt/planar cell polarity signaling mediates collective breast carcinoma motility and distant metastasis

Author

VanderVorst, Kacey, Dreyer, Courtney A, Hatakeyama, Jason, Bell, George RR, Learn, Julie A, Berg, Anastasia L, Hernandez, Maria, Lee, Hyun, Collins, Sean R, and Carraway, Kermit L

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Breast Cancer, Cancer, 2.1 Biological and endogenous factors, Aetiology, Animals, Mice, Wnt Signaling Pathway, Cell Polarity, Neoplasms, Cell Movement, Collective cell migration, Planar cell polarity, Non-canonical Wnt, Metastasis, Oncology & Carcinogenesis, Oncology and carcinogenesis

Abstract

BackgroundIn light of the growing appreciation for the role of collective cell motility in metastasis, a deeper understanding of the underlying signaling pathways will be critical to translating these observations to the treatment of advanced cancers. Here, we examine the contribution of Wnt/planar cell polarity (Wnt/PCP), one of the non-canonical Wnt signaling pathways and defined by the involvement of the tetraspanin-like proteins Vangl1 and Vangl2, to breast tumor cell motility, collective cell invasiveness and mammary tumor metastasis.MethodsVangl1 and Vangl2 knockdown and overexpression and Wnt5a stimulation were employed to manipulate Wnt/PCP signaling in a battery of breast cancer cell lines representing all breast cancer subtypes, and in tumor organoids from MMTV-PyMT mice. Cell migration was assessed by scratch and organoid invasion assays, Vangl protein subcellular localization was assessed by confocal fluorescence microscopy, and RhoA activation was assessed in real time by fluorescence imaging with an advanced FRET biosensor. The impact of Wnt/PCP suppression on mammary tumor growth and metastasis was assessed by determining the effect of conditional Vangl2 knockout on the MMTV-NDL mouse mammary tumor model.ResultsWe observed that Vangl2 knockdown suppresses the motility of all breast cancer cell lines examined, and overexpression drives the invasiveness of collectively migrating MMTV-PyMT organoids. Vangl2-dependent RhoA activity is localized in real time to a subpopulation of motile leader cells displaying a hyper-protrusive leading edge, Vangl protein is localized to leader cell protrusions within leader cells, and actin cytoskeletal regulator RhoA is preferentially activated in the leader cells of a migrating collective. Mammary gland-specific knockout of Vangl2 results in a striking decrease in lung metastases in MMTV-NDL mice, but does not impact primary tumor growth characteristics.ConclusionsWe conclude that Vangl-dependent Wnt/PCP signaling promotes breast cancer collective cell migration independent of breast tumor subtype and facilitates distant metastasis in a genetically engineered mouse model of breast cancer. Our observations are consistent with a model whereby Vangl proteins localized at the leading edge of leader cells in a migrating collective act through RhoA to mediate the cytoskeletal rearrangements required for pro-migratory protrusion formation.

Published

2023

76. Amplification of the PLAG-family genes—PLAGL1 and PLAGL2—is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification

Author

Keck, Michaela-Kristina, Sill, Martin, Wittmann, Andrea, Joshi, Piyush, Stichel, Damian, Beck, Pengbo, Okonechnikow, Konstantin, Sievers, Philipp, Wefers, Annika K, Roncaroli, Federico, Avula, Shivaram, McCabe, Martin G, Hayden, James T, Wesseling, Pieter, Øra, Ingrid, Nistér, Monica, Kranendonk, Mariëtte EG, Tops, Bastiaan BJ, Zapotocky, Michal, Zamecnik, Josef, Vasiljevic, Alexandre, Fenouil, Tanguy, Meyronet, David, von Hoff, Katja, Schüller, Ulrich, Loiseau, Hugues, Figarella-Branger, Dominique, Kramm, Christof M, Sturm, Dominik, Scheie, David, Rauramaa, Tuomas, Pesola, Jouni, Gojo, Johannes, Haberler, Christine, Brandner, Sebastian, Jacques, Tom, Sexton Oates, Alexandra, Saffery, Richard, Koscielniak, Ewa, Baker, Suzanne J, Yip, Stephen, Snuderl, Matija, Ud Din, Nasir, Samuel, David, Schramm, Kathrin, Blattner-Johnson, Mirjam, Selt, Florian, Ecker, Jonas, Milde, Till, von Deimling, Andreas, Korshunov, Andrey, Perry, Arie, Pfister, Stefan M, Sahm, Felix, Solomon, David A, and Jones, David TW

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Pediatric, Genetics, Rare Diseases, Pediatric Cancer, Cancer, Pediatric Research Initiative, Neurosciences, Brain Cancer, Brain Disorders, Child, Child, Preschool, Female, Humans, Infant, Male, Cell Cycle Proteins, Central Nervous System Neoplasms, DNA Methylation, DNA-Binding Proteins, Neuroectodermal Tumors, Primitive, RNA-Binding Proteins, Transcription Factors, Tumor Suppressor Proteins, Wnt Signaling Pathway, PLAGL1, PLAGL2, Molecular neuro-oncology, Pediatric cancer, Clinical Sciences, Neurology & Neurosurgery

Abstract

Pediatric central nervous system (CNS) tumors represent the most common cause of cancer-related death in children aged 0-14 years. They differ from their adult counterparts, showing extensive clinical and molecular heterogeneity as well as a challenging histopathological spectrum that often impairs accurate diagnosis. Here, we use DNA methylation-based CNS tumor classification in combination with copy number, RNA-seq, and ChIP-seq analysis to characterize a newly identified CNS tumor type. In addition, we report histology, patient characteristics, and survival data in this tumor type. We describe a biologically distinct pediatric CNS tumor type (n = 31 cases) that is characterized by focal high-level amplification and resultant overexpression of either PLAGL1 or PLAGL2, and an absence of recurrent genetic alterations characteristic of other pediatric CNS tumor types. Both genes act as transcription factors for a regulatory subset of imprinted genes (IGs), components of the Wnt/β-Catenin pathway, and the potential drug targets RET and CYP2W1, which are also specifically overexpressed in this tumor type. A derived PLAGL-specific gene expression signature indicates dysregulation of imprinting control and differentiation/development. These tumors occurred throughout the neuroaxis including the cerebral hemispheres, cerebellum, and brainstem, and were predominantly composed of primitive embryonal-like cells lacking robust expression of markers of glial or neuronal differentiation (e.g., GFAP, OLIG2, and synaptophysin). Tumors with PLAGL1 amplification were typically diagnosed during adolescence (median age 10.5 years), whereas those with PLAGL2 amplification were diagnosed during early childhood (median age 2 years). The 10-year overall survival was 66% for PLAGL1-amplified tumors, 25% for PLAGL2-amplified tumors, 18% for male patients, and 82% for female patients. In summary, we describe a new type of biologically distinct CNS tumor characterized by PLAGL1/2 amplification that occurs predominantly in infants and toddlers (PLAGL2) or adolescents (PLAGL1) which we consider best classified as a CNS embryonal tumor and which is associated with intermediate survival. The cell of origin and optimal treatment strategies remain to be defined.

