Your search keyword '"β-catenin"' showing total 14,810 results

1. Molecular analysis of a self-organizing signaling pathway for Xenopus axial patterning from egg to tailbud

Author

Azbazdar, Yagmur and De Robertis, Edward M

Subjects

Biochemistry and Cell Biology, Biological Sciences, Pediatric, Animals, Body Patterning, Signal Transduction, Xenopus Proteins, beta Catenin, Intercellular Signaling Peptides and Proteins, Xenopus laevis, Gene Expression Regulation, Developmental, Gastrulation, Nodal Protein, Embryo, Nonmammalian, Organizers, Embryonic, Glycoproteins, Huluwa, beta- catenin, Cerberus, Chordin, Dickkopf 1, β-catenin

Abstract

Xenopus embryos provide a favorable material to dissect the sequential steps that lead to dorsal-ventral (D-V) and anterior-posterior (A-P) cell differentiation. Here, we analyze the signaling pathways involved in this process using loss-of-function and gain-of-function approaches. The initial step was provided by Hwa, a transmembrane protein that robustly activates early β-catenin signaling when microinjected into the ventral side of the embryo leading to complete twinned axes. The following step was the activation of Xenopus Nodal-related growth factors, which could rescue the depletion of β-catenin and were themselves blocked by the extracellular Nodal antagonists Cerberus-Short and Lefty. During gastrulation, the Spemann-Mangold organizer secretes a cocktail of growth factor antagonists, of which the BMP antagonists Chordin and Noggin could rescue simultaneously D-V and A-P tissues in β-catenin-depleted embryos. Surprisingly, this rescue occurred in the absence of any β-catenin transcriptional activity as measured by β-catenin activated Luciferase reporters. The Wnt antagonist Dickkopf (Dkk1) strongly synergized with the early Hwa signal by inhibiting late Wnt signals. Depletion of Sizzled (Szl), an antagonist of the Tolloid chordinase, was epistatic over the Hwa and Dkk1 synergy. BMP4 mRNA injection blocked Hwa-induced ectopic axes, and Dkk1 inhibited BMP signaling late, but not early, during gastrulation. Several unexpected findings were made, e.g., well-patterned complete embryonic axes are induced by Chordin or Nodal in β-catenin knockdown embryos, dorsalization by Lithium chloride (LiCl) is mediated by Nodals, Dkk1 exerts its anteriorizing and dorsalizing effects by regulating late BMP signaling, and the Dkk1 phenotype requires Szl.

Published

2024

2. ATP7A-dependent copper sequestration contributes to termination of β-CATENIN signaling during early adipogenesis.

Author

Kabin, E, Dong, Y, Zhang, X, Ralle, M, Lutsenko, S, and Yang, Haojun

Subjects

ATP7A, Adipocytes, Copper, β-catenin

Abstract

OBJECTIVES: Adipocyte fate determination is tightly regulated by extrinsic signaling pathways and intrinsic metabolic and morphologic changes that maintain adipose tissue function. Copper (Cu) homeostasis is required for the normal metabolism of mature adipocytes, whereas the role of Cu in adipogenesis is unclear. METHODS: To determine the role of Cu is adipocytes differentiation, we used 3T3-L1 adipocytes, immunocytochemistry, X-ray fluorescence, mass-spectrometry, pharmacological treatments, and manipulations of copper levels. RESULTS: In differentiating 3T3-L1 cells, adipogenic stimuli trigger the upregulation and trafficking of the Cu transporter Atp7a, thus causing Cu redistribution from the cytosol to vesicles. Disrupting Cu homeostasis by the deletion of Atp7a results in Cu elevation and inhibition of adipogenesis. The upregulation of C/EBPβ, an initial step of adipogenesis, is not affected in Atp7a-/- cells, whereas the subsequent upregulation of PPARγ is inhibited. Comparison of changes in the Atp7a-/- and wild type cells proteomes during early adipogenesis revealed stabilization of β-catenin, a negative regulator of adipogenesis. Cu chelation, or overexpression of the Cu transporter ATP7B in Atp7a-/- cells, restored β-catenin down-regulation and intracellular targeting. CONCLUSIONS: Cu buffering during early adipogenesis contributes to termination of β-catenin signaling. Abnormal upregulation of β-catenin was also observed in vivo in the livers of Atp7b-/- mice, which accumulate Cu, suggesting a tissue-independent crosstalk between Cu homeostasis and the Wnt/β-catenin pathway. These results point to a new regulatory role of Cu in adipocytes and contribute to better understanding of human disorders of Cu misbalance.

Published

2024

3. Survivin, β-catenin, and ki-67 immunohistochemical expression in canine perivascular wall tumors: Preliminary assessment of prognostic significance.

Author

Godizzi, Francesco, Armando, Federico, Boracchi, Patrizia, Avallone, Giancarlo, Stefanello, Damiano, Ferrari, Roberta, Chiti, Lavinia E., Cappelleri, Andrea, Zamboni, Clarissa, Dell'Aere, Silvia, Corradi, Attilio, and Roccabianca, Paola

Abstract

High survivin expression has been correlated with poor outcomes in several canine tumors but not in soft tissue tumors (STTs). Survivin is a target gene of the Wnt/β-catenin pathway, which is involved in human STT oncogenesis. Immunohistochemistry for survivin, β-catenin, and Ki-67 was performed on 41 canine perivascular wall tumors (cPWTs), and statistical associations of protein expression and histopathologic and clinical variables with clinical outcomes were investigated. Immunohistochemically, there was nuclear positivity (0.9%–12.2% of tumor cells) for survivin in 41/41 (100%), cytoplasmic positivity (0 to > 75% of tumor cells) for survivin in 31/41 (76%), nuclear positivity (2.9%–67.2% of tumor cells) for β-catenin in 24/41 (59%), and cytoplasmic positivity (0% to > 75% of tumor cells) for β-catenin in 23/41 (56%) of cPWTs. All tumors expressed nuclear Ki-67 (2.2%–23.5%). In univariate analysis and multivariate analysis (UA and MA, respectively), every 1% increase of nuclear survivin was associated with an increase of the instantaneous death risk by a factor of 1.15 [hazard ratio (HR) = 1.15; P =.007]. Higher nuclear survivin was associated with grade II/III neoplasms (P =.043). Expression of cytoplasmic survivin, nuclear and cytoplasmic β-catenin, and nuclear Ki-67 were not significantly associated with prognosis in UA nor MA. Tumor size was a significant prognostic factor for local recurrence in UA [subdistribution HR (SDHR) = 1.19; P =.02] and for reduced overall survival time in MA. According to UA and MA, a unitary increase of mitotic count was associated with an increase of the instantaneous death risk by a factor of 1.05 (HR = 1.05; P =.014). Nuclear survivin, mitotic count, and tumor size seem to be potential prognostic factors for cPWTs. In addition, survivin and β-catenin may represent promising therapeutic targets for cPWTs. [ABSTRACT FROM AUTHOR]

Published

2024

4. Asiaticoside Inhibits Growth and Metastasis in Non‐Small Cell Lung Cancer by Disrupting EMT via Wnt/β‐Catenin Pathway.

Author

Zhang, Yanan, Liu, Jiangyong, Yang, Gang, Zou, Jiani, Tan, Yan, Xi, Erping, Geng, Qing, and Wang, Zheng

Subjects

LUNG cancer, PROTEIN expression, WESTERN immunoblotting, CELL cycle, NON-small-cell lung carcinoma

Abstract

Non‐small cell lung cancer (NSCLC) is the primary inducer of cancer‐related death worldwide. Asiaticoside (ATS) is a triterpenoid saponin that has been indicated to possess an antitumor activity in several malignancies. Nonetheless, its detailed functions in NSCLC remain unclarified. In this study, NSCLC cells were exposed to various doses of ATS. Functional experiments were employed to estimate the ATS effect on NSCLC cell behaviors. Western blotting was implemented for protein expression evaluation. A xenograft mouse model was established to assess the ATS effect on NSCLC in vivo. The results showed that ATS restrained NSCLC cell proliferation, cell cycle progression, migration, and invasiveness. ATS reversed TGF‐β‐induced promotion in epithelial‐mesenchymal transition (EMT). Mechanistically, ATS inhibited Wnt/β‐catenin signaling in NSCLC. Upregulating β‐catenin restored ATS‐mediated suppression of NSCLC cell aggressiveness. Moreover, ATS administration repressed tumorigenesis in tumor‐bearing mice. In conclusion, ATS represses growth and metastasis in NSCLC by blocking EMT via the inhibition of Wnt/β‐catenin signaling. [ABSTRACT FROM AUTHOR]

Published

2024

5. GNAS mutations suppress cell invasion by activating MEG3 in growth hormone--secreting pituitary adenoma.

Author

CHAO TANG, CHUNYU ZHONG, JUNHAO ZHU, FENG YUAN, JIN YANG, YONG XU, and CHIYUAN MA

Subjects

ACROMEGALY, PITUITARY tumors, SOMATOTROPIN, GENE expression, POLYMERASE chain reaction, WNT genes, BRAF genes, CANCER invasiveness

Abstract

Approximately 30%--40% of growth hormone--secreting pituitary adenomas (GHPAs) harbor somatic activating mutations in GNAS (α subunit of stimulatory G protein). Mutations in GNAS are associated with clinical features of smaller and less invasive tumors. However, the role of GNAS mutations in the invasiveness of GHPAs is unclear. GNAS mutations were detected in GHPAs using a standard polymerase chain reaction (PCR) sequencing procedure. The expression of mutation-associated maternally expressed gene 3 (MEG3) was evaluated with RT-qPCR. MEG3 was manipulated in GH3 cells using a lentiviral expression system. Cell invasion ability was measured using a Transwell assay, and epithelial--mesenchymal transition (EMT)-associated proteins were quantified by immunofluorescence and western blotting. Finally, a tumor cell xenograft mouse model was used to verify the effect of MEG3 on tumor growth and invasiveness. The invasiveness of GHPAs was significantly decreased in mice with mutated GNAS compared with that in mice with wild-type GNAS. Consistently, the invasiveness of mutant GNASexpressing GH3 cells decreased. MEG3 is uniquely expressed at high levels in GHPAs harboring mutated GNAS. Accordingly, MEG3 upregulation inhibited tumor cell invasion, and conversely, MEG3 downregulation increased tumor cell invasion. Mechanistically, GNAS mutations inhibit EMT in GHPAs. MEG3 in mutated GNAS cells prevented cell invasion through the inactivation of the Wnt/β-catenin signaling pathway, which was further validated in vivo. Our data suggest that GNAS mutations may suppress cell invasion in GHPAs by regulating EMT through the activation of the MEG3/Wnt/β-catenin signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

6. TARDBP drives T‐cell acute lymphoblastic leukemia progression by binding MDM2 mRNA, involving β‐catenin pathway.

Author

Mai, Yumiao, Jing, Zhaohe, Sun, Pan, Wang, Yingjie, Dong, Pengpeng, and Liu, Jian

Abstract

T‐cell acute lymphoblastic leukemia (T‐ALL) is a dangerous hematological malignancy. The trans‐activation response DNA binding protein (TARDBP), an RNA/DNA binding protein, is involved in the growth and metastasis of multiple cancers. However, TARDBP has not been reported in T‐ALL. It was found that TARDBP was highly expressed in pediatric T‐ALL samples by microarray GSE26713 (log2 fold change >1, p <.05). Herein, TARDBP was silenced and overexpressed by lentivirus transduction in T‐ALL cell lines, including Jurkat and Molt4 cells. In vitro, silencing TARDBP inhibited T‐ALL cell proliferation and cycle progression and accelerated cell apoptosis, while overexpressing TARDBP induced the opposite effects. In addition, we investigated whether the β‐catenin pathway could be activated by TARDBP in T‐ALL cells. Moreover, XAV‐939, a β‐catenin inhibitor, was capable of suppressing the malignant phenotypes in TARDBP‐overexpressed T‐ALL cells. In vivo, TARDBP‐silenced or TARDBP‐overexpressed T‐ALL cells were injected into mice. We found that TARDBP promoted T‐ALL cell growth in the spleens and bone marrows of mice. On the basis of GSE26713, there was a significant correlation between TARDBP and mouse double minute 2 (MDM2). The RIP‐PCR assay demonstrated that TARDBP bound MDM2 mRNA in T‐ALL cells. The rescue experiments further revealed the roles of the TARDBP/MDM2 axis in T‐ALL cell phenotypes, which was also reflected by mRNA‐seq. In aggregate, we explored a promising biomarker, TARDBP, for T‐ALL treatment. The underlying mechanisms might involve the interaction with MDM2 mRNA and the regulation of the β‐catenin pathway. [ABSTRACT FROM AUTHOR]

Published

2024

7. Vascular inflammaging: Endothelial CEACAM1 expression is upregulated by TNF‐α via independent activation of NF‐κB and β‐catenin signaling.

