Targeting FAT1 Inhibits Carcinogenesis, Induces Oxidative Stress and Enhances Cisplatin Sensitivity through Deregulation of LRP5/WNT2/GSS Signaling Axis in Oral Squamous Cell Carcinoma

Hsu, Tung Nien; Huang, Chih Ming; Huang, Chin Sheng; Huang, Maosong; Yeh, Chi Tai; Chao, Tsu Yi; Bamodu, Oluwaseun Adebayo

doi:10.3390/cancers11121883

Cited by 32 publications

(33 citation statements)

References 41 publications

(32 reference statements)

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“…Additionally, NHP2 and RPS19BP1 , both involved in ribosome biosynthesis, are upregulated in a large proportion of T2D β-cells as is the Alzheimer's disease risk gene PLD3 , a lysosomal enzyme associated with amyloid formation [ 69 ], which could be relevant to the characteristic amyloid formation in diabetic islets [ 70 ]. Finally, SRA1 , a steroid receptor transcription coactivator and long non-coding RNA, and FAT1 , a member of the cadherin superfamily involved in adhesion and signalling [ 71 ] are re-activated to newborn state expression levels (5.8 and 4.9 fold higher in newborn and T2D than ND adult, respectively) ( Figure S2A ). The function of most of these age-regulated genes in β-cells and the contribution of their dysregulation to dysfunction in the diabetic state has yet to be determined.…”

Section: Resultsmentioning

confidence: 99%

Single-cell transcriptomics of human islet ontogeny defines the molecular basis of β-cell dedifferentiation in T2D

Avrahami

Wang

Schug

et al. 2020

Molecular Metabolism

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Objective Dedifferentiation of pancreatic β-cells may reduce islet function in type 2 diabetes (T2D). However, the prevalence, plasticity and functional consequences of this cellular state remain unknown. Methods We employed single-cell RNAseq to detail the maturation program of α- and β-cells during human ontogeny. We also compared islets from non-diabetic and T2D individuals. Results Both α- and β-cells mature in part by repressing non-endocrine genes; however, α-cells retain hallmarks of an immature state, while β-cells attain a full β-cell specific gene expression program. In islets from T2D donors, both α- and β-cells have a less mature expression profile, de-repressing the juvenile genetic program and exocrine genes and increasing expression of exocytosis, inflammation and stress response signalling pathways. These changes are consistent with the increased proportion of β-cells displaying suboptimal function observed in T2D islets. Conclusions These findings provide new insights into the molecular program underlying islet cell maturation during human ontogeny and the loss of transcriptomic maturity that occurs in islets of type 2 diabetics.

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Section: Resultsmentioning

confidence: 99%

Single-cell transcriptomics of human islet ontogeny defines the molecular basis of β-cell dedifferentiation in T2D

Avrahami

Wang

Schug

et al. 2020

Molecular Metabolism

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“…Nitrogen acquisition and utilization have essential effects on cancer and immunity [62]. Oxidative stress and its induced oxidative damage are important factors in OSCC formation and development [63,64], which provided another insight into the mechanism of SBG in the treatment of OSCC.…”

Section: Discussionmentioning

confidence: 99%

Exploring the Mechanism of Scutellaria baicalensis Georgi Efficacy against Oral Squamous Cell Carcinoma Based on Network Pharmacology and Molecular Docking Analysis