Published

2023

77. Temporal changes in plasma membrane lipid content induce endocytosis to regulate developmental epithelial-to-mesenchymal transition

Author

Piacentino, Michael L, Hutchins, Erica J, Andrews, Cecelia J, and Bronner, Marianne E

Subjects

Congenital Structural Anomalies, Pediatric, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Neural Crest, Epithelial-Mesenchymal Transition, Wnt Signaling Pathway, Cell Membrane, Membrane Lipids, Ceramides, Cell Movement, neural crest, epithelial-to-mesenchymal transition, ceramide, cell signaling, endocytosis

Abstract

Epithelial-to-mesenchymal transition (EMT) is a dramatic change in cellular physiology during development and metastasis, which requires coordination between cell signaling, adhesion, and membrane protrusions. These processes all involve dynamic changes in the plasma membrane; yet, how membrane lipid content regulates membrane function during EMT remains incompletely understood. By screening for differential expression of lipid-modifying genes over the course of EMT in the avian neural crest, we have identified the ceramide-producing enzyme neutral sphingomyelinase 2 (nSMase2) as a critical regulator of a developmental EMT. nSMase2 expression begins at the onset of EMT, and in vivo knockdown experiments demonstrate that nSMase2 is necessary for neural crest migration. We find that nSMase2 promotes Wnt and BMP signaling and is required to activate the mesenchymal gene expression program. Mechanistically, we show that nSMase2-dependent ceramide production is necessary for and sufficient to up-regulate endocytosis and is required for Wnt co-receptor internalization. Finally, inhibition of endocytosis in the neural crest mimics the loss of migration and Wnt signaling observed following nSMase2 knockdown. Our results support a model in which nSMase2 is expressed at the onset of neural crest EMT to produce ceramide and facilitate receptor-mediated endocytosis of Wnt and BMP signaling complexes, thereby activating promigratory gene expression. These results highlight the critical role of plasma membrane lipid metabolism in regulating transcriptional changes during developmental EMT programs.

Published

2022

78. Identification of epigenetic silencing of the SFRP2 gene in colorectal cancer as a clinical biomarker and molecular significance.

Author

Boughanem, Hatim, pilo, Jesús, García-Flores, Libia Alejandra, Arranz, Isabel, Ramos-Fernandez, María, Ortega-Castan, María, Crujeiras, Ana B., Sandoval, Juan, and Macias-Gonzalez, Manuel

Subjects

*BIOLOGICAL specimens, *GENE silencing, *SECRETED frizzled-related proteins, *HUMAN carcinogenesis, *COLORECTAL cancer, *BIOMARKERS, *TUMOR suppressor genes, *Y chromosome

Abstract

Background: Several studies have suggested secreted frizzled-related protein 2 (SFRP2) gene as a potential clinical biomarker in colorectal cancer (CRC). However, its diagnostic role remains unclear. In this study, we aimed to investigate the significance of SFRP2 methylation levels in a large cohort of biological specimens (including blood, adipose and colonic tissues) from patients with CRC, thereby potentially identifying new biomarker utility. Methods: We examined the expression (by qPCR) and methylation status (by 450 K DNA array and DNA pyrosequencing) of the SFRP2 gene in healthy participants (N = 110, aged as 53.7 (14.2), 48/62 males/females) and patients with CRC (N = 85, aged 67.7 (10.5), 61/24 males/females), across different biological tissues, and assessing its potential as a biomarker for CRC. Additionally, we investigated the effect of recombinant human SFRP2 (rhSFRP2) as a therapeutic target, on cell proliferation, migration, and the expression of key genes related to carcinogenesis and the Wnt pathway. Results: Our findings revealed that SFRP2 promoter methylation in whole blood could predict cancer stage (I + II vs. III + IV) (AUC = 0.653), lymph node invasion (AUC = 0.692), and CRC recurrence (AUC = 0.699) in patients with CRC (all with p < 0.05). Furthermore, we observed a global hypomethylation of SFRP2 in tumors compared to the adjacent area (p < 0.001). This observation was validated in the TCGA-COAD and TCGA-READ cohorts, demonstrating overall hypermethylation (both with p < 0.001) and low expression (p < 0.001), as shown in publicly available scRNA-Seq data. Notably, neoadjuvant-treated CRC patients exhibited lower SFRP2 methylation levels compared to untreated patients (p < 0.05) and low promoter SFRP2 methylation in untreated patients was associated with poor overall survival (p < 0.05), when compared to high methylation. Finally, treatment with 5 µg of rhSFRP2 treatment in CRC cells (HCT116 cells) inhibited cell proliferation (p < 0.001) and migration (p < 0.05), and downregulated the expression of AXIN2 (p < 0.01), a gene involved in Wnt signaling pathway. Conclusions: These findings establish promoter methylation of the SFRP2 gene as a prognostic candidate in CRC when assessed in blood, and as a therapeutic prognostic candidate in tumors, potentially valuable in clinical practice. SFRP2 also emerges as a therapeutic option, providing new clinical and therapeutical avenues. [ABSTRACT FROM AUTHOR]

Published

2024

79. Wnt 信号通路与自身免疫调节因子共同参与胚胎干细胞向胸腺上皮祖细胞的分化.

Author

文廷浩, 李远迪, 何可可, 宋雯茜, 王先斌, 高 杰, 苏 敏, and 胡 蓉

Subjects

*EMBRYONIC stem cells, *PROGENITOR cells, *EPITHELIAL cells, *GENE expression, *REGULATOR genes, *CATENINS, *WNT signal transduction

Abstract

BACKGROUND: Autoimmune regulator gene (Aire) and Wnt signaling pathway play an important role in the maintenance and differentiation of mouse embryonic stem cell pluripotency. However, whether the Wnt signal and Aire are involved in the differentiation of embryonic stem cells to thymic epithelial progenitor cells remains poorly understood. OBJECTIVE: To investigate the relationship of the Wnt signaling pathway and Aire with the differentiation of embryonic stem cells. METHODS: A two-step differentiation method was used to induce mouse embryonic stem cells to differentiate into endoderm and then into thymic epithelial progenitor cells. Mouse embryonic stem cells were infected with Aire shRNA lentivirus, and monoclonal stable strains were screened by puromycin. Mouse embryonic stem cells were collected on days 0, 3 and 10 of the directed induction of differentiation after the induced differentiation by the two-step differentiation method. Cellular immunofluorescence, flow cytometry, western blot assay, and real-time qPCR were used to detect the expression changes of related genes and proteins. RESULTS AND CONCLUSION: (1) Immunofluorescence staining showed positive expression of SSEA1 and OCT4 on day 0 of targeted induction of differentiation. (2) Immunofluorescence staining showed double-positive expression of SOX17 and FOXA2 on day 3 of targeted induction of differentiation. (3) Flow cytometry results showed positive expression of EPCAM1, K5 and K8 on day 10 of targeted induction of differentiation. (4) Compared with undifferentiated mouse embryonic stem cells, the expressions of Wnt7a, β-catenin, and Gsk-3β proteins were elevated, and the expression level of Aire protein was decreased in induced differentiated thymic epithelial progenitor cells. (5) Compared with undifferentiated mouse embryonic stem cells, the expressions of Wnt7a, β-catenin, Gsk-3β and Aire mRNA were elevated in thymic epithelial progenitor cells. (6) Compared with normal cultured mouse embryonic stem cells and their ultimately differentiated thymic epithelial progenitor cells, the expression levels of Wnt7a, β-catenin and Gsk-3β proteins were reduced in mouse embryonic stem cells with knockdown of Aire genes and their final differentiated thymic epithelial progenitor cells. In conclusion, the Wnt signaling pathway and Aire are jointly involved in the process of targeted induction of differentiation of mouse embryonic stem cells into mouse thymic epithelial progenitor cells. [ABSTRACT FROM AUTHOR]