Author

Götz, Lisa, Rueckschloss, Uwe, Reimer, Andreas, Bömmel, Heike, Beilhack, Andreas, Ergün, Süleyman, and Kleefeldt, Florian

Subjects

*TRANSCRIPTION factors, *ADHERENS junctions, *ENDOTHELIUM diseases, *ENDOTHELIAL cells, *CARDIOVASCULAR diseases

Abstract

Chronic inflammation with progressive age, called inflammaging, contributes to the pathogenesis of cardiovascular diseases. Previously, we have shown increased vascular expression of the Carcinoembryonic antigen‐related cell adhesion molecule 1 (CEACAM1) in aged mice and humans, presumably via mutual upregulation with the pro‐inflammatory cytokine TNF‐α. CEACAM1 is critical for aging‐associated vascular alterations like endothelial dysfunction, fibrosis, oxidative stress, and sustained inflammation and can be regarded as a main contributor to vascular inflammaging. This study was conducted to elucidate the mechanisms underlying endothelial CEACAM1 upregulation by TNF‐α in detail. Using wildtype (WT) and TNF‐α knockout (Tnf−/−) mice, we confirmed that the aging‐related upregulation of endothelial CEACAM1 critically depends on TNF‐α. The underlying mechanisms were analyzed in an endothelial cell culture model. TNF‐α time‐dependently upregulated CEACAM1 in vitro. In pharmacological experiments, we identified an early NF‐κB‐ and a delayed β‐catenin‐mediated response. Involvement of β‐catenin was further substantiated by siRNA‐mediated knockdown of the β‐catenin‐targeted transcription factor TCF4. Both signaling pathways acted independent from each other. Elucidating the delayed response, co‐immunoprecipitation analysis revealed release of β‐catenin from adherens junctions by TNF‐α. Finally, TNF‐α activated Akt kinase by increasing its Ser473 phosphorylation. Consequently, Akt kinase facilitated β‐catenin signaling by inhibiting its degradation via phosphorylation of GSK3β at Ser9 and by increased phosphorylation of β‐catenin at Ser552 that augments its transcriptional activity. Taken together, our study provides novel mechanistic insights into the aging‐related, inflammation‐mediated endothelial upregulation of CEACAM1. Beyond the pathogenesis of cardiovascular diseases, these findings may be significant to all fields of inflammaging. [ABSTRACT FROM AUTHOR]

Published

2024

8. ELAVL1 regulates glycolysis in nasopharyngeal carcinoma cells through the HMGB3/β-catenin axis.

Author

Cui, Yi, Wen, Haojie, Tang, Jinyong, Chen, Jiawen, Zhou, Juan, Hou, Minghua, Rong, Xiaohan, Lan, Yuanzhao, and Wu, Qiong

Subjects

*NASOPHARYNX cancer, *GENE expression, *CANCER invasiveness, *CAPACITY (Law), *CELL lines

Abstract

Background: The role of ELAVL1 in the progression of various tumors has been demonstrated. Our research aims to investigate how ELAVL1 controls the glycolytic process in nasopharyngeal carcinoma cells through the HMGB3/β-catenin pathway. Methods: The expression of ELAVL1 was detected in clinical tumor samples and nasopharyngeal carcinoma cell lines. A subcutaneous tumor model was established in nude mice to investigate the role of ELAVL1 in tumor progression. The relationship between HMGB3 and ELAVL1 was validated by RNA pull down and RIP assays. TOPFlash/FOPFlash reporter assay was used to detect β-catenin activity. Assay kits were utilized to measure glucose consumption, lactate production, and G6PD activity in nasopharyngeal carcinoma cells. Western blot was conducted to detect the expression of glycolysis-related proteins. The glycolytic capacity was analyzed through extracellular acidification rate (ECAR). Results: In both clinical samples and nasopharyngeal carcinoma cell lines, the expression levels of ELAVL1 mRNA and protein were found to be upregulated. Knockdown of ELAVL1 significantly inhibited the in vivo proliferation of nasopharyngeal carcinoma and suppressed the glycolytic capacity of nasopharyngeal carcinoma cells. ELAVL1 interacts with HMGB3, leading to an increase in the stability of HMGB3 mRNA. Overexpression of HMGB3 elevated the reduced β-catenin activity caused by sh-ELAVL1 and reversed the inhibitory effect of sh-ELAVL1 on cellular glycolytic capacity. Treatment with β-catenin inhibitor (FH535) effectively suppressed the promotion of glycolytic capacity induced by HMGB3 overexpression. Conclusions: ELAVL1 promotes glycolysis in nasopharyngeal carcinoma cells by interacting with HMGB3 to stabilize HMGB3 mRNA, thereby activating β-catenin pathway. Therefore, targeting the ELAVL1-HMGB3-β-catenin axis has the potential to be a novel approach for treating nasopharyngeal carcinoma. Highlights: ELAVL1 promotes glycolysis in nasopharyngeal carcinoma cells. ELAVL1 interacts with HMGB3, thereby activating β-catenin pathway. HMGB3 is involved in ELAVL1-mediated glycolysis in nasopharyngeal carcinoma cells. HMGB3 promotes glycolysis by activating β-catenin pathway in nasopharyngeal carcinoma cells. [ABSTRACT FROM AUTHOR]

Published

2024

9. CRYAB Promotes Colorectal Cancer Progression by Inhibiting Ferroptosis Through Blocking TRIM55-Mediated β-Catenin Ubiquitination and Degradation.

Author

Xia, Haiyan, Chen, Jingwen, Zhang, Wenbo, Xu, Ying, Nai, Yongjun, and Wei, Xiaowei

Subjects

*COLORECTAL cancer, *PROTEIN stability, *REACTIVE oxygen species, *CANCER invasiveness, *UBIQUITINATION

Abstract

Background: α-Crystallin B (CRYAB) is a chaperone member of the HSPs family that protects proteins with which it interacts from degradation. This study aims to investigate the effect of CRYAB on the progression of colorectal cancer (CRC) and its underlying mechanism. Methods: CRYAB expression was evaluated in CRC tissues. Cell growth was tested by CCK-8 kit. Lipid reactive oxygen species (ROS) assays, lipid peroxidation assays, glutathione assays were used to assess the degree of cellular lipid peroxidation of CRC cells. The potential signal pathways of CRYAB were analyzed and verified by Western blot (WB) and immunoprecipitation (Co-IP). Results: CRYAB expression was elevated in CRC tissues and exhibited sensitivity and specificity in predicting CRC. Functionally, knockdown of CRYAB induced ferroptosis in CRC cells. Mechanistically, CRYAB binding prevented from β-catenin interacting with TRIM55, leading to an increase in β-catenin protein stability, which desensitized CRC cells to ferroptosis and ultimately accelerated cancer progression. Conclusions: Targeting CRYAB might be a promising strategy to enhance ferroptosis and improve the efficacy of CRC therapy. [ABSTRACT FROM AUTHOR]

Published

2024

10. MiR-4429 Alleviates Malignant Behaviors of Lung Adenocarcioma Through Wnt/β-Catenin Pathway.

Author

Zhou, Shaoqiang, Qian, Kebao, Yu, Shuhui, Zhao, Yutao, Shen, Qin, and Li, Ya

Subjects

*ADENOCARCINOMA, *EPITHELIAL-mesenchymal transition, *RESEARCH funding, *MICRORNA, *CELL proliferation, *CELLULAR signal transduction, *CYTOSKELETAL proteins, *MICE, *CELL lines, *GENE expression, *LUNG tumors, *ANIMAL experimentation, *LUNG cancer

Abstract

Lung adenocarcinoma (ADC) is a common subtype of non-small cell lung cancer. MicroRNAs have been reported to be effective biomarkers for diagnosis and an important target for therapy. MiR-4429 is a newly identified miRNA, which can take part in tumor progression as a tumor inhibitor. Moreover, it is an exosomal miRNA that can be taken by lung ADC cell line A549. Nevertheless, its role in lung ADC has been poorly studied. This research discovered that miR-4429 was low expressed in lung ADC cells. MiR-4429 mimics could alleviate the capacities of cell proliferation and metastasis. The mimics are able to reverse epithelial–mesenchymal transition at the same time. Furthermore, it was verified that miR-4429 could bind to β-catenin and negatively regulate β-catenin expression. Interestingly, SKL2001 can reverse the role of miR-4429 on tumor. Consequently, miR-4429 can inactivate Wnt/β-catenin signaling pathway by targeting β-catenin and prevent oncogene expression in lung ADC cells. [ABSTRACT FROM AUTHOR]

Published

2024

11. Selective and effective suppression of pancreatic cancer through MNK inhibition.

Author

Li, Hui, Yao, Yang, Hao, Rui, and Long, Cheng

Subjects

*CANCER cell growth, *PANCREATIC cancer, *CANCER cells, *CANCER invasiveness, *CELL survival, *WNT signal transduction

Abstract

Objective: The study aimed to explore the role of the Wnt/β-catenin signaling pathway in pancreatic cancer progression and chemoresistance, with a focus on identifying specific factors that distinguish between normal and tumor cells, thereby offering potential therapeutic targets. Materials and Methods: We analyzed levels of total and phosphorylated eukaryotic translation initiation factor 4E (eIF4E) and β-catenin in pancreatic cancer and normal pancreatic tissues. Functional assays were used to assess the impact of eIF4E phosphorylation on β-catenin signaling, cell proliferation, and chemoresistance, with MNK kinase involvement determined through gene depletion studies. The MNK kinase inhibitor eFT508 was evaluated for its effects on eIF4E phosphorylation, β-catenin activation, and cell viability in both in vitro and in vivo models of pancreatic cancer. Results: Both total and phosphorylated eIF4E, along with β-catenin, were significantly elevated in pancreatic cancer tissues compared to normal tissues. Phosphorylation of eIF4E at serine 209 was shown to activate β-catenin signaling, enhance cell proliferation, and contribute to chemoresistance in pancreatic cancer. Importantly, these effects were dependent on MNK kinase activity. Depletion of eIF4E reduced cell viability in both pancreatic cancer and normal cells, while depletion of MNK selectively decreased viability in pancreatic cancer cells. Treatment with eFT508 effectively inhibited eIF4E phosphorylation, suppressed β-catenin activation, and reduced pancreatic cancer cell growth and survival in vitro and in vivo, with minimal impact on normal cells. Conclusions: The MNK-eIF4E-β-catenin axis plays a critical role in pancreatic cancer progression and chemoresistance, distinguishing pancreatic cancer cells from normal cells. Targeting MNK kinases with inhibitors like eFT508 presents a promising therapeutic strategy for pancreatic cancer, with potential for selective efficacy and reduced toxicity. [ABSTRACT FROM AUTHOR]

Published

2024

12. Activation of mitochondrial aldehyde dehydrogenase 2 promotes hair growth in human hair follicles.

Author

Lee, Seunghee, Ohn, Jungyoon, Kang, Bo Mi, Hwang, Sungjoo Tommy, and Kwon, Ohsang

Subjects

*HAIR growth, *ALDEHYDE dehydrogenase, *HAIR follicles, *REACTIVE oxygen species, *ORGAN culture

Abstract

[Display omitted] • Aldehyde dehydrogenase 2 (ALDH2) levels in human hair follicles (HFs) are significantly increased during the anagen phase. • ALDH2 expression is primarily localized in the outer root sheath of human HFs. • Activation of ALDH2 in HFs leads to anagen induction and subsequent hair shaft elongation. • ALDH2 activation triggers reactive oxygen species scavenging in HFs and upregulates β-catenin signaling. • Modulation of ALDH2 may be a promising therapeutic approach for inducing the anagen phase, providing novel insights into the impact of ALDH2 activation on HFs. Hair loss is a common phenomenon associated with various environmental and genetic factors. Mitochondrial dysfunction-induced oxidative stress has been recognized as a crucial determinant of hair follicle (HF) biology. Aldehyde dehydrogenase 2 (ALDH2) mitigates oxidative stress by detoxifying acetaldehyde. This study investigated the potential role of ALDH2 modulation in HF function and hair growth promotion. To evaluate the effects of ALDH2 activation on oxidative stress in HFs and hair growth promotion. The modulatory role of ALDH2 on HFs was investigated using an ALDH2 activator. ALDH2 expression in human HFs was evaluated through in vitro immunofluorescence staining. Ex vivo HF organ culture was employed to assess hair shaft elongation, while the fluorescence probe 2′,7′- dichlorodihydrofluorescein diacetate was utilized to detect reactive oxygen species (ROS). An in vivo mouse model was used to determine whether ALDH2 activation induces anagen. During the anagen phase, ALDH2 showed significantly higher intensity than that in the telogen phase, and its expression was primarily localized along the outer layer of HFs. ALDH2 activation promoted anagen phase induction by reducing ROS levels and enhancing reactive aldehyde clearance, which indicated that ALDH2 functions as a ROS scavenger within HFs. Moreover, ALDH2 activation upregulated Akt/GSK 3β/β-catenin signaling in HFs. Our findings highlight the hair growth promotion effects of ALDH2 activation in HFs and its potential as a promising therapeutic approach for promoting anagen induction. [ABSTRACT FROM AUTHOR]

Published

2024

13. WNT Oncogenic Transcription Requires MYC Suppression of Lysosomal Activity and EPCAM Stabilization in Gastric Tumors.