Hou

Liu

Cheng

et al. 2021

Evidence-Based Complementary and Alternative Medicine

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Background. Scutellaria baicalensis Georgi (SBG) has been widely shown to induce apoptosis and inhibit invasion and migration of various cancer cells. Increased evidence shows that SBG may be useful to treat oral squamous cell carcinoma (OSCC). However, the biological activity and possible mechanisms of SBG in the treatment of OSCC have not been fully elucidated. This study aimed to clarify the bioactive component and multitarget mechanisms of SBG against OSCC using network pharmacology and molecular docking. Methods. Traditional Chinese Medicine Systems Pharmacology (TCMSP) database was used to predict the active components in SBG, and putative molecular targets of SBG were identified using the Swiss Target Prediction database. OSCC-related targets were screened by GeneCards, Online Mendelian Inheritance in Man (OMIM), and Therapeutic Target Database (TTD). Then, we established protein-protein interaction (PPI), compound-target-disease (C-T-D), and compound-target-pathway (C-T-P) networks by Cytoscape to identify the main components, core targets, and pharmacological pathways of SBG against OSCC via applying data mining techniques and topological parameters. Metascape database was utilized for Gene Ontology (GO) and pathway enrichment analysis. The potential interaction of the main components with core targets was revealed by molecular docking simulation, and for the correlation between core targets and OSCC prognosis analysis, the Kaplan–Meier Plotter online database was used. Results. There were 25 active compounds in SBG and 86 genes targeted by OSCC. A total of 141 signaling pathways were identified, and it was found that the PI3K-Akt signaling pathway may occupy core status in the anti-OSCC system. GO analysis revealed that the primary biological processes were related to apoptosis, proliferation, and migration. Molecular docking results confirmed that core targets of OSCC had a high affinity with the main compounds of SBG. Conclusion. Our study demonstrated multicomponent, multitarget, and multipathway characteristics of SBG in the treatment of OSCC and provided a foundation for further drug development research.

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“…Normal human gingival broblasts (HGFs #PCS-201-018, American Type Culture Collection, Manassas, VA) were cultured in DMEM (#D6429, Sigma-Aldrich, St. Louis, MO) with 10% FBS at 37 °C in a humidi ed atmosphere of 5% CO2. 11 The cells were cultured until 70% con uence on 100-mm diameter culture dishes and then transferred to 6-well at-bottom culture plates to perform the following experiments.…”

Section: Cell Culturementioning

confidence: 99%

Analysis of cellular senescence in gingival tissues and gingival fibroblast cultures

Furukawa¹,

Matsuda²,

Kurosawa³

et al. 2020

Preprint

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Senescence in periodontal tissues may be involved in the pathogenesis of periodontitis. In this study, we analyzed cellular senescence in gingival tissues of aged mice and in gingival fibroblast cultures and investigated the relationship of cellular senescence with the pathogenesis of periodontal disease. The proportions of senescence-associated β-galactosidase (SA-β-gal)-positive cells and the mRNA expression levels of p16 and p21 in gingival tissues and gingival fibroblasts from 20-month-old mice were significantly higher than those in gingival tissues and gingival fibroblasts from 10-week-old mice. The mRNA expression levels of IL-1β and TNF-α as well as the numbers of total macrophages and M1 macrophages were increased in gingival tissues of aged mice. Expression of these senescence-associated molecules was also increased in long-term passaged or hydrogen peroxide-stimulated human gingival fibroblasts; however, it was significantly suppressed by treatment with the senolytic drug ABT-263. These results suggest that cellular senescence can be induced in gingival fibroblasts in culture as was observed in gingival tissues of aged mice. An increase in senescent cells in the gingiva may be associated with the pathogenesis of periodontitis in part through activating an inflammatory response in periodontal tissues.

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Targeting FAT1 Inhibits Carcinogenesis, Induces Oxidative Stress and Enhances Cisplatin Sensitivity through Deregulation of LRP5/WNT2/GSS Signaling Axis in Oral Squamous Cell Carcinoma

Cited by 32 publications

References 41 publications

Single-cell transcriptomics of human islet ontogeny defines the molecular basis of β-cell dedifferentiation in T2D

Single-cell transcriptomics of human islet ontogeny defines the molecular basis of β-cell dedifferentiation in T2D

Exploring the Mechanism of Scutellaria baicalensis Georgi Efficacy against Oral Squamous Cell Carcinoma Based on Network Pharmacology and Molecular Docking Analysis

Analysis of cellular senescence in gingival tissues and gingival fibroblast cultures

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