Published

2024

80. Wnt信号通路与肝再生的关系及其在肝脏疾病中的作用.

Author

林玉培, 刘晓萍, 罗银冰, 李飞燕, 廖莹莹, 莫世聪, 毛德文, and 蓝艳梅

Abstract

The Wnt signaling pathway plays an important role in maintaining liver homeostasis and liver regeneration. In healthy livers, the Wnt signaling pathway is mostly inactive, but it is continuously overactivated during cell renewal or regeneration processes, as well as in certain pathological conditions, diseases, precancerous states, and cancers. Persistent liver cell injury often leads to chronic liver diseases such as liver fibrosis, liver cirrhosis, and liver cancer. This article summarizes the basic structural features of the Wnt signaling pathway and analyzes its important role in the pathological progression of various liver diseases, so as to provide new ideas for the prevention and treatment of liver diseases in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

81. Autophagy‐related CMTM6 promotes glioblastoma progression by activating Wnt/β‐catenin pathway and acts as an onco‐immunological biomarker.

Author

Dai, Lirui, Xiao, Jingjia, Li, Xiang, Tao, Yiran, Zhou, Peizhi, Lyu, Liang, Shi, Zimin, Liang, Xianyin, Jia, Ziyang, and Jiang, Shu

Abstract

Background: Glioblastoma multiforme (GBM) is identified as one of the most prevalent and malignant brain tumors, characterized by poor treatment outcomes and a limited prognosis. CMTM6, a membrane protein, has been found to upregulate the expression of programmed cell death 1 ligand 1 protein (PD‐L1) and acts as an immune checkpoint inhibitor by inhibiting the programmed death 1 protein/PD‐L1 signaling pathway. Recent research has demonstrated a high expression of CMTM6 in GBM, suggesting its potential role in influencing the pathogenesis and progression of GBM, as well as its association with immune cell infiltration in the tumor microenvironment. However, the underlying mechanism of CMTM6 in GBM requires further investigation. Methods: Data from cancer patients in The Cancer Genome Atlas, Gene Expression Omnibus and Chinese Glioma Genome Atlas cohorts were consolidated for the current study. Through multi‐omics analysis, the study systematically examined the expression profile of CMTM6, epigenetic modifications, prognostic significance, biological functions, potential mechanisms of action and alterations in the immune microenvironment. Additionally, the study investigated CMTM6 expression in GBM cell lines and normal cells using reverse transcription PCR and western blot analysis. The impact of CMTM6 on GBM cell proliferation, migration and invasion was evaluated using a combination of cell counting kit‐8 assay, clone formation assay, 5‐ethynyl‐2′‐deoxyuridine incorporation assay, wound healing assay and Transwell assay. In order to explore the mechanism of CMTM6, the Wnt/β‐catenin signaling pathway and autophagy‐related genes were further verified through western blot analysis. Results: CMTM6 is highly expressed in multiple tumors, particularly GBM. CMTM6 has been shown to be a valuable diagnostic and prognostic biomarker by various bioinformatics approaches. Additionally, CMTM6 plays a pivotal role in the pathogenesis of cancer, specifically GBM, by modulating various biological processes such as DNA methyltransferase expression, RNA modification, copy number variation, genomic heterogeneity, tumor stemness and DNA methylation. The findings of the experiment indicate a significant correlation between elevated CMTM6 expression and the proliferation, invasion, migration and autophagy of GBM cells, with potential key roles mediated through the Wnt/β‐catenin signaling pathway. Furthermore, CMTM6 is implicated in modulating tumor immune cell infiltration and is closely linked to the expression of various immune checkpoint inhibitors and immune modulators, particularly within the context of GBM. High levels of CMTM6 expression also enhance the responsiveness of GBM patients to radiotherapy and chemotherapy, thereby offering valuable insights for guiding treatment strategies for GBM. Conclusions: Autophagy‐related CMTM6 is highly expressed in various types of cancer, especially GBM, and it can regulate GBM progression through the Wnt/β‐catenin signaling pathway and is capable of being used as an underlying target for the diagnosis, treatment selection and prognosis of patients with GBM. [ABSTRACT FROM AUTHOR]

Published

2024

82. 椎间盘退变中的 Wnt 信号通路.

Author

范志鸿, 张 贤, and 李 超

Subjects

*INTERVERTEBRAL disk, *WNT signal transduction, *LINCRNA, *CELLULAR control mechanisms, *EXTRACELLULAR matrix, *CARTILAGE regeneration

Abstract

BACKGROUND: Wnt signaling pathway is overexpressed in degenerative intervertebral discs, and inhibition of its expression can delay the process of intervertebral disc degeneration. Therefore, Wnt signaling pathway is closely related to intervertebral disc degeneration. OBJECTIVE: To summarize the relationship between Wnt signaling pathway and intervertebral disc, especially the specific role and influence of Wnt signaling pathway in intervertebral disc degeneration. METHODS: The first author took “intervertebral disc, Wnt, cell proliferation, cell senescence, cell apoptosis, extracellular matrix” as the English search terms. PubMed, Web of science and OVID LWWSpringerlink were searched for articles published from 2000 to January 2023, and articles related to Wnt signaling pathway and disc degeneration were consulted. Totally 54 articles were reviewed by reading, collating and preserving. RESULTS AND CONCLUSION: (1) During intervertebral disc formation in embryos, Wnt signaling pathway is overexpressed, which is involved in intervertebral disc formation and promotes posterior extension of notochord. (2) During intervertebral disc degeneration, Wnt signaling pathway can inhibit cell proliferation by stagnating cell cycle, increase the expression of age-related proteins and promote cell aging by participating in oxidative stress, and participate in cell apoptosis by regulation of long non-coding RNA. (3) Wnt signaling pathway can also decrease extracellular matrix related protein synthesis, promote extracellular matrix degradation and accelerate intervertebral disc degeneration. (4) Wnt signaling pathway can promote cell regeneration by activating as early intervertebral disc formation signal and participate in inducing stem cells to differentiate into intervertebral disc cells to repair damaged intervertebral disc. For example, Wnt signaling pathway can induce stem cells from cartilage endplate cells to migrate and transform to intervertebral disc. [ABSTRACT FROM AUTHOR]

Published

2024

83. ENO1 promotes trophoblast invasion regulated by E2F8 in recurrent miscarriage.

Author

Zhenzhen Liu, Chengjie Wang, Yao Tang, Xiaoyue Zhang, Jiangnan Pei, Haiyan Liu, Yi Yu, and Weirong Gu