Author

Mulè, Patrizia, Fernandez-Perez, Daniel, Amato, Simona, Manganaro, Daria, Oldani, Paola, Brandini, Stefania, Diaferia, Giuseppe, Cuomo, Alessandro, Recordati, Camilla, Soriani, Chiara, Dondi, Ambra, Zanotti, Marika, Rustichelli, Samantha, Bisso, Andrea, Pece, Salvatore, Rodighiero, Simona, Natoli, Gioacchino, Amati, Bruno, Ferrari, Karin Johanna, and Chiacchiera, Fulvio

Abstract

WNT signaling is central to spatial tissue arrangement and regulating stem cell activity, and it represents the hallmark of gastrointestinal cancers. Although its role in driving intestinal tumors is well characterized, WNT's role in gastric tumorigenesis remains elusive. We have developed mouse models to control the specific expression of an oncogenic form of β-catenin (CTNNB1) in combination with MYC activation in Lgr5 + cells of the gastric antrum. We used multiomics approaches applied in vivo and in organoid models to characterize their cooperation in driving gastric tumorigenesis. We report that constitutive β-catenin stabilization in the stomach has negligible oncogenic effects and requires MYC activation to induce gastric tumor formation. Although physiologically low MYC levels in gastric glands limit β-catenin transcriptional activity, increased MYC expression unleashes the WNT oncogenic transcriptional program, promoting β-catenin enhancer invasion without a direct transcriptional cooperation. MYC activation induces a metabolic rewiring that suppresses lysosomal biogenesis through mTOR and ERK activation and MiT/TFE inhibition. This prevents EPCAM degradation by macropinocytosis, promoting β-catenin chromatin accumulation and activation of WNT oncogenic transcription. Our results uncovered a new signaling framework with important implications for the control of gastric epithelial architecture and WNT-dependent oncogenic transformation. [Display omitted] WNT mutations are a hallmark of gastrointestinal cancer, but low MYC activity represents a barrier for stomach adenoma formation. MYC regulates metabolic processes that allow WNT activation of oncogenic programs. [ABSTRACT FROM AUTHOR]

Published

2024

14. The role and mechanism of β-catenin-mediated skeletal muscle satellite cells in osteoporotic fractures by Jian-Pi-Bu-Shen formula.

Author

Tang, Yanghua, Mu, Zhuosong, Pan, Dong, Liu, Renqi, Hong, Shenghu, and Xiong, Zhenfei

Abstract

Osteoporosis is a metabolic bone disease. β-Catenin is associated with fractures. Jian-Pi-Bu-Shen (JPBS) can promote the healing of osteoporotic fractures (OPF). However, the mechanism of β-catenin-mediated skeletal muscle satellite cells (SMSCs) in OPF by the JPBS is unclear. SMSCs were isolated and divided into five groups. The results showed that the survival rate of SMSCs was significantly higher in the low, medium, and high dose JPBS-containing serum groups after 7 days of incubation. The ALP activity and the number of SMSCs mineralized in the JPBS-containing serum intervention group were elevated. Axin, GSK-3β, β-catenin siRNAs were constructed and transfected into cells. Transfection of siRNAs reduced Axin, GSK-3β, and β-catenin expressions, respectively. β-Catenin-siRNA reversed ALP activity, the number of SMSCs mineralized, and the expression of β-catenin, BMP2, Runx2, COL-I, SP7/Ostrix, Osteocalcin, and BMP-7. Transcriptomic results suggested that the TNF signaling pathway associated with OPF was enriched. SD rats were subjected to the construction of OPF model by removing the ovaries. JPBS decreased the levels of PINP, ALP, CTX, and NTX through β-catenin in OPF rats, while increasing Runx2, β-catenin expressions through β-catenin at the broken end of fractures. Moreover, JPBS decreased BMC, BMD, and BV/TV and improved pathological damage through β-catenin in OPF rats. JPBS decreased the expression of Axin, GSK-3β mRNA, and protein, but increased the expressions of β-catenin, Pax7, COL-II, COL-II, BMP2, and Runx2 through β-catenin in OPF rats. In conclusion, JPBS inhibits Axin/GSK-3β expression, activates the β-catenin signaling, and promotes the osteogenic differentiation of SMSCs. [ABSTRACT FROM AUTHOR]

Published

2024

15. Assessment of the circulating levels of immune system checkpoint selected biomarkers in patients with lung cancer.

Author

Safizadeh, Banafsheh, Sadeh, Maryam, Robati, Ali Karami, Riahi, Taghi, and Tavakoli-Yaraki, Masoumeh

Abstract

Background: Lung cancer is recognized as one of the leading causes of cancer-related deaths globally, with a significant increase in incidence and intricate pathogenic mechanisms. This study examines the expression profiles of Programmed Cell Death Protein 1 (PD-1), PD-1 ligand (PDL-1), β-catenin, CD44, interleukin 6 (IL-6), and interleukin 10 (IL-10), as well as their correlations with the clinic-pathological features and diagnostic significance in lung cancer patients. Methods and results: The research involved lung cancer patients exhibiting various pathological characteristics, alongside demographically matched healthy controls. The expression levels of PD-1, PDL-1, β-catenin, and CD44 were analyzed using Real-Time PCR, while circulating levels of IL-6 and IL-10 were assessed through ELISA assays. This investigation focused on peripheral blood mononuclear cells (PBMC) to evaluate these factors non-invasively. Findings indicated that levels of PD-1, PDL-1, and CD44 were significantly elevated in patients compared to controls, which coincided with a decrease in β-catenin levels. Additionally, a concurrent rise in IL-6 and IL-10, both pro-inflammatory cytokines, was observed in patients, suggesting a potential regulatory role for these cytokines on the PD-1/PDL-1 axis, which may help tumors evade immune system checkpoints. The predictive value of these factors concerning lung tumors and metastasis was significant (Regression analysis). Furthermore, these markers demonstrated diagnostic potential in differentiating between patients and healthy controls, as well as between individuals with metastatic and non-metastatic tumors (ROC curve analysis). Conclusions: This study provides insights into the expression profiles of PD-1/PDL-1 immune system checkpoints and their regulatory factors in lung cancer, potentially paving the way for new therapeutic and diagnostic approaches. [ABSTRACT FROM AUTHOR]

Published

2024

16. 齐墩果酸调节Wnt/β-catenin 信号通路减轻大鼠激素性股骨头坏死.

Author

龚高进 and 黄海汛

Abstract

BACKGROUND: Oleanolic acid can promote osteoblast proliferation and inhibit osteoclast proliferation, thereby improving steroid-induced osteonecrosis of the femoral head, but its specific mechanism of action is not yet fully understood. OBJECTIVE: To explore the mechanism by which oleanolic acid alleviates steroid-induced osteonecrosis of the femoral head in rats by regulating the Wnt/ β-catenin signaling pathway. METHODS: Forty Sprague-Dawley rats were randomized into control group, model group, oleanolic acid group and oleanolic acid+sFRP1 group. An animal model of steroid-induced osteonecrosis of the femoral head was established by injecting prednisolone acetate in the latter three groups. Rats in the oleanolic acid group were gavaged with 10 mg/kg/d oleanolic acid and intramuscularly injected with the corresponding saline; rats in the oleanolic acid+sFRP1 group were gavaged with 10 mg/kg/d oleanolic acid and intramuscularly injected with 1 mg/kg/d Wnt inhibitor-sFRP1; and rats in the control and model groups were administered by gavage and intramuscularly injected with equal volumes of saline for 6 weeks. The levels of serum calcium, phosphorus, transforming growth factor-β1, and alkaline phosphatase were detected. Micro-CT was applied to detect femoral morphology. The morphology of femoral tissue was detected by hematoxylin-eosin staining. Cell apoptosis was detected by TUNEL. The levels of Bcl-2, Bax, β-catenin, and Wnt proteins were determined by western blot. RESULTS AND CONCLUSION: Compared with the control group, the trabeculae bone and femoral head of the model group were seriously injured, the serum levels of calcium, phosphorus, and transforming growth factor-β1 were significantly decreased, the levels of Bcl-2, Wnt, and β-catenin proteins in bone tissue were significantly reduced, and the serum alkaline phosphatase level, cell apoptosis rate, and Bax protein level were significantly increased (P < 0.05). Compared with the model group, the degree of trabecular thinning in the oleanolic acid group was significantly improved, and the degree of femoral head damage was significantly reduced, serum alkaline phosphatase level, cell apoptosis rate, and Bax protein level were significantly reduced, serum levels of calcium, phosphorus, and transforming growth factor-β1, and levels of Bcl-2, Wnt, and β-catenin proteins in bone tissue were significantly increased (P < 0.05). Compared with the oleanolic acid group, the oleanolic acid+sFRP1 group showed opposite changes in the above-mentioned indicators (P < 0.05). To conclude, oleanolic acid can improve bone metabolism indicators and trabecular structure and attenuate femoral head necrosis in rats with steroid-induced osteonecrosis of the femoral head, which can be achieved by activating the Wnt/β-catenin signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

17. Comparative immunohistochemical expression of Beta catenin and CD163 between dysplastic / non-dysplastic oral lichen planus and lichenoid lesions (EX-VIVO STUDY).

Author

Saleh, Heba Ahmed, Nabil, Ghada, and Badawy, Sarah Ahmed Mohammed Mahmoud

Subjects

STATISTICAL correlation, PEARSON correlation (Statistics), SKIN diseases, CYTOSKELETAL proteins, CELLULAR signal transduction, DESCRIPTIVE statistics, IMMUNOHISTOCHEMISTRY, GENE expression, RESEARCH, ORAL lichen planus, COMPARATIVE studies, CELL receptors, BIOMARKERS

Abstract

Background: Oral lichen planus is a well-known chronic inflammatory mucocutaneous disorder, which has clinical and histological presentation that mimics oral lichenoid reaction. According to the fifth edition of WHO, both conditions are considered as oral potentially malignant disorders. Recent studies on oral potential disorders documented deregulation of some signaling molecules related to the Wnt/β-catenin pathway. Therefore this study aimed to compare the immune expression of β-catenin & CD163 in dysplastic /non-dysplastic cases of Oral lichen planus & oral lichenoid lesion. In addition, a statistical correlation between both immune markers was done regardless of the type of the study group. Methods: Four study groups were designated as 2 groups of Oral lichen planus (one dysplastic & one non –dysplastic) and the other 2 groups were oral lichenoid lesions (one dysplastic & one non –dysplastic). Ten cases in each group were collected and investigated by immunohistochemistry. The area percent of beta catenin and also counting of m2 macrophages expressing + CD163 marker was calculated in the study groups. Results: The Statistical analysis highlighted a statistically significant difference between the studied groups. Moreover, Pearson correlation test reported a significant moderate positive correlation between beta catenin & CD163 expression in the studied cases. Conclusion: Our findings supported new perceptions of the mechanism by which tumor associated macrophage specific β-catenin signaling promotes the aggressive behavior of oral potential malignant disorders. Clinical relevance: Evidence of the relationship between beta catenin and M2 macrophages (+ CD163) may enhance the development of macrophage-based strategies for treatment and improve the prognosis of such cases. [ABSTRACT FROM AUTHOR]

Published

2024

18. Ascochlorin Attenuates the Early Stage of Adipogenesis via the Wnt/β-Catenin Pathway and Inhibits High-Fat-Diet-Induced Obesity in Mice.

Author

Yu, Mi-Hee, Jeong, Yun-Jeong, Son, Sung Wook, Kwon, So Yoon, Song, Kwon-Ho, Son, Ho-Sang, Jeon, Eon-Ju, and Chang, Young-Chae

Subjects

*HIGH-fat diet, *WEIGHT loss, *WEIGHT gain, *LABORATORY mice, *ANTIOBESITY agents

Abstract

This study investigated the effects of ascochlorin (ASC), a natural compound derived from the fungus Ascochyta viciae, on adipogenesis and obesity. We determined the effects of ASC on 3T3-L1 preadipocytes and whether it ameliorated to mitigate high-fat diet (HFD)-induced obesity in C57BL/6J mice. We found that ASC significantly inhibited the differentiation of preadipocytes by modulating the Wnt/β-catenin signaling pathway, a key regulator of adipogenic processes. Treatment with ASC not only reduced the mRNA and protein expression of key adipogenic transcription factors such as C/EBPα and PPARγ, but also reduced lipid accumulation both in vitro and in vivo. In addition, treatment HFD-fed mice with ASC significantly reduced their weight gain and adiposity vs. control mice. These results suggest that ASC has considerable potential as a therapeutic agent for obesity, owing to its dual action of inhibiting adipocyte differentiation and reducing lipid accumulation. Thus, ASC represents a promising candidate as a natural anti-obesity agent. [ABSTRACT FROM AUTHOR]

Published

2024

19. Strategic targeting of miR-183 and β-catenin to enhance BMSC stemness in age-related osteoporosis therapy.

Author

Jiang, Nizhou, Jiang, Jian, Wang, Quanxiang, Hao, Jiayu, Yang, Rui, Tian, Xiliang, and Wang, Hong

Subjects

*OSTEOPOROSIS, *METABOLIC bone disorders, *MESENCHYMAL stem cells, *BONE resorption, *BONE growth

Abstract

Age-related osteoporosis is a prevalent bone metabolic disorder distinguished by an aberration in the equilibrium between bone formation and resorption. The reduction in the stemness of Bone Marrow Mesenchymal Stem Cells (BMSCs) plays a pivotal role in the onset of this ailment. Comprehending the molecular pathways that govern BMSCs stemness is imperative for delineating the etiology of age-related osteoporosis and devising efficacious treatment modalities. The study utilized single-cell RNA sequencing and miRNA sequencing to investigate the cellular heterogeneity and stemness of BMSCs. Through dual-luciferase reporter assays and functional experiments, the regulatory effect of miR-183 on CTNNB1 (β-catenin) was confirmed. Overexpression and knockdown studies were conducted to explore the impact of miR-183 and β-catenin on stemness-related transcription factors Oct4, Nanog, and Sox2. Cell proliferation assays and osteogenic differentiation experiments were carried out to validate the influence of miR-183 and β-catenin on the stemness properties of BMSCs. Single-cell analysis revealed that β-catenin is highly expressed in both high stemness clusters and terminal differentiation clusters of BMSCs. Overexpression of β-catenin upregulated stemness transcription factors, while its suppression had the opposite effect, indicating a dual regulatory role of β-catenin in maintaining BMSCs stemness and promoting bone differentiation. Furthermore, the confluence of miRNA sequencing analyses and predictions from online databases revealed miR-183 as a potential modulator of BMSCs stemness and a novel upstream regulator of β-catenin. The overexpression of miR-183 effectively diminished the stemness characteristics of BMSCs by suppressing β-catenin, whereas the inhibition of miR-183 augmented stemness. These outcomes align with the observed alterations in the expression levels and functional assessments of transcription factors associated with stemness. This study provides evidence for the essential involvement of β-catenin in preserving the stemness of BMSCs, as well as elucidating the molecular mechanism through which miR-183 selectively targets β-catenin to modulate stemness. These results underscore the potential of miR-183 and β-catenin as molecular targets for augmenting the stemness of BMSCs. This strategy is anticipated to facilitate the restoration of bone microarchitecture and facilitate bone tissue regeneration by addressing potential cellular dysfunctions, thereby presenting novel targets and perspectives for the management of age-related osteoporosis. [ABSTRACT FROM AUTHOR]

Published

2024

20. Turkish coffee has an antitumor effect on breast cancer cells in vitro and in vivo.

Author

Amin, Mohamed N., Abdelmohsen, Usama Ramadan, and Samra, Yara A.