Abstract

Recurrent miscarriage (RM) is related to the dysfunction of extravillous trophoblast cells (EVTs), but the comprehensive mechanisms remain largely unexplored. We analyzed single-cell RNA sequencing (scRNA-seq), bulk RNA sequencing and microarray datasets obtained from Gene Expression Omnibus (GEO) database to explore the hub genes in the mechanisms of RM. We identified 1724 differentially expressed genes (DEGs) in EVTs from the RM, and they were all expressed along the trajectory of EVTs. These DEGs were associated with hypoxia and glucose metabolism. Single-cell Regulatory Network Inference and Clustering (SCENIC) analysis revealed that E2F transcription factor (E2F) 8 (E2F8) was a key transcription factor for these DEGs. And the expression of ENO1 can be positively regulated by E2F8 via RNA sequencing analysis. Subsequently, we performed immunofluorescence assay (IF), plasmid transfection, western blotting, chromatin immunoprecipitation (ChIP), real-time quantitative polymerase chain reaction (qRT-PCR), and transwell assays for validation experiments. We found that the expression of alpha-Enolase 1 (ENO1) was lower in the placentas of RM. Importantly, E2F8 can transcriptionally regulate the expression of ENO1 to promote the invasion of trophoblast cells by inhibiting secreted frizzled-related protein 1/4 (SFRP1/4) to activate Wnt signaling pathway. Our results suggest that ENO1 can promote trophoblast invasion via an E2F8-dependent manner, highlighting a potential novel target for the physiological mechanisms of RM. [ABSTRACT FROM AUTHOR]

Published

2024

84. Exploring the Key Signaling Pathways and ncRNAs in Colorectal Cancer.

Author

Lee, Yun Ju, Kim, Woo Ryung, Park, Eun Gyung, Lee, Du Hyeong, Kim, Jung-min, Shin, Hae Jin, Jeong, Hyeon-su, Roh, Hyun-Young, and Kim, Heui-Soo

Subjects

*CIRCULAR RNA, *CELLULAR signal transduction, *COLORECTAL cancer, *LINCRNA, *MITOGEN-activated protein kinases, *GENE expression, *TRANSFORMING growth factors-beta, *MTOR protein

Abstract

Colorectal cancer (CRC) is the third most prevalent cancer to be diagnosed, and it has a substantial mortality rate. Despite numerous studies being conducted on CRC, it remains a significant health concern. The disease-free survival rates notably decrease as CRC progresses, emphasizing the urgency for effective diagnostic and therapeutic approaches. CRC development is caused by environmental factors, which mostly lead to the disruption of signaling pathways. Among these pathways, the Wingless/Integrated (Wnt) signaling pathway, Phosphatidylinositol 3-kinase/protein kinase B/mammalian target of rapamycin (PI3K/AKT/mTOR) signaling pathway, Mitogen-Activated Protein Kinase (MAPK) signaling pathway, Transforming Growth Factor-β (TGF-β) signaling pathway, and p53 signaling pathway are considered to be important. These signaling pathways are also regulated by non-coding RNAs (ncRNAs), including microRNAs (miRNAs), long non-coding RNAs (lncRNAs), and circular RNAs (circRNAs). They have emerged as crucial regulators of gene expression in CRC by changing their expression levels. The altered expression patterns of these ncRNAs have been implicated in CRC progression and development, suggesting their potential as diagnostic and therapeutic targets. This review provides an overview of the five key signaling pathways and regulation of ncRNAs involved in CRC pathogenesis that are studied to identify promising avenues for diagnosis and treatment strategies. [ABSTRACT FROM AUTHOR]

Published

2024

85. Teriflunomide Promotes Blood–Brain Barrier Integrity by Upregulating Claudin-1 via the Wnt/β-catenin Signaling Pathway in Multiple Sclerosis.

Author

Zhao, Yipeng, Chen, Chen, Xiao, Xiuqing, Fang, Ling, Cheng, Xi, Chang, Yanyu, Peng, Fuhua, Wang, Jingqi, Shen, Shishi, Wu, Shilin, Huang, Yiying, Cai, Wei, Zhou, Linli, and Qiu, Wei

Abstract

The blood–brain barrier (BBB) and tight junction (TJ) proteins maintain the homeostasis of the central nervous system (CNS). The dysfunction of BBB allows peripheral T cells infiltration into CNS and contributes to the pathophysiology of multiple sclerosis (MS). Teriflunomide is an approved drug for the treatment of MS by suppressing lymphocytes proliferation. However, whether teriflunomide has a protective effect on BBB in MS is not understood. We found that teriflunomide restored the injured BBB in the EAE model. Furthermore, teriflunomide treatment over 6 months improved BBB permeability and reduced peripheral leakage of CNS proteins in MS patients. Teriflunomide increased human brain microvascular endothelial cell (HBMEC) viability and promoted BBB integrity in an in vitro cell model. The TJ protein claudin-1 was upregulated by teriflunomide and responsible for the protective effect on BBB. Furthermore, RNA sequencing revealed that the Wnt signaling pathway was affected by teriflunomide. The activation of Wnt signaling pathway increased claudin-1 expression and reduced BBB damage in cell model and EAE rats. Our study demonstrated that teriflunomide upregulated the expression of the tight junction protein claudin-1 in endothelial cells and promoted the integrity of BBB through Wnt signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

86. Mesenchymal stem/stromal cells from human pluripotent stem cell-derived brain organoid enhance the ex vivo expansion and maintenance of hematopoietic stem/progenitor cells.

Author

Zhou, Ya, Cai, Xinping, Zhang, Xiuxiu, Dong, Yong, Pan, Xu, Lai, Mowen, Zhang, Yimeng, Chen, Yijin, Li, Xiaohong, Li, Xia, Liu, Jiaxin, Zhang, Yonggang, and Ma, Feng

Abstract

Background: Mesenchymal stem/stromal cells (MSCs) are of great therapeutic value due to their role in maintaining the function of hematopoietic stem/progenitor cells (HSPCs). MSCs derived from human pluripotent stem cells represent an ideal alternative because of their unlimited supply. However, the role of MSCs with neural crest origin derived from HPSCs on the maintenance of HSPCs has not been reported. Methods: Flow cytometric analysis, RNA sequencing and differentiation ability were applied to detect the characteristics of stromal cells from 3D human brain organoids. Human umbilical cord blood CD34+ (UCB-CD34+) cells were cultured in different coculture conditions composed of stromal cells and umbilical cord MSCs (UC-MSCs) with or without a cytokine cocktail. The hematopoietic stroma capacity of stromal cells was tested in vitro with the LTC-IC assay and in vivo by cotransplantation of cord blood nucleated cells and stroma cells into immunodeficient mice. RNA and proteomic sequencing were used to detect the role of MSCs on HSPCs. Results: The stromal cells, derived from both H1-hESCs and human induced pluripotent stem cells forebrain organoids, were capable of differentiating into the classical mesenchymal-derived cells (osteoblasts, chondrocytes, and adipocytes). These cells expressed MSC markers, thus named pluripotent stem cell-derived MSCs (pMSCs). The pMSCs showed neural crest origin with CD271 expression in the early stage. When human UCB-CD34+ HSPCs were cocultured on UC-MSCs or pMSCs, the latter resulted in robust expansion of UCB-CD34+ HSPCs in long-term culture and efficient maintenance of their transplantability. Comparison by RNA sequencing indicated that coculture of human UCB-CD34+ HSPCs with pMSCs provided an improved microenvironment for HSC maintenance. The pMSCs highly expressed the Wnt signaling inhibitors SFRP1 and SFRP2, indicating that they may help to modulate the cell cycle to promote the maintenance of UCB-CD34+ HSPCs by antagonizing Wnt activation. Conclusions: A novel method for harvesting MSCs with neural crest origin from 3D human brain organoids under serum-free culture conditions was reported. We demonstrate that the pMSCs support human UCB-HSPC expansion in vitro in a long-term culture and the maintenance of their transplantable ability. RNA and proteomic sequencing indicated that pMSCs provided an improved microenvironment for HSC maintenance via mechanisms involving cell–cell contact and secreted factors and suppression of Wnt signaling. This represents a novel method for large-scale production of MSCs of neural crest origin and provides a potential approach for development of human hematopoietic stromal cell therapy for treatment of dyshematopoiesis. [ABSTRACT FROM AUTHOR]

Published

2024

87. miRNA on the Battlefield of Cancer: Significance in Cancer Stem Cells, WNT Pathway, and Treatment.

Author

Bhagtaney, Lekha, Dharmarajan, Arun, and Warrier, Sudha

Subjects

*TUMOR treatment, *MICRORNA, *CHROMOSOME abnormalities, *CHRONOBIOLOGY disorders, *STEM cells, *CARCINOGENESIS, *GENETIC mutation, *PROGNOSIS, *WNT proteins, *GENOMES, *BIOMARKERS

Abstract

Simple Summary: The development of cancer proceeds when the intricate dynamics of the cell are destabilized. It is a multifaceted process, and the involvement of one particularly notorious cell type, cancer stem cells, has been increasingly observed. The WNT signaling pathway is a prominently deregulated pathway in cancer stem cells and has been suggested to maintain properties of self-renewal, tumor initiation, metastasis, and chemoresistance in these cells. MicroRNAs (miRNAs) are post-transcriptional gene regulators that can directly influence gene expression in cancer. As miRNAs hold the potential to be either oncogenic or tumor suppressors, they are found to be highly dysregulated in numerous cancers. Understanding the function of miRNAs in the context of cancer stem cells and the WNT signaling pathway may provide new insights into the treatment of cancer, which is a leading cause of death worldwide. Carcinogenesis is a complex process characterized by intricate changes in organ histology, biochemistry, epigenetics, and genetics. Within this intricate landscape, cancer stem cells (CSCs) have emerged as distinct cell types possessing unique attributes that significantly contribute to the pathogenesis of cancer. The WNT signaling pathway plays a critical role in maintaining somatic stem cell pluripotency. However, in cancer, overexpression of WNT mediators enhances the activity of β-catenin, resulting in phenomena such as recurrence and unfavorable survival outcomes. Notably, CSCs exhibit heightened WNT signaling compared to bulk cancer cells, providing intriguing insights into their functional characteristics. MicroRNAs (miRNAs), as post-transcriptional gene expression regulators, modulate various physiological processes in numerous diseases including cancer. Upregulation or downregulation of miRNAs can affect the production of pro-oncogenic or anti-oncogenic proteins, influencing cellular processes that maintain tissue homeostasis and promote either apoptosis or differentiation, even in cancer cells. In order to understand the dysregulation of miRNAs, it is essential to examine miRNA biogenesis and any possible alterations at each step. The potential of a miRNA as a biomarker in prognosis, diagnosis, and detection is being assessed using technologies such as next-generation sequencing. Extensive research has explored miRNA expression profiles in cancer, leading to their utilization as diagnostic tools and the development of personalized and targeted cancer therapies. This review delves into the role of miRNAs in carcinogenesis in relation to the WNT signaling pathway along with their potential as druggable compounds. [ABSTRACT FROM AUTHOR]

Published

2024

88. Correlation of tumor necrosis factor-α and sclerostin in bone turnover process of premenopausal women with rheumatoid arthritis.

Author

Chair, Malikül, HİDAYAT, Rudy, Sumariyono, ABDULLAH, Murdani, and Parlindungan, Faisal

Subjects

*BONE morphogenetic proteins, *SCLEROSTIN, *BONE remodeling, *RHEUMATOID arthritis, *TUMOR necrosis factors

Abstract

Rheumatoid arthritis is associated with systemic bone mass loss due to stimulation of osteoclastogenesis and suppression of osteoblastogenesis through inhibition of Wingless (Wnt)/ß catenin canonical and bone morphogenetic proteins (BMP) pathways by sclerostin. Our study assessed the correlation between tumor necrosis factor (TNF)-a and sclerostin with bone resorption markers C-terminal telopeptides of type 1 collagen (CTX) and procollagen type 1 N-terminal propeptide (P1NP) in pre-menopausal rheumatoid arthritis patients. This cross-sectional study involved 38 premenopausal women with RA. Serum TNF-a, sclerostin, P1NP, and CTX level were examined by ELISA method. This study revealed high level of serum CTX (mean 2.74 ng/mL) and a low level of P1NP (median 34.04 pg/mL). There was a significant negative correlation (r = -0.388) between TNF-a and sclerostin levels (p = 0.016), as well as a significant positive correlation (r = 0.362) between TNF-a and P1NP levels (p = 0.026). There was a significant negative correlation between TNF-a and sclerostin, and also a significant positive correlation between TNF-a and P1NP in our study. [ABSTRACT FROM AUTHOR]

Published

2024

89. Transcriptomic Analysis Reveals Intrinsic Abnormalities in Endometrial Polyps.

Author

Chiu, Christine Shan-Chi, Yeh, Ling-Yu, Pan, Szu-Hua, and Li, Sheng-Hsiang

Subjects

*VASCULAR smooth muscle, *ENDOMETRIUM, *SMOOTH muscle contraction, *GENE expression, *POLYPS, *WNT signal transduction

Abstract

Endometrial polyps (EPs) are benign overgrowths of the endometrial tissue lining the uterus, often causing abnormal bleeding or infertility. This study analyzed gene expression differences between EPs and adjacent endometrial tissue to elucidate intrinsic abnormalities promoting pathological overgrowth. RNA sequencing of 12 pairs of EPs and the surrounding endometrial tissue from infertile women revealed 322 differentially expressed genes. Protein–protein interaction network analysis revealed significant alterations in specific signaling pathways, notably Wnt signaling and vascular smooth muscle regulation, suggesting these pathways play critical roles in the pathophysiology of EPs. Wnt-related genes DKK1 and DKKL1 were upregulated, while GPC3, GREM1, RSPO3, SFRP5, and WNT10B were downregulated. Relevant genes for vascular smooth muscle contraction were nearly all downregulated in EPs, including ACTA2, ACTG2, KCNMB1, KCNMB2, MYL9, PPP1R12B, and TAGLN. Overall, the results indicate fundamental gene expression changes promote EP formation through unrestrained growth signaling and vascular defects. The intrinsic signaling abnormalities likely contribute to clinical symptoms of abnormal uterine bleeding and infertility common in EP patients. This analysis provides molecular insights into abnormal endometrial overgrowth to guide improved diagnostic and therapeutic approaches for this troublesome women's health condition. Confirmation of expanded cohorts and further investigations into implicated regulatory relationships are warranted. [ABSTRACT FROM AUTHOR]

Published

2024

90. Activation of periodontal ligament cell cytodifferentiation by juxtacrine signaling from cementoblasts.

Author

Sawada, Keigo, Shimomura, Junpei, Takedachi, Masahide, Murata, Mari, Morimoto, Chiaki, Kawasaki, Kohsuke, Kawakami, Kazuma, Iwayama, Tomoaki, and Murakami, Shinya