Subjects

*IN vitro studies, *BIOLOGICAL models, *COFFEE, *TRADITIONAL medicine, *COLORIMETRY, *ANTINEOPLASTIC agents, *BREAST tumors, *APOPTOSIS, *CELL proliferation, *ENZYME-linked immunosorbent assay, *IN vivo studies, *OXIDATIVE stress, *DESCRIPTIVE statistics, *CYTOSKELETAL proteins, *PLANT extracts, *CELL lines, *MICE, *GENE expression, *IMMUNOHISTOCHEMISTRY, *ANIMAL experimentation, *MEMBRANE glycoproteins, *ORGANIC compounds, *PEROXISOME proliferator-activated receptors, *CASPASES, *MALONDIALDEHYDE, *PHARMACODYNAMICS

Abstract

Background: Breast cancer is the most diagnosed cancer in women. Its pathogenesis includes several pathways in cancer proliferation, apoptosis, and metastasis. Some clinical data have indicated the association between coffee consumption and decreased cancer risk. However, little data is available on the effect of coffee on breast cancer cells in vitro and in vivo. Methods: In our study, we assessed the effect of Turkish coffee and Fridamycin-H on different pathways in breast cancer, including apoptosis, proliferation, and oxidative stress. A human breast cancer cell line (MCF-7) was treated for 48 h with either coffee extract (5% or 10 v/v) or Fridamycin-H (10 ng/ml). Ehrlich solid tumors were induced in mice for in vivo modeling of breast cancer. Mice with Ehrlich solid tumors were treated orally with coffee extract in drinking water at a final concentration (v/v) of either 3%, 5%, or 10% daily for 21 days. Protein expression levels of Caspase-8 were determined in both in vitro and in vivo models using ELISA assay. Moreover, P-glycoprotein and peroxisome proliferator-activated receptor gamma (PPAR-γ) protein expression levels were analyzed in the in vitro model. β-catenin protein expression was analyzed in tumor sections using immunohistochemical analysis. In addition, malondialdehyde (MDA) serum levels were analyzed using colorimetry. Results: Both coffee extract and Fridamycin-H significantly increased Caspase-8, P-glycoprotein, and PPAR-γ protein levels in MCF-7 cells. Consistently, all doses of in vivo coffee treatment induced a significant increase in Caspase-8 and necrotic zones and a significant decrease in β- catenin, MDA, tumor volume, tumor weight, and viable tumor cell density. Conclusion: These findings suggest that coffee extract and Fridamycin-H warrant further exploration as potential therapies for breast cancer. [ABSTRACT FROM AUTHOR]

Published

2024

21. Pyrimidine–triazole‐tethered tert‐butyl‐piperazine‐carboxylate suppresses breast cancer by targeting estrogen receptor signaling and β‐catenin activation.

Author

Yuan, Jie, Yang, Li, Li, Zhi, Zhang, Hua, Wang, Qun, Wang, Bei, Chinnathambi, Arunachalam, Govindasamy, Chandramohan, Basappa, Shreeja, Nagaraja, Omantheswara, Madegowda, Mahendra, Beeraka, Narasimha M., Nikolenko, Vladimir N., Wang, Minghua, Wang, Geng, Rangappa, Kanchugarakoppal S., and Basappa, Basappa

Subjects

*METASTATIC breast cancer, *SELECTIVE estrogen receptor modulators, *CANCER cell growth, *ESTROGEN receptors, *BREAST cancer

Abstract

Several chemotherapeutics against breast cancer are constrained by their adverse effects and chemoresistance. The development of novel chemotherapeutics to target metastatic breast cancer can bring effective clinical outcomes. Many breast cancer patients present with tumors that are positive for estrogen receptors (ERs), highlighting the importance of targeting the ER pathway in this particular subtype. Although selective estrogen receptor modulators (SERMs) are commonly used, their side effects and resistance issues necessitate the development of new ER‐targeting agents. In this study, we report that a newly synthesized compound, TTP‐5, a hybrid of pyrimidine, triazole, and tert‐butyl‐piperazine‐carboxylate, effectively binds to estrogen receptor alpha (ERα) and suppresses breast cancer cell growth. We assessed the impact of TTP‐5 on cell proliferation using MTT and colony formation assays and evaluated its effect on cell motility through wound healing and invasion assays. We further explored the mechanism of action of this novel compound by detecting protein expression changes using Western blotting. Molecular docking was used to confirm the interaction of TTP‐5 with ERα. The results indicated that TTP‐5 significantly reduced the proliferation of MCF‐7 cells by blocking the ERα signaling pathway. Conversely, although it did not influence the growth of MDA‐MB‐231 cells, TTP‐5 hindered their motility by modulating the expression of proteins associated with epithelial–mesenchymal transition (EMT), possibly via the Wnt/β‐catenin pathway. [ABSTRACT FROM AUTHOR]

Published

2024

22. BRCC36 regulates β-catenin ubiquitination to alleviate vascular calcification in chronic kidney disease.

Author

Li, Yalan, Chen, Xiaoyue, Xiong, Yiqing, Xu, Xueqiang, Xie, Caidie, Min, Min, Liang, Dongmei, Chen, Cheng, and Mao, Huijuan

Subjects

*VASCULAR smooth muscle, *RADIAL artery, *ARTERIAL calcification, *KIDNEY calcification, *CHRONIC kidney failure

Abstract

Background: The prevalence of vascular calcification (VC) in chronic kidney disease (CKD) patients remains substantial, but currently, there are no effective pharmaceutical therapies available. BRCA1/BRCA2-containing complex subunit 36 (BRCC36) has been implicated in osteoblast osteogenic conversion; however, its specific role in VC remains to be fully elucidated. The aim of this study was to investigate the role and underlying mechanisms of BRCC36 in VC. Methods: The association between BRCC36 expression and VC was examined in radial arteries from patients with CKD, high-adenine-induced CKD mice, and vascular smooth muscle cells (VSMCs). Western blotting, real-time polymerase chain reaction, immunofluorescence, and immunohistochemistry were used to analyse gene expression. Gain- and loss-of-function experiments were performed to comprehensively investigate the effects of BRCC36 on VC. Coimmunoprecipitation and TOPFlash luciferase assays were utilized to further investigate the regulatory effects of BRCC36 on the Wnt/β-catenin pathway. Results: BRCC36 expression was downregulated in human calcified radial arteries, calcified aortas from CKD mice, and calcified VSMCs. VSMC-specific BRCC36 overexpression alleviated calcium deposition in the vasculature, whereas BRCC36 depletion aggravated VC progression. Furthermore, BRCC36 inhibited the osteogenic differentiation of VSMCs in vitro. Rescue experiments revealed that BRCC36 exerts the protective effects on VC partly by regulating the Wnt/β-catenin signalling pathway. Mechanistically, BRCC36 inhibited the Wnt/β-catenin pathway by decreasing the K63-linked ubiquitination of β-catenin. Additionally, pioglitazone attenuated VC partly through upregulating BRCC36 expression. Conclusions: Our research results emphasize the critical role of the BRCC36-β-catenin axis in VC, suggesting that BRCC36 or β-catenin may be promising therapeutic targets to prevent the progression of VC in CKD patients. [ABSTRACT FROM AUTHOR]

Published

2024

23. Fufang Zhenshu Tiaozhi capsule enhances bone formation and safeguards against glucocorticoid-induced osteoporosis through innovative Mekk2-mediated β-catenin deubiquitination.

Author

Hong, Guoju, Tang, Lin, Zhou, Tianyu, Xie, Youhong, Wang, Jiangyan, Ge, Dongdong, Dong, Qunwei, and Sun, Ping

Subjects

*MITOGEN-activated protein kinases, *BONE health, *WNT signal transduction, *CHONDROGENESIS, *RENILLA luciferase

Abstract

Introduction: Bone homeostasis depends on the regulation of β-catenin in osteoblasts. Glucocorticoids (GCs) are known to diminish β-catenin activity via Wnt pathway signaling, leading to osteoporosis. Conversely, activating β-catenin in osteoblasts through mitogen-activated protein kinase kinase kinase 2 (Mekk2) offers an innovative approach to combat GC-induced osteoporosis (GIOP). Fufang Zhenshu Tiaozhi (FTZ) capsules have shown effectiveness in treating GIOP, but the mechanisms behind this are still unclear. Materials and methods: In this study, Mekk2 knockout mice (Mekk2−/−) was generated by CRISPR/Cas9. These mice were then subjected to Alcian Blue-Alizarin Red staining and immunofluorescence to assess their bone and cartilage development. To establish models of GIOP, both Mekk2−/− and wild-type (WT) mice were treated with dexamethasone (DXMS) and subsequently given FTZ capsules. We analyzed the resulting phenotypic changes in these mice using Micro-CT scans and histomorphological studies. Primary osteoblasts, isolated from both Mekk2−/− and WT mice, underwent qRT-PCR to measure key osteogenesis markers, including Runx2, Sp7, Bgalp, Col1a1 and Alp. Cells were then exposed to treatments with either FTZ or Wnt3a and the phosphorylation levels of β-catenin and Mekk2, along with the protein expression of Runx2, were evaluated using Western blotting and immunoprecipitation. Additionally, C3H10T1/2 cells transfected with TOPflash-luciferase and Renilla luciferase reporters were treated with FTZ and Wnt3a to measure β-catenin activity. Results: In our study, administering FTZ in vivo effectively prevented bone loss typically induced by GCs. However, it's important to note that this protective effect was substantially reduced in mice lacking Mekk2. Additionally, FTZ showed a significant ability to enhance osteogenic differentiation in primary osteoblasts, doing so by altering the expression of Mekk2. Intriguingly, the impact of FTZ on Mekk2 appears to function through a pathway separate from the traditional Wnt signaling route. Furthermore, our findings indicate that FTZ also promotes the deubiquitination of β-catenin, contributing further to its positive effects on bone health. Conclusions: This study suggests that FTZ plays a significant role in protecting bone mass in cases of GIOP. The mechanism through which FTZ confers this benefit involves the activation of Mekk2/β-catenin signaling pathways, which represents a promising alternative strategy to counteract the deleterious effects of GIOP by augmenting osteoblastogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

24. Overexpression of TRIM37 is Associated with Unfavorable Outcomes in Gastric Cancer Patients.

Author

Afshar, Jalil, Mehrzad, Jamshid, Mehrad-Majd, Hassan, and Saeidi, Jafar

Subjects

*CANCER prognosis, *OVERALL survival, *STOMACH cancer, *PROGNOSIS, *CARCINOGENESIS

Abstract

TRIM37 expression has been shown to be dysregulated in various types of cancers. This study was aimed to assess the clinical significance and potential utility of TRIM37 expression level as an indicator of prognosis in gastric cancer (GC) patients. The potential correlation between TRIM37 and the levels of β-catenin, Cyclin D and BCL2 was also investigated. qRT-PCR was used to determine the expression levels of TRIM37 in 40 fresh GC and their adjacent noncancerous tissues. Statistical analyses were conducted to evaluate the relationship between TRIM37 expression levels, overall survival (OS), various clinicopathological features, and the expression levels of β-catenin, Cyclin D, and Bcl-2. TRIM37 expression was significantly higher in the cancerous tissue samples compared to noncancerous tissues (Fold change=1.92, P=0.007). Moreover, Kaplan-Meier analysis indicated that high TRIM37 group exhibited shorter OS (P=0.003). TRIM37 overexpression was strongly associated with poor prognosis and predicts unfavorable outcomes in GC patients (HR=1.85, 95%CI: 1.28-2.66, P=0.001). A direct correlation was also observed between TRIM37 and elevated levels of β-catenin, a gene known for its role in cell proliferation among GC patients. TRIM37 overexpression is strongly linked with a poor prognosis in GC patients, highlighting its potential as an independent prognostic factor in GC and providing insight into its possible involvement in cancer development through Wnt/β-catenin signaling pathway. However, additional research is required to validate the potential prognostic value of TRIM37 in gastric cancer. [ABSTRACT FROM AUTHOR]

Published

2024

25. Inhibition of GSK3α,β rescues cognitive phenotypes in a preclinical mouse model of CTNNB1 syndrome.

Author

Alexander, Jonathan M, Vazquez-Ramirez, Leeanne, Lin, Crystal, Antonoudiou, Pantelis, Maguire, Jamie, Wagner, Florence, and Jacob, Michele H