Abstract

Background: New cementum forms from existing cementum during periodontal tissue regeneration, indicating that cementoblasts may interact with progenitor cells in the periodontal ligament to enhance cementogenesis. However, the molecular mechanisms of this process are currently unknown. This study aims to clarify the role of cell‐cell interactions between cementoblasts and periodontal ligament cells in differentiation into cementoblasts. Methods: To analyze the role of human cementoblast‐like cells (HCEMs) on human periodontal ligament cells (HPDLs), we mixed cell suspensions of enhanced green fluorescent protein‐tagged HPDLs and HCEMs, and then seeded and cultured them in single wells (direct co‐cultures). We sorted co‐cultured HPDLs and analyzed their characteristics, including the expression of cementum‐related genes. In addition, we cultured HPDLs and HCEMs in a non‐contact environment using a culture system composed of an upper insert and a lower well separated by a semi‐permeable membrane (indirect co‐cultures), and similar analysis was performed. Gene expression of integrin‐binding sialoprotein (IBSP) in cementoblasts was confirmed in mouse periodontal tissues. We also investigated the effect of Wingless‐type (Wnt) signaling on the differentiation of HPDLs into cementoblasts. Results: Direct co‐culture of HPDLs with HCEMs significantly upregulated the expression of cementoblast‐related genes in HPDLs, whereas indirect co‐culture exerted no effect. Wnt3A stimulation significantly upregulated IBSP expression in HPDLs, whereas inhibition of canonical Wnt signaling suppressed the effects of co‐culture. Conclusion: Our results suggest that direct cell interactions with cementoblasts promote periodontal ligament cell differentiation into cementoblasts. Juxtacrine signaling via the canonical Wnt pathway plays a role in this interaction. [ABSTRACT FROM AUTHOR]

Published

2024

91. Changes in Dickkopf-1, but Not Sclerostin, in Gingival Crevicular Fluid Are Associated with Peroral Statin Treatment in Patients with Periodontitis.

Author

Duspara, Kristina, Sikora, Renata, Petrovic, Ana, Kuna Roguljic, Lucija, Matic, Anita, Kralik, Kristina, Roguljic, Hrvoje, Kizivat, Tomislav, Duspara, Mirjana, Igrec, Dunja, Bojanic, Kristina, Smolic, Robert, Vcev, Aleksandar, Wyszyńska, Magdalena, Wu, George Y., and Smolic, Martina

Subjects

GINGIVAL fluid, STATINS (Cardiovascular agents), SCLEROSTIN, PERIODONTITIS, WNT signal transduction

Abstract

Background and Objectives: Periodontitis is marked by the destruction of alveolar bone. Sclerostin (SOST) and dickkopf-1 (DKK-1) act as inhibitors of the Wingless-type (Wnt) signaling pathway, a key regulator of bone metabolism. Recent studies have suggested that statins play a role in bone resorption and formation by influencing Wnt signaling. The aim of this study was to determine the levels of SOST and DKK-1 in periodontal patients with and without peroral statins treatment in their therapy. Materials and Methods: A total of 79 patients with diagnosed periodontitis were divided into two groups: 39 patients on statin therapy (SP group) and 40 patients without statin therapy as a control group (P group). The periodontal clinical examination probing (pocket) depth (PD) and gingival recession (GR) were measured, and approximal plaque was detected, while vertical and horizontal bone resorption was measured using a panoramic radiograph image. Clinical attachment loss (CAL) values were calculated using PD and GR values. Gingival crevicular fluid (GCF) was collected and used for measuring SOST and DKK-1 levels. A questionnaire was used to assess lifestyle habits and statin intake. Patients' medical records were used to obtain biochemical parameters. Results: There was no significant difference in sclerostin concentration between the SP and P group. DKK-1 values were significantly higher in the SP group compared to the control group (p = 0.04). Also, PD (p = 0.001) and GR (p = 0.03) were significantly higher in the SP group. The level of DKK-1 had a positive relationship with the PD, the greater the PD, the higher the level of DKK-1 (Rho = 0.350), while there was no significant association with other parameters. Conclusions: Peroral statins in periodontal patients are associated with GCF levels of DKK-1 but not with sclerostin levels. [ABSTRACT FROM AUTHOR]

Published

2024

92. Achaete‐scute family bHLH transcription factor 2 activation promotes hepatoblastoma progression.

Author

Kato, Yutaka, Fukazawa, Takahiro, Tanimoto, Keiji, Kanawa, Masami, Kojima, Masato, Saeki, Isamu, Kurihara, Sho, Touge, Ryo, Hirohashi, Nobuyuki, Okada, Satoshi, and Hiyama, Eiso

Abstract

Achaete‐scute family bHLH transcription factor 2 (ASCL2) is highly expressed in hepatoblastoma (HB) tissues, but its role remains unclear. Thus, biological changes in the HB cell line HepG2 in response to induced ASCL2 expression were assessed. ASCL2 expression was induced in HepG2 cells using the Tet‐On 3G system, which includes doxycycline. Cell viability, proliferation activity, mobility, and stemness were evaluated using 3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyltetrazolium bromide, colony‐formation, migration, invasion, and sphere‐formation assays. Quantitative reverse‐transcription polymerase chain reaction was used to assess the expression of markers for proliferation (CCND1 and MYC), epithelial‐mesenchymal transition (EMT; SNAI1, TWIST1, and ZEB1), mesenchymal‐epithelial transition (CDH1), and stemness (KLF4, POU5F1, and SOX9). Compared with the non‐induced HepG2 cells, cells with induced ASCL2 expression showed significant increases in viability, colony number, migration area (%), and sphere number on days 7, 14, 8, and 7, respectively, and invasion area (%) after 90 h. Furthermore, induction of ASCL2 expression significantly upregulated CCND1, MYC, POU5F1, SOX9, and KLF4 expression on days 2, 2, 3, 3, and 5, respectively, and increased the ratios of SNAI1, TWIST1, and ZEB1 to CDH1 on day 5. ASCL2 promoted the formation of malignant phenotypes in HepG2 cells, which may be correlated with the upregulation of the Wnt signaling pathway‐, EMT‐, and stemness‐related genes. ASCL2 activation may therefore be involved in the progression of HB. [ABSTRACT FROM AUTHOR]

Published

2024

93. Progress in the development of modulators targeting Frizzleds

Author

Junlan Chuan, Wei Li, Shengliu Pan, Zhongliang Jiang, Jianyou Shi, and Zhenglin Yang

Subjects

WNT signaling pathway, Frizzleds, Inhibitors, Agonists, Structure, Therapeutics. Pharmacology, RM1-950

Abstract

The Frizzleds (FZDs) receptors on the cell surface belong to the class F of G protein-coupled receptors (GPCRs) which are the major receptors of WNT protein that mediates the classical WNT signaling pathway and other non-classical pathways. Besides, the FZDs also play a core role in tissue regeneration and tumor occurrence. With the structure and mechanism of FZDs activation becoming clearer, a series of FZDs modulators (inhibitors and agonists) have been developed, with the hope of bringing benefits to the treatment of cancer and degenerative diseases. Most of the FZDs inhibitors (small molecules, antibodies or designed protein inhibitors) block WNT signaling through binding to the cysteine-rich domain (CRD) of FZDs. Several small molecules impede FZDs activation by targeting to the third intracellular domain or the transmembrane domain of FZDs. However, three small molecules (FZM1.8, SAG1.3 and purmorphamine) activate the FZDs through direct interaction with the transmembrane domain. Another type of FZDs agonists are bivalent or tetravalent antibodies which activate the WNT signaling via inducing FZD-LRP5/6 heterodimerization. In this article, we reviewed the FZDs modulators reported in recent years, summarized the critical molecules’ discovery processes and the elucidated relevant structural and pharmacological mechanisms. We believe the summaried molecular mechanisms of the relevant modulators could provide important guidance and reference for the future development of FZD modulators.