Abstract

CTNNB1 syndrome is a rare monogenetic disorder caused by CTNNB1 de novo pathogenic heterozygous loss-of-function variants that result in cognitive and motor disabilities. Treatment is currently lacking; our study addresses this critical need. CTNNB1 encodes β-catenin which is essential for normal brain function via its dual roles in cadherin-based synaptic adhesion complexes and canonical Wnt signal transduction. We have generated a Ctnnb1 germline heterozygous mouse line that displays cognitive and motor deficits, resembling key features of CTNNB1 syndrome in humans. Compared with wild-type littermates, Ctnnb1 heterozygous mice also exhibit decreases in brain β-catenin, β-catenin association with N-cadherin, Wnt target gene expression, and Na/K ATPases, key regulators of changes in ion gradients during high activity. Consistently, hippocampal neuron functional properties and excitability are altered. Most important, we identify a highly selective inhibitor of glycogen synthase kinase (GSK)3α,β that significantly normalizes the phenotypes to closely meet wild-type littermate levels. Our data provide new insights into brain molecular and functional changes, and the first evidence for an efficacious treatment with therapeutic potential for individuals with CTNNB1 syndrome. Synopsis: CTNNB1 Syndrome is characterized by intellectual and motor disabilities caused by heterozygous loss-of-function pathogenic variants. As the first evidence for a corrective treatment, Ctnnb1 + /- mouse phenotypes resemble the human disorder and are significantly normalized with inhibition of GSK3α,β. Ctnnb1 heterozygous mice display cognitive and motor phenotypes resembling key features of human CTNNB1 Syndrome. Ctnnb1 heterozygous mice show molecular and functional changes consistent with the behavioral deficits. Treatment with a highly selective, small molecule GSK3α,β inhibitor corrects the behavioral, functional, and molecular changes in symptomatic heterozygous mice. CTNNB1 Syndrome is characterized by intellectual and motor disabilities caused by heterozygous loss-of-function pathogenic variants. As the first evidence for a corrective treatment, Ctnnb1 + /- mouse phenotypes resemble the human disorder and are significantly normalized with inhibition of GSK3α,β. [ABSTRACT FROM AUTHOR]

Published

2024

26. GSK-3β in Dendritic Cells Exerts Opposite Functions in Regulating Cross-Priming and Memory CD8 T Cell Responses Independent of β-Catenin.

Author

Fu, Chunmei, Wang, Jie, Ma, Tianle, Yin, Congcong, Zhou, Li, Clausen, Björn E., Mi, Qing-Sheng, and Jiang, Aimin

Subjects

IMMUNOLOGIC memory, IMMUNE response, CELL analysis, T cells, DENDRITIC cells

Abstract

GSK-3β plays a critical role in regulating the Wnt/β-catenin signaling pathway, and manipulating GSK-3β in dendritic cells (DCs) has been shown to improve the antitumor efficacy of DC vaccines. Since the inhibition of GSK-3β leads to the activation of β-catenin, we hypothesize that blocking GSK-3β in DCs negatively regulates DC-mediated CD8 T cell immunity and antitumor immunity. Using CD11c-GSK-3β−/− conditional knockout mice in which GSK-3β is genetically deleted in CD11c-expressing DCs, we surprisingly found that the deletion of GSK-3β in DCs resulted in increased antitumor immunity, which contradicted our initial expectation of reduced antitumor immunity due to the presumed upregulation of β-catenin in DCs. Indeed, we found by both Western blot and flow cytometry that the deletion of GSK-3β in DCs did not lead to augmented expression of β-catenin protein, suggesting that GSK-3β exerts its function independent of β-catenin. Supporting this notion, our single-cell RNA sequencing (scRNA-seq) analysis revealed that GSK-3β-deficient DCs exhibited distinct gene expression patterns with minimally overlapping differentially expressed genes (DEGs) compared to DCs with activated β-catenin. This suggests that the deletion of GSK-3β in DCs is unlikely to lead to upregulation of β-catenin at the transcriptional level. Consistent with enhanced antitumor immunity, we also found that CD11c-GSK-3β−/− mice exhibited significantly augmented cross-priming of antigen-specific CD8 T cells following DC-targeted vaccines. We further found that the deletion of GSK-3β in DCs completely abrogated memory CD8 T cell responses, suggesting that GSK-3β in DCs also plays a negative role in regulating the differentiation and/or maintenance of memory CD8 T cells. scRNA-seq analysis further revealed that although the deletion of GSK-3β in DCs positively regulated transcriptional programs for effector differentiation and function of primed antigen-specific CD8 T cells in CD11c-GSK-3β−/− mice during the priming phase, it resulted in significantly reduced antigen-specific memory CD8 T cells, consistent with diminished memory responses. Taken together, our data demonstrate that GSK-3β in DCs has opposite functions in regulating cross-priming and memory CD8 T cell responses, and GSK-3β exerts its functions independent of its regulation of β-catenin. These novel insights suggest that targeting GSK-3β in cancer immunotherapies must consider its dual role in CD8 T cell responses. [ABSTRACT FROM AUTHOR]

Published

2024

27. Beneficial effects of IVIG treatment on experimental-induced osteoporosis.

Author

Özdemir, Savaş and Erbas, Oytun

Subjects

INTRAVENOUS immunoglobulins, OSTEOPOROSIS treatment, POSTMENOPAUSE, ESTROGEN, ANTI-inflammatory agents, ANIMAL models in research, OVARIECTOMY

Abstract

Copyright of Cirugía y Cirujanos is the property of Publicidad Permanyer SLU and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

28. Integrating Proteomic Analysis and Machine Learning to Predict Prostate Cancer Aggressiveness.

Author

Valle Cortés, Sheila M., Pérez Morales, Jaileene, Nieves Plaza, Mariely, Maldonado, Darielys, Tevenal Baez, Swizel M., Negrón Blas, Marc A., Lazcano Etchebarne, Cayetana, Feliciano, José, Ruiz Deyá, Gilberto, Santa Rosario, Juan C., and Santiago Cardona, Pedro

Subjects

EPITHELIAL-mesenchymal transition, REGRESSION trees, GLEASON grading system, EARLY diagnosis, PROSTATE cancer

Abstract

Prostate cancer (PCa) poses a significant challenge because of the difficulty in identifying aggressive tumors, leading to overtreatment and missed personalized therapies. Although only 8% of cases progress beyond the prostate, the accurate prediction of aggressiveness remains crucial. Thus, this study focused on studying retinoblastoma phosphorylated at Serine 249 (Phospho-Rb S249), N-cadherin, β-catenin, and E-cadherin as biomarkers for identifying aggressive PCa using a logistic regression model and a classification and regression tree (CART). Using immunohistochemistry (IHC), we targeted the expression of these biomarkers in PCa tissues and correlated their expression with clinicopathological data of the tumor. The results showed a negative correlation between E-cadherin and β-catenin with aggressive tumor behavior, whereas Phospho-Rb S249 and N-cadherin positively correlated with increased tumor aggressiveness. Furthermore, patients were stratified based on Gleason scores and E-cadherin staining patterns to evaluate their capability for early identification of aggressive PCa. Our findings suggest that the classification tree is the most effective method for measuring the utility of these biomarkers in clinical practice, incorporating β-catenin, tumor grade, and Gleason grade as relevant determinants for identifying patients with Gleason scores ≥ 4 + 3. This study could potentially benefit patients with aggressive PCa by enabling early disease detection and closer monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

29. DNA Methylation in Recurrent Glioblastomas: Increased TEM8 Expression Activates the Src/PI3K/AKT/GSK-3β/Β-Catenin Pathway.

Author

KUNDU, PARAMITA, JAIN, RUCHI, KANURI, NANDAKI NAG, ARIMAPPAMAGAN, ARIVAZHAGAN, SANTOSH, VANI, and KONDAIAH, PATURU

Subjects

DNA repair, GENE expression, DNA methylation, EXPOSURE therapy, INTERLEUKIN receptors, TUMOR suppressor genes, BRAIN tumors, EPIGENOMICS

Abstract

Background/Aim: Glioblastomas (GBM) are infiltrative malignant brain tumors which mostly recur within a year’s time following surgical resection and chemo-radiation therapy. Studies on glioblastoma cells following radiochemotherapy, have been demonstrated to induce transdifferentiation, cellular plasticity, activation of DNA damage response and stemness. As glioblastomas are heterogenous tumors that develop treatment resistance and plasticity, we investigated if there exist genome-wide DNA methylation changes in recurrent tumors. Materials and Methods: Utilizing genome-wide DNA methylation arrays, we compared the DNA methylation profile of 11 primary (first occurrence) tumors with 13 recurrent (relapsed) GBM, to delineate the contribution of epigenetic changes associated with therapy exposure, therapy resistance, and relapse of disease. Results: Our data revealed 1,224 hypermethylated- and 526 hypomethylated-probes in recurrent glioblastomas compared to primary disease. We found differential methylation of solute carrier and ion channel genes, interleukin receptor/ligand genes, tumor-suppressor genes and genes associated with metastasis. We functionally characterized one such hypomethylated-up-regulated gene, namely anthrax toxin receptor 1/tumor endothelial marker 8 (ANTXR1/TEM8), whose expression was validated to be significantly up-regulated in recurrent glioblastomas compared to primary tumors and confirmed by immunohistochemistry. Using overexpression and knockdown approaches, we showed that TEM8 induces proliferation, invasion, migration, and chemo-radioresistance in glioblastoma cells. Additionally, we demonstrated a novel mechanism of β-catenin stabilization and activation of the βcatenin transcriptional program due to TEM8 overexpression via a Src/PI3K/AKT/GSK3β/β-catenin pathway. Conclusion: We report genome-wide DNA methylation changes in recurrent GBM and suggest involvement of the TEM8 gene in GBM recurrence and progression. [ABSTRACT FROM AUTHOR]

Published

2024

30. Zhenbao Pill Attenuates Microglia Activation to Improve Spinal Cord Injury via miR-214-5p/SOX4/β-catenin Axis

Author

Yanqiang Huan, Juan He, Pengfei Li, Fei Wang, Huidong Zhou, and Yongxiong He

Subjects

mir-214-5p, sox4, spinal cord injury, zhenbao pill, β-catenin, Physiology, QP1-981, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Zhenbao pill (ZBP) has been shown to improve outcomes in spinal cord injury (SCI). However, its potential regulatory mechanisms in SCI remain to be elucidated. This study aimed to define the role of ZBP and its underlying molecular mechanisms in SCI, both in vitro and in vivo. Our findings indicated that ZBP ameliorated SCI by inhibiting neuronal apoptosis and the inflammatory response through the enhancement of miR-214-5p in vivo. In vitro, ZBP significantly reduced the levels of inflammatory factors, increased cell viability, and decreased apoptosis induced by oxygen–glucose deprivation (OGD)-activated microglia via miR-214-5p. Furthermore, the addition of miR-214-5p diminished the inflammatory response, enhanced cell viability, and suppressed apoptosis in OGD-treated microglia. We identified SRY-box transcription factor 4 (SOX4) as a potential target of miR-214-5p. Overexpression of SOX4 negated the effects of miR-214-5p on the inflammatory response, cell viability, and apoptosis in OGD-activated microglia. ZBP inhibited SOX4/β-catenin activation and reduced pro-inflammatory cytokine secretion by enhancing miR-214-5p in activated microglia. In summary, our findings demonstrate that ZBP mitigates SCI by inhibiting neuronal damage caused by activated microglia through the miR-214-5p/SOX4/β-catenin axis, providing valuable insights into the molecular basis of ZBP as a therapeutic agent for SCI.

Published

2024

31. High expression of LncRNA HOTAIR is a risk factor for temozolomide resistance in glioblastoma via activation of the miR-214/β-catenin/MGMT pathway

Author

Tian Lan, Wei Quan, Dong-Hu Yu, Xi Chen, Ze-Fen Wang, and Zhi-Qiang Li

Subjects

lncRNA HOTAIR, Temozolomide, Resistance, Β-catenin, Methotrexate, Medicine, Science

Abstract

Abstract HOX transcript antisense RNA (HOTAIR) is upregulated in glioblastoma (GBM) and associated with temozolomide (TMZ) resistance. However, the mechanisms underlying HOTAIR-mediated TMZ resistance remains poorly understood. HOTAIR expression in glioma-related public datasets and drug response estimation were analyzed using bioinformatics. These findings were verified by overexpressing HOTAIR in TMZ-sensitive U251 cells and/or silencing HOTAIR in resistant U251 cells (U251R). The cytotoxic effects were evaluated using cell viability assay and flow cytometry analysis of cell cycle and apoptosis. In this study, we found that HOTAIR was upregulated in TMZ-resistant GBM cell lines and patients with high HOTAIR expression responded poorly to TMZ therapy. HOTAIR knockdown restored TMZ sensitivity in U251R cells, while HOTAIR overexpression conferred TMZ resistance in U251 cells. Wnt/β-catenin signaling was enriched in patients with high HOTAIR expression; consistently, HOTAIR positively regulated β-catenin expression in U251 cells. Moreover, HOTAIR-mediated TMZ resistance was associated with increased MGMT protein level, which resulted from the HOTAIR/miR-214-3p/β-catenin network. Besides, GBM with high HOTAIR expression exhibited sensitivity to methotrexate. Methotrexate enhanced TMZ sensitivity in U251R cells, accompanied by reduced expression of HOTAIR and β-catenin. Thus, we conlcude that HOTAIR is a risk factor for TMZ resistance and methotrexate may represent a potential therapeutic drug for patients with high HOTAIR expression level.

Published

2024

32. ELAVL1 regulates glycolysis in nasopharyngeal carcinoma cells through the HMGB3/β-catenin axis

Author

Yi Cui, Haojie Wen, Jinyong Tang, Jiawen Chen, Juan Zhou, Minghua Hou, Xiaohan Rong, Yuanzhao Lan, and Qiong Wu

Subjects

ELAVL1, Glycolysis, Nasopharyngeal carcinoma, HMGB3, Β-catenin, Therapeutics. Pharmacology, RM1-950, Biochemistry, QD415-436

Abstract

Abstract Background The role of ELAVL1 in the progression of various tumors has been demonstrated. Our research aims to investigate how ELAVL1 controls the glycolytic process in nasopharyngeal carcinoma cells through the HMGB3/β-catenin pathway. Methods The expression of ELAVL1 was detected in clinical tumor samples and nasopharyngeal carcinoma cell lines. A subcutaneous tumor model was established in nude mice to investigate the role of ELAVL1 in tumor progression. The relationship between HMGB3 and ELAVL1 was validated by RNA pull down and RIP assays. TOPFlash/FOPFlash reporter assay was used to detect β-catenin activity. Assay kits were utilized to measure glucose consumption, lactate production, and G6PD activity in nasopharyngeal carcinoma cells. Western blot was conducted to detect the expression of glycolysis-related proteins. The glycolytic capacity was analyzed through extracellular acidification rate (ECAR). Results In both clinical samples and nasopharyngeal carcinoma cell lines, the expression levels of ELAVL1 mRNA and protein were found to be upregulated. Knockdown of ELAVL1 significantly inhibited the in vivo proliferation of nasopharyngeal carcinoma and suppressed the glycolytic capacity of nasopharyngeal carcinoma cells. ELAVL1 interacts with HMGB3, leading to an increase in the stability of HMGB3 mRNA. Overexpression of HMGB3 elevated the reduced β-catenin activity caused by sh-ELAVL1 and reversed the inhibitory effect of sh-ELAVL1 on cellular glycolytic capacity. Treatment with β-catenin inhibitor (FH535) effectively suppressed the promotion of glycolytic capacity induced by HMGB3 overexpression. Conclusions ELAVL1 promotes glycolysis in nasopharyngeal carcinoma cells by interacting with HMGB3 to stabilize HMGB3 mRNA, thereby activating β-catenin pathway. Therefore, targeting the ELAVL1-HMGB3-β-catenin axis has the potential to be a novel approach for treating nasopharyngeal carcinoma.

Published

2024

33. Comparative immunohistochemical expression of Beta catenin and CD163 between dysplastic / non-dysplastic oral lichen planus and lichenoid lesions (EX-VIVO STUDY)

Author

Heba Ahmed Saleh, Ghada Nabil, and Sarah Ahmed Mohammed Mahmoud Badawy

Subjects

Β-catenin, CD163, M2 macrophages, TAM, TAM-specific β-catenin signaling, Dysplastic, Dentistry, RK1-715

Abstract

Abstract Background Oral lichen planus is a well-known chronic inflammatory mucocutaneous disorder, which has clinical and histological presentation that mimics oral lichenoid reaction. According to the fifth edition of WHO, both conditions are considered as oral potentially malignant disorders. Recent studies on oral potential disorders documented deregulation of some signaling molecules related to the Wnt/β-catenin pathway. Therefore this study aimed to compare the immune expression of β-catenin & CD163 in dysplastic /non-dysplastic cases of Oral lichen planus & oral lichenoid lesion. In addition, a statistical correlation between both immune markers was done regardless of the type of the study group. Methods Four study groups were designated as 2 groups of Oral lichen planus (one dysplastic & one non –dysplastic) and the other 2 groups were oral lichenoid lesions (one dysplastic & one non –dysplastic). Ten cases in each group were collected and investigated by immunohistochemistry. The area percent of beta catenin and also counting of m2 macrophages expressing + CD163 marker was calculated in the study groups. Results The Statistical analysis highlighted a statistically significant difference between the studied groups. Moreover, Pearson correlation test reported a significant moderate positive correlation between beta catenin & CD163 expression in the studied cases. Conclusion Our findings supported new perceptions of the mechanism by which tumor associated macrophage specific β-catenin signaling promotes the aggressive behavior of oral potential malignant disorders. Clinical relevance Evidence of the relationship between beta catenin and M2 macrophages (+ CD163) may enhance the development of macrophage-based strategies for treatment and improve the prognosis of such cases.

Published

2024

34. Turkish coffee has an antitumor effect on breast cancer cells in vitro and in vivo

Author

Mohamed N. Amin, Usama Ramadan Abdelmohsen, and Yara A. Samra

Subjects

Breast cancer, Coffee extract, Fridamycin-H, Caspase-8, PPAR-γ, Β-catenin, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background Breast cancer is the most diagnosed cancer in women. Its pathogenesis includes several pathways in cancer proliferation, apoptosis, and metastasis. Some clinical data have indicated the association between coffee consumption and decreased cancer risk. However, little data is available on the effect of coffee on breast cancer cells in vitro and in vivo. Methods In our study, we assessed the effect of Turkish coffee and Fridamycin-H on different pathways in breast cancer, including apoptosis, proliferation, and oxidative stress. A human breast cancer cell line (MCF-7) was treated for 48 h with either coffee extract (5% or 10 v/v) or Fridamycin-H (10 ng/ml). Ehrlich solid tumors were induced in mice for in vivo modeling of breast cancer. Mice with Ehrlich solid tumors were treated orally with coffee extract in drinking water at a final concentration (v/v) of either 3%, 5%, or 10% daily for 21 days. Protein expression levels of Caspase-8 were determined in both in vitro and in vivo models using ELISA assay. Moreover, P-glycoprotein and peroxisome proliferator-activated receptor gamma (PPAR-γ) protein expression levels were analyzed in the in vitro model. β-catenin protein expression was analyzed in tumor sections using immunohistochemical analysis. In addition, malondialdehyde (MDA) serum levels were analyzed using colorimetry. Results Both coffee extract and Fridamycin-H significantly increased Caspase-8, P-glycoprotein, and PPAR-γ protein levels in MCF-7 cells. Consistently, all doses of in vivo coffee treatment induced a significant increase in Caspase-8 and necrotic zones and a significant decrease in β- catenin, MDA, tumor volume, tumor weight, and viable tumor cell density. Conclusion These findings suggest that coffee extract and Fridamycin-H warrant further exploration as potential therapies for breast cancer.

Published

2024

35. Strategic targeting of miR-183 and β-catenin to enhance BMSC stemness in age-related osteoporosis therapy

Author

Nizhou Jiang, Jian Jiang, Quanxiang Wang, Jiayu Hao, Rui Yang, Xiliang Tian, and Hong Wang

Subjects

Stemness, β-catenin, miR-183, Age related osteoporosis, Bone marrow derived mesenchymal stem cells, Medicine, Science

Abstract

Abstract Age-related osteoporosis is a prevalent bone metabolic disorder distinguished by an aberration in the equilibrium between bone formation and resorption. The reduction in the stemness of Bone Marrow Mesenchymal Stem Cells (BMSCs) plays a pivotal role in the onset of this ailment. Comprehending the molecular pathways that govern BMSCs stemness is imperative for delineating the etiology of age-related osteoporosis and devising efficacious treatment modalities. The study utilized single-cell RNA sequencing and miRNA sequencing to investigate the cellular heterogeneity and stemness of BMSCs. Through dual-luciferase reporter assays and functional experiments, the regulatory effect of miR-183 on CTNNB1 (β-catenin) was confirmed. Overexpression and knockdown studies were conducted to explore the impact of miR-183 and β-catenin on stemness-related transcription factors Oct4, Nanog, and Sox2. Cell proliferation assays and osteogenic differentiation experiments were carried out to validate the influence of miR-183 and β-catenin on the stemness properties of BMSCs. Single-cell analysis revealed that β-catenin is highly expressed in both high stemness clusters and terminal differentiation clusters of BMSCs. Overexpression of β-catenin upregulated stemness transcription factors, while its suppression had the opposite effect, indicating a dual regulatory role of β-catenin in maintaining BMSCs stemness and promoting bone differentiation. Furthermore, the confluence of miRNA sequencing analyses and predictions from online databases revealed miR-183 as a potential modulator of BMSCs stemness and a novel upstream regulator of β-catenin. The overexpression of miR-183 effectively diminished the stemness characteristics of BMSCs by suppressing β-catenin, whereas the inhibition of miR-183 augmented stemness. These outcomes align with the observed alterations in the expression levels and functional assessments of transcription factors associated with stemness. This study provides evidence for the essential involvement of β-catenin in preserving the stemness of BMSCs, as well as elucidating the molecular mechanism through which miR-183 selectively targets β-catenin to modulate stemness. These results underscore the potential of miR-183 and β-catenin as molecular targets for augmenting the stemness of BMSCs. This strategy is anticipated to facilitate the restoration of bone microarchitecture and facilitate bone tissue regeneration by addressing potential cellular dysfunctions, thereby presenting novel targets and perspectives for the management of age-related osteoporosis.

Published

2024

36. BRCC36 regulates β-catenin ubiquitination to alleviate vascular calcification in chronic kidney disease

Author

Yalan Li, Xiaoyue Chen, Yiqing Xiong, Xueqiang Xu, Caidie Xie, Min Min, Dongmei Liang, Cheng Chen, and Huijuan Mao

Subjects

Chronic kidney disease, Vascular calcification, Ubiquitin‒proteasome degradation, BRCC36, β-catenin, Medicine

Abstract

Abstract Background The prevalence of vascular calcification (VC) in chronic kidney disease (CKD) patients remains substantial, but currently, there are no effective pharmaceutical therapies available. BRCA1/BRCA2-containing complex subunit 36 (BRCC36) has been implicated in osteoblast osteogenic conversion; however, its specific role in VC remains to be fully elucidated. The aim of this study was to investigate the role and underlying mechanisms of BRCC36 in VC. Methods The association between BRCC36 expression and VC was examined in radial arteries from patients with CKD, high-adenine-induced CKD mice, and vascular smooth muscle cells (VSMCs). Western blotting, real-time polymerase chain reaction, immunofluorescence, and immunohistochemistry were used to analyse gene expression. Gain- and loss-of-function experiments were performed to comprehensively investigate the effects of BRCC36 on VC. Coimmunoprecipitation and TOPFlash luciferase assays were utilized to further investigate the regulatory effects of BRCC36 on the Wnt/β-catenin pathway. Results BRCC36 expression was downregulated in human calcified radial arteries, calcified aortas from CKD mice, and calcified VSMCs. VSMC-specific BRCC36 overexpression alleviated calcium deposition in the vasculature, whereas BRCC36 depletion aggravated VC progression. Furthermore, BRCC36 inhibited the osteogenic differentiation of VSMCs in vitro. Rescue experiments revealed that BRCC36 exerts the protective effects on VC partly by regulating the Wnt/β-catenin signalling pathway. Mechanistically, BRCC36 inhibited the Wnt/β-catenin pathway by decreasing the K63-linked ubiquitination of β-catenin. Additionally, pioglitazone attenuated VC partly through upregulating BRCC36 expression. Conclusions Our research results emphasize the critical role of the BRCC36-β-catenin axis in VC, suggesting that BRCC36 or β-catenin may be promising therapeutic targets to prevent the progression of VC in CKD patients. Graphical Abstract

Published

2024

37. Berberine decreases S100B generation to regulate gut vascular barrier permeability in mice with burn injury

Author

Aiwen Feng, Shaosheng Su, Cheng Li, Yutian Kang, Jiasheng Qiu, and Jun Zhou

Subjects

Enteric glial cells, caspase-8, occludin, β-catenin, Therapeutics. Pharmacology, RM1-950

Abstract

AbstractContext: Berberine (BBR) can regulate enteric glial cells (EGCs) and the gut vascular barrier (GVB).Objective: To explore whether BBR regulates GVB permeability via the S100B pathway.Materials and methods: GVB hyperpermeability in C57BL/6J mice was induced by burns or S100B enema. BBR (25 or 50 mg/kg/d, 3 d) was gavaged preburn. S100B monoclonal antibody (S100BmAb) was i.v. injected postburn. Mouse intestinal microvascular endothelial cells (MIMECs) were treated with S100B, S100B plus BBR, or Z-IETD-FMK. GVB permeability was assayed by FITC-dextran, S100B by ELISA, caspase-8, β-catenin, occludin and PV-1 by immunoblot.Results: Burns elevated S100B in serum and in colonic mucosa to a peak (147.00 ± 4.95 ng/mL and 160.30 ± 8.50 ng/mg, respectively) at 36 h postburn, but BBR decreased burns-induced S100B in serum (126.20 ± 6.30 or 90.60 ± 3.78 ng/mL) and in mucosa (125.80 ± 12.40 or 91.20 ± 8.54 ng/mg). Burns raised GVB permeability (serum FITC-dextran 111.40 ± 8.56 pg/mL) at 48 h postburn, but BBR reduced GVB permeability (serum FITC-dextran 89.20 ± 6.98 or 68.60 ± 5.50 ng/mL). S100B enema (1 μM) aggravated burns-raised GVB permeability (142.80 ± 8.07 pg/mL) and PV-1, but the effect of S100B was antagonized by BBR. Z-IETD-FMK (5 μM) increased S100B-induced permeability to FITC-dextran (205.80 ± 9.70 to 263.80 ± 11.04 AUs) while reducing β-catenin in MIMECs. BBR (5 μM) reduced S100B-induced permeability (104.20 ± 9.65 AUs) and increased caspase-8, β-catenin and occludin.Discussion and conclusion: BBR decreases burns-induced GVB hyperpermeability via modulating S100B/caspase-8/β-catenin pathway and may involve EGCs.