Published

2024

94. Unraveling the molecular and immunological landscape: Exploring signaling pathways in osteoporosis

Author

Morteza Nakhaei Amroodi, Mazaher Maghsoudloo, Shayan Amiri, Khatere Mokhtari, Parnaz Mohseni, Azadeh Pourmarjani, Behdokht Jamali, Elaheh Mohandesi Khosroshahi, Saba Asadi, Pouria Tabrizian, Maliheh Entezari, Mehrdad Hashemi, and Runlan Wan

Subjects

Osteoporosis, SKP1, Wnt signaling pathway, Notch signaling pathway, JAK/STAT signaling pathway, NF-κB signaling pathway TGF-β signaling pathway, Therapeutics. Pharmacology, RM1-950

Abstract

Osteoporosis, characterized by compromised bone density and microarchitecture, represents a significant global health challenge, particularly in aging populations. This comprehensive review delves into the intricate signaling pathways implicated in the pathogenesis of osteoporosis, providing valuable insights into the pivotal role of signal transduction in maintaining bone homeostasis. The exploration encompasses cellular signaling pathways such as Wnt, Notch, JAK/STAT, NF-κB, and TGF-β, all of which play crucial roles in bone remodeling. The dysregulation of these pathways is a contributing factor to osteoporosis, necessitating a profound understanding of their complexities to unveil the molecular mechanisms underlying bone loss. The review highlights the pathological significance of disrupted signaling in osteoporosis, emphasizing how these deviations impact the functionality of osteoblasts and osteoclasts, ultimately resulting in heightened bone resorption and compromised bone formation. A nuanced analysis of the intricate crosstalk between these pathways is provided to underscore their relevance in the pathophysiology of osteoporosis. Furthermore, the study addresses some of the most crucial long non-coding RNAs (lncRNAs) associated with osteoporosis, adding an additional layer of academic depth to the exploration of immune system involvement in various types of osteoporosis. Finally, we propose that SKP1 can serve as a potential biomarker in osteoporosis.

Published

2024

95. SFRP4 protein expression is reduced in high grade astrocytomas which is not caused by the methylation of its promoter

Author

Anja Kafka, Nives Pećina-Šlaus, Denis Drmić, Anja Bukovac, Niko Njirić, Kamelija Žarković, and Antonia Jakovčević

Subjects

astrocytoma, Wnt signaling pathway, SFRP4, promoter methylation, methylation specific PCR, IRS score, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionEpigenetics play a vital role in stratifying CNS tumors and gliomas. The importance of studying Secreted frizzled-related protein 4 (SFRP4) in gliomas is to improve diffuse glioma methylation profiling. Here we examined the methylation status of SFRP4 promoter and the level of its protein expression in diffuse gliomas WHO grades 2–4.MethodsSFRP4 expression was detected by immunohistochemistry and evaluated semi-quantitatively. In the tumor hot-spot area, the intensity of protein expression in 200 cells was determined using ImageJ (National Institutes of Health, United States). The assessment of immunopositivity was based on the IRS score (Immunoreactivity Score). Promoter methylation was examined by methylation specific-PCR (MSP) in fifty-one diffuse glioma samples and appropriate controls. Isolated DNA was treated with bisulfite conversion and afterwards used for MSP. Public databases (cBioPortal, COSMIC and LOVD) were searched to corroborate the results.Results and discussionSFRP4 protein expression in glioblastomas was very weak or non-existent in 86.7% of samples, moderate in 13.3%, while strong expression was not observed. The increase in astrocytoma grade resulted in SFRP4 protein decrease (p = 0.008), indicating the loss of its antagonistic role in Wnt signaling. Promoter methylation of SFRP4 gene was found in 16.3% of cases. Astrocytomas grade 2 had significantly more methylated cases compared to grade 3 astrocytomas (p = 0.004) and glioblastomas (p

Published

2024

96. Transposon Mutagenesis Reveals RBMS3 Silencing as a Promoter of Malignant Progression of BRAFV600E-Driven Lung Tumorigenesis

Author

Vaishnavi, Aria, Juan, Joseph, Jacob, Maebh, Stehn, Christopher, Gardner, Eric E, Scherzer, Michael T, Schuman, Sophia, van Veen, J Edward, Murphy, Brandon, Hackett, Christopher S, Dupuy, Adam J, Chmura, Steve A, van der Weyden, Louise, Newberg, Justin Y, Liu, Annie, Mann, Karen, Rust, Alistair G, Weiss, William A, Kinsey, Conan G, Adams, David J, Grossmann, Allie, Mann, Michael B, and McMahon, Martin

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Lung, Rare Diseases, Genetics, Lung Cancer, Cancer, Biotechnology, Aetiology, 2.1 Biological and endogenous factors, Animals, Humans, Mice, Adenocarcinoma of Lung, Carcinoma, Non-Small-Cell Lung, Cell Proliferation, Lung Neoplasms, Mutagenesis, Proto-Oncogene Proteins B-raf, RNA-Binding Proteins, Trans-Activators, Wnt Signaling Pathway, Carcinogenesis, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis

Abstract

Mutationally activated BRAF is detected in approximately 7% of human lung adenocarcinomas, with BRAFT1799A serving as a predictive biomarker for treatment of patients with FDA-approved inhibitors of BRAFV600E oncoprotein signaling. In genetically engineered mouse (GEM) models, expression of BRAFV600E in the lung epithelium initiates growth of benign lung tumors that, without additional genetic alterations, rarely progress to malignant lung adenocarcinoma. To identify genes that cooperate with BRAFV600E for malignant progression, we used Sleeping Beauty-mediated transposon mutagenesis, which dramatically accelerated the emergence of lethal lung cancers. Among the genes identified was Rbms3, which encodes an RNA-binding protein previously implicated as a putative tumor suppressor. Silencing of RBMS3 via CRISPR/Cas9 gene editing promoted growth of BRAFV600E lung organoids and promoted development of malignant lung cancers with a distinct micropapillary architecture in BRAFV600E and EGFRL858R GEM models. BRAFV600E/RBMS3Null lung tumors displayed elevated expression of Ctnnb1, Ccnd1, Axin2, Lgr5, and c-Myc mRNAs, suggesting that RBMS3 silencing elevates signaling through the WNT/β-catenin signaling axis. Although RBMS3 silencing rendered BRAFV600E-driven lung tumors resistant to the effects of dabrafenib plus trametinib, the tumors were sensitive to inhibition of porcupine, an acyltransferase of WNT ligands necessary for their secretion. Analysis of The Cancer Genome Atlas patient samples revealed that chromosome 3p24, which encompasses RBMS3, is frequently lost in non-small cell lung cancer and correlates with poor prognosis. Collectively, these data reveal the role of RBMS3 as a lung cancer suppressor and suggest that RBMS3 silencing may contribute to malignant NSCLC progression.SignificanceLoss of RBMS3 cooperates with BRAFV600E to induce lung tumorigenesis, providing a deeper understanding of the molecular mechanisms underlying mutant BRAF-driven lung cancer and potential strategies to more effectively target this disease.

Published

2022

97. Bioengineered BERA-Wnt5a siRNA Targeting Wnt5a/FZD2 Signaling Suppresses Advanced Prostate Cancer Tumor Growth and Enhances Enzalutamide Treatment.

Author

Ning, Shu, Liu, Chengfei, Lou, Wei, Yang, Joy C, Lombard, Alan P, D'Abronzo, Leandro S, Batra, Neelu, Yu, Ai-Ming, Leslie, Amy R, Sharifi, Masuda, Evans, Christopher P, and Gao, Allen C

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Cancer, Clinical Research, Aging, Prostate Cancer, Urologic Diseases, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Androgen Antagonists, Benzamides, Cell Line, Tumor, Drug Resistance, Neoplasm, Frizzled Receptors, Humans, Male, Nitriles, Phenylthiohydantoin, Prostatic Neoplasms, Prostatic Neoplasms, Castration-Resistant, RNA, Small Interfering, Receptors, Androgen, Wnt Signaling Pathway, Wnt-5a Protein, Pharmacology and Pharmaceutical Sciences, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis

Abstract

The next-generation antiandrogen drugs such as enzalutamide and abiraterone extend survival times and improve quality of life in patients with advanced prostate cancer. However, resistance to both drugs occurs frequently through mechanisms that are incompletely understood. Wnt signaling, particularly through Wnt5a, plays vital roles in promoting prostate cancer progression and induction of resistance to enzalutamide and abiraterone. Development of novel strategies targeting Wnt5a to overcome resistance is an urgent need. In this study, we demonstrated that Wnt5a/FZD2-mediated noncanonical Wnt pathway is overexpressed in enzalutamide-resistant prostate cancer. In patient databases, both the levels of Wnt5a and FZD2 expression are upregulated upon the development of enzalutamide resistance and correlate with higher Gleason score, biochemical recurrence, and metastatic status, and with shortened disease-free survival duration. Blocking Wnt5a/FZD2 signal transduction not only diminished the activation of noncanonical Wnt signaling pathway, but also suppressed the constitutively activated androgen receptor (AR) and AR variants. Furthermore, we developed a novel bioengineered BERA-Wnt5a siRNA construct and demonstrated that inhibition of Wnt5a expression by the BERA-Wnt5a siRNA significantly suppressed tumor growth and enhanced enzalutamide treatment in vivo. These results indicate that Wnt5a/FZD2 signal pathway plays a critical role in promoting enzalutamide resistance, and targeting this pathway by BERA-Wnt5a siRNA can be developed as a potential therapy to treat advanced prostate cancer.

Published

2022

98. Nucleation of the destruction complex on the centrosome accelerates degradation of β-catenin and regulates Wnt signal transmission

Author

Lach, Ryan S, Qiu, Chongxu, Kajbaf, Erfan Zeyaei, Baxter, Naomi, Han, Dasol, Wang, Alex, Lock, Hannah, Chirikian, Orlando, Pruitt, Beth, and Wilson, Maxwell Z

Subjects

1.1 Normal biological development and functioning, Underpinning research, Cell Differentiation, Centrosome, Clustered Regularly Interspaced Short Palindromic Repeats, Embryonic Stem Cells, Glycogen Synthase Kinase 3 beta, Mesoderm, Wnt Signaling Pathway, beta Catenin, Wnt, destruction complex, optogenetics, LLPS, stem cells

Abstract

Wnt signal transduction is controlled by the destruction complex (DC), a condensate comprising scaffold proteins and kinases that regulate β-catenin stability. Overexpressed DC scaffolds undergo liquid-liquid phase separation (LLPS), but DC mesoscale organization at endogenous expression levels and its role in β-catenin processing were previously unknown. Here, we find that DC LLPS is nucleated by the centrosome. Through a combination of CRISPR-engineered custom fluorescent tags, finite element simulations, and optogenetic tools that allow for manipulation of DC concentration and multivalency, we find that centrosomal nucleation drives processing of β-catenin by colocalizing DC components to a single reaction crucible. Enriching GSK3β partitioning on the centrosome controls β-catenin processing and prevents Wnt-driven embryonic stem cell differentiation to mesoderm. Our findings demonstrate the role of nucleators in controlling biomolecular condensates and suggest tight integration between Wnt signal transduction and the cell cycle.

Published

2022

99. Protocol for culturing and imaging of ectodermal cells from Xenopus

Author

Tejeda-Muñoz, Nydia, Monka, Julia, and De Robertis, Edward M

Subjects

Biochemistry and Cell Biology, Biological Sciences, Biotechnology, Genetics, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, Blotting, Western, RNA, Messenger, Wnt Signaling Pathway, Xenopus Proteins, Xenopus laevis, Cell Biology, Cell culture, Developmental biology, Microscopy, Model Organisms, Signal Transduction

Abstract

The Xenopus embryo provides an advantageous model system where genes can be readily transplanted as DNA or mRNA or depleted with antisense techniques. Here, we present a protocol to culture and image the cell biological properties of explanted Xenopus cap cells in tissue culture. We illustrate how this protocol can be applied to visualize lysosomes, macropinocytosis, focal adhesions, Wnt signaling, and cell migration. For complete details on the use and execution of this protocol, please refer to Tejeda-Muñoz et al. (2022).

Published

2022

100. Comprehensive analysis of mitochondria-related genes indicates that PPP2R2B is a novel biomarker and promotes the progression of bladder cancer via Wnt signaling pathway

Author

Du Shen and Shaosan Kang

Subjects

PPP2R2B, Mitochondrial-related genes, Biomarker, Metastasis, Bladder cancer, Wnt signaling pathway, Biology (General), QH301-705.5

Abstract

Abstract Bladder cancer (BC) is the fourth and tenth most common malignancy in men and women worldwide, respectively. The complexity of the molecular biological mechanism behind BC is a major contributor to the lack of effective treatment management of the disease. The development and genesis of BC are influenced by mitochondrial retrograde control and mitochondria-nuclear cross-talk. However, the role of mitochondrial-related genes in BC remains unclear. In this study, we analyzed TCGA datasets and identified 752 DE-MRGs in BC samples, including 313 down-regulated MRGs and 439 up-regulated MRGs. Then, the results of machine-learning screened four critical diagnostic genes, including GLRX2, NMT1, PPP2R2B and TRAF3IP3. Moreover, we analyzed their prognostic value and confirmed that only PPP2R2B was associated with clinical prognosis of BC patients and Cox regression assays validated that PPP2R2B expression was a distinct predictor of overall survival in BC patients. Them, we performed RT-PCR and found that PPP2R2B expression was distinctly decreased in BC specimens and cell lines. Functional experiments revealed that overexpression of PPP2R2B distinctly suppressed the proliferation, migration and invasion of BC cells via Wnt signaling pathway. In summary, these research findings offer potential molecular markers for the diagnosis and prognosis of BC, with the discovery of PPP2R2B particularly holding significant biological and clinical significance. This study provides valuable clues for future in-depth investigations into the molecular mechanisms of BC, as well as the development of new diagnostic markers and therapeutic targets.

Published

2024