Published

2024

38. 补骨脂素对环磷酰胺抑制小鼠骨髓间充质干细胞成骨分化的恢复作用.

Author

王成龙, 杨志烈, 常君丽, 赵永见, 赵东峰, 戴薇薇, 吴宏进, 张 婕, 王利波, 谢 颖, 唐德志, 王拥军, and 杨燕萍

Abstract

BACKGROUND: Psoralen has a strong anti-osteoporotic activity and may have a restorative effect on chemotherapy-induced osteoporosis. OBJECTIVE: To explore the restorative effect of psoralen on the osteogenic differentiation of bone marrow mesenchymal stem cells in mice inhibited by cyclophosphamide and its mechanism. METHODS: C57BL/6 mouse bone marrow mesenchymal stem cells were isolated and cultured. Effect of psoralen on viability of bone marrow mesenchymal stem cells was detected by MTT assay. Osteogenic induction combined with alkaline phosphatase staining was used to determine the optimal dose of psoralen to restore the osteogenic differentiation of bone marrow mesenchymal stem cells inhibited by cyclophosphamide. The mRNA expression levels of Runx2, alkaline phosphatase, Osteocalcin, osteoprotegerin, and Wnt/β-catenin signaling pathway-related genes Wnt1, Wnt4, Wnt10b, β-catenin, and c-MYC were measured by RT-qPCR at different time points under the intervention with psoralen. The protein expression of osteogenic specific transcription factor Runx2 and Wnt/β-catenin signaling pathway related genes Active β-catenin, DKK1, c-MYC, and Cyclin D1 was determined by western blot assay at different time points under the intervention with psoralen. RESULTS AND CONCLUSION: (1) There was no significant effect of different concentrations of psoralen on the viability of bone marrow mesenchymal stem cells. The best recovery of the inhibition of osteogenic differentiation of bone marrow mesenchymal stem cells caused by cyclophosphamide was under the intervention of psoralen at a concentration of 200 μmol/L. (2) Psoralen reversed the reduction in osteogenic differentiation marker genes Runx2, alkaline phosphatase, Osteocalcin and osteoprotegerin mRNA expression and Runx2 protein expression in bone marrow mesenchymal stem cells caused by cyclophosphamide conditioned medium. (3) Psoralen reversed the decrease in Wnt/β-catenin pathway-related genes Wnt4, β-catenin, c-MYC mRNA and Active β-catenin, c-MYC, and Cyclin D1 protein expression and the increase in DKK1 protein expression in bone marrow mesenchymal stem cells caused by cyclophosphamide conditioned medium. (4) The results showed that cyclophosphamide inhibited osteogenic differentiation of bone marrow mesenchymal stem cells in mice, and psoralen had a restorative effect on it. The best intervention effect was achieved at a concentration of 200 μmol/L psoralen, and this protective effect might be related to the activation of Wnt4/β-catenin signaling pathway by psoralen. [ABSTRACT FROM AUTHOR]

Published

2025

39. The evolving molecular characterisation, histological criteria and nomenclature of adenoid ameloblastoma as a World Health Organisation tumour type.

Author

Odell, Edward W, Gomes, Carolina Cavalieri, and Thavaraj, Selvam

Abstract

Adenoid ameloblastoma (AA) was recently recognised as a separate tumour type in the most recent World Health Organisation (WHO) classification of head and neck tumours. This decision has been considered controversial by several groups, who have described AA as a subtype of ameloblastoma, a hybrid odontogenic tumour or to fall within the spectrum of other recognised odontogenic tumours, including dentinogenic ghost cell tumour and adenomatoid odontogenic tumour. Here we review the reasons for the WHO decision to classify AA as a separate tumour type. We also critique molecular and histological findings from recent reports published since the WHO classification. While acknowledging that the classification of tumours is constantly evolving, the balance of current evidence suggests that AA should remain a distinct tumour type, and not a subtype of ameloblastoma, pending further molecular characterisation. [ABSTRACT FROM AUTHOR]

Published

2024

40. CXC chemokine receptor 7 ameliorates renal fibrosis by inhibiting β-catenin signaling and epithelial-to-mesenchymal transition in tubular epithelial cells.

Author

Meng, Ping, Liu, Chunli, Li, Jingchun, Fang, Ping, Yang, Bo, Sun, Wei, and Zhang, Yunfang

Subjects

*CHEMOKINE receptors, *RENAL fibrosis, *EPITHELIAL-mesenchymal transition, *EPITHELIAL cells, *CHRONIC kidney failure

Abstract

Renal fibrosis is a common feature of various chronic kidney diseases. However, the underlying mechanism remains poorly understood. The CXC chemokine receptor (CXCR) family plays a role in renal fibrosis; however, the detailed mechanisms have not been elucidated. In this study, we investigated the potential role of CXCR7 in mediating renal fibrosis. CXCR7 expression is decreased in unilateral ischemia–reperfusion injury (UIRI) and unilateral ureteral obstruction mouse models. Furthermore, CXCR7 was specifically expressed primarily in the Lotus Tetragonolobus Lectin-expressing segment of tubules, was slightly expressed in the peanut agglutinin-expressing segment, and was barely expressed in the Dolichos biflorus agglutinin-expressing segment. Administration of pFlag-CXCR7, an overexpression plasmid for CXCR7, significantly inhibited the activation of β-catenin signaling and protected against the progression of epithelial-to-mesenchymal transition (EMT) and renal fibrosis in a UIRI mouse model. Using cultured HKC-8 cells, we found that CXCR7 significantly downregulated the expression of active β-catenin and fibrosis-related markers, including fibronectin, Collagen I, and α-SMA. Furthermore, CXCR7 significantly attenuated TGF-β1-induced changes in β-catenin signaling, EMT and fibrosis. These results suggest that CXCR7 plays a crucial role in inhibiting the activation of β-catenin signaling and the progression of EMT and renal fibrosis. Thus, CXCR7 could be a novel therapeutic target for renal fibrosis. [ABSTRACT FROM AUTHOR]

Published

2024

41. FEV-mediated WNT2 transcription is involved in the progression of colorectal cancer via the Wnt signaling.

Author

Zhang, Xia, Yang, Lingshu, Liu, Jianing, Wang, Tianlin, Wang, Zhe, and Liu, Chang

Abstract

Colorectal cancer (CRC) remains the third leading cause of cancer-related death worldwide. Here, we aimed to uncover the mechanism underlying the transcription factor fifth Ewing variant protein (FEV) in CRC. Transcriptome differential expression in human CRC and adjacent tissues was analyzed using GSE143939, GSE142279, GSE196006, and GSE200427 datasets, and the intersecting genes were screened by comparing them with the list of transcription factors in the Human TFBD database, followed by KEGG enrichment analysis. FEV expression was significantly reduced in CRC, and upregulation of FEV inhibited cell growth and tumor progression in CRC. The highly expressed genes in CRC were mainly enriched to the Wnt signaling pathway, and WNT2 is the core initiator of the Wnt signaling pathway. Two binding sites for FEV are present on the WNT2 promoter. WNT2 promoted the proliferation, migration, and invasion of CRC cells. FEV repressed WNT2 transcription by binding to the WNT2 promoter. Collectively, our data revealed that a novel FEV/WNT2 axis is critical for CRC progression. Strategies targeting this specific signaling axis might be developed to treat patients with CRC. [ABSTRACT FROM AUTHOR]

Published

2024

42. Integrating Proteomic Analysis and Machine Learning to Predict Prostate Cancer Aggressiveness

Author

Sheila M. Valle Cortés, Jaileene Pérez Morales, Mariely Nieves Plaza, Darielys Maldonado, Swizel M. Tevenal Baez, Marc A. Negrón Blas, Cayetana Lazcano Etchebarne, José Feliciano, Gilberto Ruiz Deyá, Juan C. Santa Rosario, and Pedro Santiago Cardona

Subjects

prostate cancer, aggressive, E-cadherin, N-cadherin, β-catenin, retinoblastoma, Statistics, HA1-4737

Abstract

Prostate cancer (PCa) poses a significant challenge because of the difficulty in identifying aggressive tumors, leading to overtreatment and missed personalized therapies. Although only 8% of cases progress beyond the prostate, the accurate prediction of aggressiveness remains crucial. Thus, this study focused on studying retinoblastoma phosphorylated at Serine 249 (Phospho-Rb S249), N-cadherin, β-catenin, and E-cadherin as biomarkers for identifying aggressive PCa using a logistic regression model and a classification and regression tree (CART). Using immunohistochemistry (IHC), we targeted the expression of these biomarkers in PCa tissues and correlated their expression with clinicopathological data of the tumor. The results showed a negative correlation between E-cadherin and β-catenin with aggressive tumor behavior, whereas Phospho-Rb S249 and N-cadherin positively correlated with increased tumor aggressiveness. Furthermore, patients were stratified based on Gleason scores and E-cadherin staining patterns to evaluate their capability for early identification of aggressive PCa. Our findings suggest that the classification tree is the most effective method for measuring the utility of these biomarkers in clinical practice, incorporating β-catenin, tumor grade, and Gleason grade as relevant determinants for identifying patients with Gleason scores ≥ 4 + 3. This study could potentially benefit patients with aggressive PCa by enabling early disease detection and closer monitoring.

Published

2024

43. Inhibition of GSK3α,β rescues cognitive phenotypes in a preclinical mouse model of CTNNB1 syndrome

Author

Jonathan M Alexander, Leeanne Vazquez-Ramirez, Crystal Lin, Pantelis Antonoudiou, Jamie Maguire, Florence Wagner, and Michele H Jacob

Subjects

CTNNB1, β-Catenin, GSK3, Cognition, Motor, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract CTNNB1 syndrome is a rare monogenetic disorder caused by CTNNB1 de novo pathogenic heterozygous loss-of-function variants that result in cognitive and motor disabilities. Treatment is currently lacking; our study addresses this critical need. CTNNB1 encodes β-catenin which is essential for normal brain function via its dual roles in cadherin-based synaptic adhesion complexes and canonical Wnt signal transduction. We have generated a Ctnnb1 germline heterozygous mouse line that displays cognitive and motor deficits, resembling key features of CTNNB1 syndrome in humans. Compared with wild-type littermates, Ctnnb1 heterozygous mice also exhibit decreases in brain β-catenin, β-catenin association with N-cadherin, Wnt target gene expression, and Na/K ATPases, key regulators of changes in ion gradients during high activity. Consistently, hippocampal neuron functional properties and excitability are altered. Most important, we identify a highly selective inhibitor of glycogen synthase kinase (GSK)3α,β that significantly normalizes the phenotypes to closely meet wild-type littermate levels. Our data provide new insights into brain molecular and functional changes, and the first evidence for an efficacious treatment with therapeutic potential for individuals with CTNNB1 syndrome.

Published

2024

44. SUMO3 inhibition by butyric acid suppresses cell viability and glycolysis and promotes gemcitabine antitumor activity in pancreatic cancer

Author

Liming Zhu, Gang Chen, Changjing Huang, Huifeng Gao, Yilin Wang, and Yehua Shen

Subjects

Pancreatic cancer, SUMO3, Butyric acid, Glycolysis, GEM chemotherapy, Β-catenin, Biology (General), QH301-705.5

Abstract

Abstract Background Excavation of key molecules can help identify therapeutic targets and improve the prognosis of pancreatic cancer. This study evaluated the roles of SUMO3 in cell viability, glycolysis, gemcitabine (GEM) sensitivity, and the antitumor activity of butyric acid (BA) in pancreatic cancer. Methods The mRNA and protein levels of SUMO3 were detected by qRT-PCR, Western blot, and immunohistochemical assay. SUMO3 was silenced or overexpressed in pancreatic cancer cells with or without Wnt/β-catenin pathway inhibitor, glycolysis inhibitor, GEM, or BA treatment. Cell viability was measured using the Cell Counting Kit-8 assay. Glycolysis was measured by determining the extracellular acidification rate, ATP level, and lactate content. Apoptosis was measured by flow cytometry, and TUNEL staining was used to examine in vitro and in vivo sensitivity to GEM chemotherapy. Luciferase reporter and chromatin immunoprecipitation assays were conducted to detect the binding of the SUMO3 promoter and NF-κB p65. Results SUMO3 was increased and associated with poor survival in pancreatic cancer. SUMO3 knockdown decreased cell viability and glycolysis in vitro and inhibited tumor growth in vivo. SUMO3 overexpression increased cell viability and glycolysis in vitro through the β-catenin pathway. SUMO3 knockdown increased GEM sensitivity, whereas SUMO3 overexpression decreased GEM sensitivity and inhibited the antitumor activity of BA. BA promoted histone acetylation and p-IκBα expression to inhibit NF-κB p65-mediated SUMO3 transcription. Conclusion SUMO3 acted as an active molecule in cell survival and growth by enhancing glycolysis in response to either GEM or BA. The mechanism was related to the constitutive IκBα/NF-κB/SUMO3/β-catenin signaling pathway.

Published

2024

45. Concomitant targeting of FLT3 and SPHK1 exerts synergistic cytotoxicity in FLT3-ITD+ acute myeloid leukemia by inhibiting β-catenin activity via the PP2A-GSK3β axis

Author

Ling Jiang, Yu Zhao, Fang Liu, Yun Huang, Yujiao Zhang, Baoyi Yuan, Jiaying Cheng, Ping Yan, Jinle Ni, Yongshuai Jiang, Quan Wu, and Xuejie Jiang

Subjects

FLT3, Acute myeloid leukemia, SPHK1, Sphingolipid, Tyrosine kinase inhibitor, Β-catenin, Medicine, Cytology, QH573-671

Abstract

Abstract Background Approximately 25–30% of patients with acute myeloid leukemia (AML) have FMS-like receptor tyrosine kinase-3 (FLT3) mutations that contribute to disease progression and poor prognosis. Prolonged exposure to FLT3 tyrosine kinase inhibitors (TKIs) often results in limited clinical responses due to diverse compensatory survival signals. Therefore, there is an urgent need to elucidate the mechanisms underlying FLT3 TKI resistance. Dysregulated sphingolipid metabolism frequently contributes to cancer progression and a poor therapeutic response. However, its relationship with TKI sensitivity in FLT3-mutated AML remains unknown. Thus, we aimed to assess mechanisms of FLT3 TKI resistance in AML. Methods We performed lipidomics profiling, RNA-seq, qRT-PCR, and enzyme-linked immunosorbent assays to determine potential drivers of sorafenib resistance. FLT3 signaling was inhibited by sorafenib or quizartinib, and SPHK1 was inhibited by using an antagonist or via knockdown. Cell growth and apoptosis were assessed in FLT3-mutated and wild-type AML cell lines via Cell counting kit-8, PI staining, and Annexin-V/7AAD assays. Western blotting and immunofluorescence assays were employed to explore the underlying molecular mechanisms through rescue experiments using SPHK1 overexpression and exogenous S1P, as well as inhibitors of S1P2, β-catenin, PP2A, and GSK3β. Xenograft murine model, patient samples, and publicly available data were analyzed to corroborate our in vitro results. Results We demonstrate that long-term sorafenib treatment upregulates SPHK1/sphingosine-1-phosphate (S1P) signaling, which in turn positively modulates β-catenin signaling to counteract TKI-mediated suppression of FLT3-mutated AML cells via the S1P2 receptor. Genetic or pharmacological inhibition of SPHK1 potently enhanced the TKI-mediated inhibition of proliferation and apoptosis induction in FLT3-mutated AML cells in vitro. SPHK1 knockdown enhanced sorafenib efficacy and improved survival of AML-xenografted mice. Mechanistically, targeting the SPHK1/S1P/S1P2 signaling synergizes with FLT3 TKIs to inhibit β-catenin activity by activating the protein phosphatase 2 A (PP2A)-glycogen synthase kinase 3β (GSK3β) pathway. Conclusions These findings establish the sphingolipid metabolic enzyme SPHK1 as a regulator of TKI sensitivity and suggest that combining SPHK1 inhibition with TKIs could be an effective approach for treating FLT3-mutated AML.

Published

2024

46. Accumulated β-catenin is associated with human atrial fibrosis and atrial fibrillation

Author

Ying Bai, Rui Li, Jun-Feng Hao, Lian-Wan Chen, Si-Tong Liu, Xi-Lin Zhang, Gregory Y. H. Lip, Jin-Kui Yang, Yi-Xi Zou, and Hao Wang

Subjects

Atrial fibrillation, Human right atrial appendage, Β-catenin, Atrial fibrosis, Medicine

Abstract

Abstract Background Atrial fibrillation (AF) is associated with increased risk of stroke and mortality. It has been reported that the process of atrial fibrosis was regulated by β-catenin in rats with AF. However, pathophysiological mechanisms of this process in human with AF remain unclear. This study aims to investigate the possible mechanisms of β-catenin in participating in the atrial fibrosis using human right atrial appendage (hRAA) tissues . Methods We compared the difference of β-catenin expression in hRAA tissues between the patients with AF and sinus rhythm (SR). The possible function of β-catenin in the development of AF was also explored in mice and primary cells. Results Firstly, the space between the membrane of the gap junctions of cardiomyocytes was wider in the AF group. Secondly, the expression of the gap junction function related proteins, Connexin40 and Connexin43, was decreased, while the expression of β-catenin and its binding partner E-cadherin was increased in hRAA and cardiomyocytes of the AF group. Thirdly, β-catenin colocalized with E-cadherin on the plasma membrane of cardiomyocytes in the SR group, while they were dissociated and accumulated intracellularly in the AF group. Furthermore, the expression of glycogen synthase kinase 3β (GSK-3β) and Adenomatous Polyposis Coli (APC), which participated in the degradation of β-catenin, was decreased in hRAA tissues and cardiomyocytes of the AF group. Finally, the development of atrial fibrosis and AF were proved to be prevented after inhibiting β-catenin expression in the AF model mice. Conclusions Based on human atrial pathological and molecular analyses, our findings provided evidence that β-catenin was associated with atrial fibrosis and AF progression.

Published

2024

47. Rosmarinic acid ameliorates the complications of monocrotaline-induced right ventricular hypertrophy on the left ventricle: Investigating the signaling pathway of Wnt/β-catenin in the heart

Author

Narges Atefipour, Mahin Dianat, Mohammad Badavi, Maryam Radan, and Seyyed Ali Mard

Subjects

β-catenin, monocrotaline, right ventricular - hypertrophy, rosmarinic acid, vascular calcification, wnt, Medicine

Abstract

Objective(s): Right ventricular hypertrophy (RVH) often results in failure of the right ventricle or even the left ventricle. Rosmarinic acid (RA), a natural polyphenol, is commonly found in Boraginaceae species and some species of ferns and hornworts. This study looked at how RA affects oxidative stress and left ventricular hemodynamic functions as well as RVH in monocrotaline (MCT) induced RVH model rats.Materials and Methods: To cause RVH, MCT (60 mg/kg) was intraperitoneally (IP) injected. Rats were given saline or RA (10, 15, and 30 mg/kg, gavage, over 21 days). In anesthetized rats, the lead II electrocardiogram was recorded. The hemodynamic functions of the isolated heart were measured using the Langendorff apparatus (at constant pressure). Investigations were made into the right ventricular hypertrophy index (RVHI), the activities of superoxide dismutase, catalase, glutathione, and Wnt and β-catenin gene expressions in the left ventricle. H&E staining was used.Results: A significant decline in electrocardiogram parameters and anti-oxidant enzyme activities, an increase in QTc (Q-T corrected) intervals, MDA (Malondialdehyde), RVHI, and Wnt/β-catenin gene expression, and also significant changes in the hemodynamic parameters were demonstrated in the MCT group. RA improved the above-mentioned factors.Conclusion: According to the findings, RA may act as a cardioprotective agent against cardiovascular complications brought on by RVH due to its capacity to boost the activity of cardiac anti-oxidant enzymes and decrease the expression of genes involved in vascular calcification.

Published

2024

48. β-catenin mediates monocrotaline-induced pulmonary hypertension via glycolysis in rats

Author

Hui Meng, Yan Deng, Juan Liao, Dan-dan Wu, Li-xiang Li, Xing Chen, and Wei‑Fang Lan

Subjects

β-catenin, Glycolysis, Monocrotaline, Macrophages, NLRP3 inflammasome, Pulmonary hypertension, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Background Metabolic abnormalities and immune inflammation are deeply involved in pulmonary vascular remodelling and the development of pulmonary hypertension (PH). However, the regulatory mechanisms of glycolysis in macrophages are still elusive. Cumulative evidence indicates that β-catenin plays a crucial role in metabolic reprogramming. This study aimed to investigate the effect of β-catenin on macrophage glycolysis in PH. Methods LPS-induced BMDMs were generated via in vitro experiments. A monocrotaline (MCT)-induced PH rat model was established, and the β-catenin inhibitor XAV939 was administered in vivo. The role of β-catenin in glycolysis was analysed. The degree of pulmonary vascular remodelling was measured. Results β-catenin was significantly increased in both in vitro and in vivo models. In LPS-induced BMDMs, β-catenin increased the levels of hexokinase 2 (HK2), phosphofructokinase (PFK), M2-pyruvate kinase (PKM2), lactate dehydrogenase (LDH), and lactate (LA) and the expression of inflammatory cytokines and promoted PASMC proliferation and migration in vitro. XAV939 decreased the level of glycolysis and downregulated the expression of inflammatory cytokines in vivo. MCT promoted pulmonary arterial structural remodelling and right ventricular hypertrophy, and XAV939 alleviated these changes. Conclusions Our findings suggest that β-catenin is involved in the development of PH by promoting glycolysis and the inflammatory response in macrophages. Inhibition of β-catenin could improve the progression of PH.

Published

2024

49. C-MYC-activated lncRNA SNHG20 accelerates the proliferation of diffuse large B cell lymphoma via USP14-mediated deubiquitination of β-catenin

Author

Chaoyu Wang, Wen Fu, Youju Zhang, Xiaoge Hu, Qiuran Xu, and Xiangmin Tong

Subjects

DLBCL, SNHG20, c-MYC, USP14, Β-catenin, Biology (General), QH301-705.5

Abstract

Abstract Background Long noncoding RNAs (lncRNAs) are implicated in the initiation and progression of diffuse large B-cell lymphoma (DLBCL). Small nucleolar RNA host gene 20 (SNHG20) has been recognized as a critical lncRNA in multiple human cancers. However, the role of SNHG20 and its underlying mechanism in DLBCL are still unclear. Methods The expression levels of SNHG20, c-MYC, β-catenin, and ubiquitin-specific peptidase 14 (USP14) were measured by reverse transcription-quantitative polymerase chain reaction (RT‒qPCR) and immunoblotting. Cell Counting Kit-8 (CCK-8), 5-Ethynyl-2′-deoxyuridine (EdU) incorporation, and flow cytometry assays were used to assess the proliferation and apoptosis of DLBCL cells. The transcriptional regulation of SNHG20 by c-MYC was confirmed by a luciferase reporter assay and RNA immunoprecipitation. The interaction between USP14 and β-catenin was demonstrated using coimmunoprecipitation. A subcutaneous xenograft model was constructed to determine the role of SNHG20 in vivo. Results In the present study, we found that SNHG20 expression was upregulated in DLBCL cell lines and tissues compared to their normal counterparts. SNHG20 knockdown prominently reduced the proliferation and induced the apoptosis of U2932 and OCI-LY3 cells. However, SNHG20 overexpression increased the proliferation and apoptosis resistance of DLBCL cells. Mechanistically, the expression of SNHG20 was positively regulated by c-MYC in DLBCL cells. C-MYC directly bound to the promoter of SNHG20 to activate its transcription. SNHG20 was expressed mainly in the cytosol in DLBCL cells. SNHG20 silencing did not impact USP14 expression but markedly decreased the level of β-catenin, the substrate of USP14, in DLBCL cells. USP14 overexpression increased the β-catenin level, and this increase was attenuated by SNHG20 knockdown. Treatment with the proteasome inhibitor MG132 abolished SNHG20 knockdown-induced β-catenin downregulation. Moreover, SNHG20 silencing reduced the half-life but increased the ubiquitination of β-catenin in DLBCL cells. SNHG20 knockdown weakened the interaction between both endogenous and exogenous USP14 and β-catenin. In turn, SNHG20 overexpression increased the c-MYC level, and this increase was attenuated by β-catenin knockdown. Importantly, β-catenin knockdown attenuated the SNHG20-mediated increase in DLBCL cell proliferation in vitro and tumour growth in vivo. Conclusions Taken together, our results suggested that c-MYC-activated SNHG20 accelerated the proliferation and increased the apoptosis resistance of DLBCL cells via USP14-mediated deubiquitination of β-catenin. The c-MYC/SNHG20 positive feedback loop may be a new target for anti-DLBCL treatment.

Published

2024

50. SUMO3 inhibition by butyric acid suppresses cell viability and glycolysis and promotes gemcitabine antitumor activity in pancreatic cancer.

Author

Zhu, Liming, Chen, Gang, Huang, Changjing, Gao, Huifeng, Wang, Yilin, and Shen, Yehua

Subjects

*BUTYRIC acid, *PANCREATIC cancer, *HISTONE acetylation, *CELL survival, *GENETIC transcription

Abstract

Background: Excavation of key molecules can help identify therapeutic targets and improve the prognosis of pancreatic cancer. This study evaluated the roles of SUMO3 in cell viability, glycolysis, gemcitabine (GEM) sensitivity, and the antitumor activity of butyric acid (BA) in pancreatic cancer. Methods: The mRNA and protein levels of SUMO3 were detected by qRT-PCR, Western blot, and immunohistochemical assay. SUMO3 was silenced or overexpressed in pancreatic cancer cells with or without Wnt/β-catenin pathway inhibitor, glycolysis inhibitor, GEM, or BA treatment. Cell viability was measured using the Cell Counting Kit-8 assay. Glycolysis was measured by determining the extracellular acidification rate, ATP level, and lactate content. Apoptosis was measured by flow cytometry, and TUNEL staining was used to examine in vitro and in vivo sensitivity to GEM chemotherapy. Luciferase reporter and chromatin immunoprecipitation assays were conducted to detect the binding of the SUMO3 promoter and NF-κB p65. Results: SUMO3 was increased and associated with poor survival in pancreatic cancer. SUMO3 knockdown decreased cell viability and glycolysis in vitro and inhibited tumor growth in vivo. SUMO3 overexpression increased cell viability and glycolysis in vitro through the β-catenin pathway. SUMO3 knockdown increased GEM sensitivity, whereas SUMO3 overexpression decreased GEM sensitivity and inhibited the antitumor activity of BA. BA promoted histone acetylation and p-IκBα expression to inhibit NF-κB p65-mediated SUMO3 transcription. Conclusion: SUMO3 acted as an active molecule in cell survival and growth by enhancing glycolysis in response to either GEM or BA. The mechanism was related to the constitutive IκBα/NF-κB/SUMO3/β-catenin signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024