YYFZBJS inhibits colorectal tumorigenesis by remodeling gut microbiota and influence on M2 macrophage polarization in vivo and in vitro

xlomafota13 shared this article with you from Inoreader YYFZBJS inhibits colorectal tumorigenesis by remodeling gut microbiota and influence on M2 macrophage polarization <em>in vivo</em> and <em>in vitro</em> Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5338-5357. eCollection 2021. ABSTRACT Our previous studies indicated that the extract of Yi-Yi-Fu-Zi-Bai-Jiang-San (YYFZBJS) had potent anticancer activities by significantly inhibiting intestinal tumor development in ApcMin/+ mice. However, knowledge regarding the mechanism and effect of YYFZBJS in the prevention of colorectal cancer is limited. In this study, we aim to investigate the preventive effects of YYFZBJS in enterotoxigenic Bacteroides fragilis (ETBF)-colonized mice with azoxymethane (AOM)/dextran sulfate sodium (DSS)-induced tumorigenesis. First, the colonic tissues of the AOM/DSS mouse models were collected for biomedical analysis, and gut microbiota profiling was detected post YYFZBJS treatment using a 16S rRNA gene sequencing. Then, antibiotic solution (Abx) mice were acclimated with AOM/DSS treatment and then fed with ETBF with or without YYFZBJS for three cyc les. As expected, the intragastric administration of YYFZBJS in the AOM/DSS mouse model significantly decreased the tumor load, the severity of disease activity index (DAI) scores, and the level of M2 macrophage markers such as CD206, Arg-1 and IL-10. Notably, the reverse of polarized macrophages induced by YYFZBJS could suppress CRC cell proliferation and infiltration, as demonstrated by the decrease of some tumor proliferation-related proteins in a dose-dependent manner. Importantly, ETBF dysbiosis can contribute to colon tumor development by stimulating p-STAT3 mediated M2 macrophages polarization to promote chronic inflammation and adenoma malignant transformation, which YYFZBJS can effectively limit. Altogether, we demonstrate that ETBF dysbiosis may contribute to M2 macrophages-promoted colon carcinogenesis and progression of CRC cells, while YYFZBJS could be a promising protective agent against ETBF-mediated colorectal cancer. PMID:34873464 | PMC:PMC8640793 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

Highly potent dopamine receptor D2 antagonist ONC206 demonstrates anti-tumorigenic activity in endometrial cancer

xlomafota13 shared this article with you from Inoreader Highly potent dopamine receptor D2 antagonist ONC206 demonstrates anti-tumorigenic activity in endometrial cancer Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5374-5387. eCollection 2021. ABSTRACT Endometrial cancer (EC) is a highly obesity-driven cancer, with limited treatment options. ONC201 is an imipridone that selectively antagonizes the G protein-coupled receptors dopamine receptor D2 and D3 (DRD2/3) and activates human mitochondrial caseinolytic protease P (ClpP). It is a promising first-in-class small molecule that has been reported to have anti-neoplastic activity in various types of cancer through induction of the integrated stress response (ISR) as well as through stimulation of tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) and subsequent induction of apoptosis. ONC201 is being evaluated in Phase II clinical trials for solid tumors and hematological malignancies, including EC. ONC206 is an analog of ONC201 with nanomolar potency in Phase I clinical trials. This study evaluated the anti-tumor efficacy of ONC206 in EC cell lines and the Lkb1fl/flp53fl/fl genetically engineered mouse model of endometrioid EC. ONC206 revealed greater potency than ONC201 in the inhibition of proliferation in EC cell lines, with IC50 concentration ranges of 0.21-0.32 µM for ONC026 versus 2.14-3.53 µM for ONC201. ONC206 induced cellular stress, apoptosis and cell cycle G1 arrest, accompanied by inhibition of the AKT/mTOR/S6 pathways in EC cells. Diet-induced obesity accelerated tumor growth in Lkb1fl/flp53fl/fl mice. ONC206 inhibited EC tumor size and weight in both obese and lean mice after 4 weeks of treatment. Treatment with ONC206 led to a decrease in expression of Ki67, BCL-XL and phosphorylation of S6, as well as an increase in ClpP in endometrial tumors under both obese and lean conditions. Overall, the pre-clinical efficacy of ONC206 is promising and worthy of further exploration in clinical trials for endometrioid EC. PMID:34873466 | PMC:PMC8640798 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

Genome-wide identification of m6A-associated functional SNPs as potential functional variants for thyroid cancer

xlomafota13 shared this article with you from Inoreader Genome-wide identification of m6A-associated functional SNPs as potential functional variants for thyroid cancer Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5402-5414. eCollection 2021. ABSTRACT m6A methylation has been demonstrated to be one of the most important epigenetic regulation mechanisms in cell differentiation and cancer development especially m6A derived diagnostic and prognostic biomarkers have been identified in the past several years. However, systemic investigation to the interaction between germline single-nucleotide polymorphisms (SNPs) and m6A has not been conducted yet. In this study, we collected previous identified significant thyroid cancer associated SNPs from UKB cohort (358 cases and 407,399 controls) and ICR cohort (3,001 patients and 287,550 controls) and thyroid eQTL (sample size = 574 from GTEx project) and m6A-SNP (N = 1,678,126) were applied to prioritize the candidate SNPs. Finally, five candidate genes (PLEKHA8, SMUG1, CDC123, RMI2, ACSM5) were identified to be thyroid cancer associated m6A-related genetic suscepti bility. Loss and gain function studies of m6A writer proteins confirm that ACSM5 is regulated by m6A methylation of mRNA. Moreover, ACSM5 is downregulated in thyroid cancer and inversely correlated with PTC malignancy and patient survival. Together, our study highlight mRNA-seq and m6A-seq double analysis provided a novel approach to identify cancer biomarkers and understanding the heterogeneity of human cancers. PMID:34873468 | PMC:PMC8640822 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

Genome-wide identification of m6A-associated functional SNPs as potential functional variants for thyroid cancer

xlomafota13 shared this article with you from Inoreader Genome-wide identification of m6A-associated functional SNPs as potential functional variants for thyroid cancer Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5402-5414. eCollection 2021. ABSTRACT m6A methylation has been demonstrated to be one of the most important epigenetic regulation mechanisms in cell differentiation and cancer development especially m6A derived diagnostic and prognostic biomarkers have been identified in the past several years. However, systemic investigation to the interaction between germline single-nucleotide polymorphisms (SNPs) and m6A has not been conducted yet. In this study, we collected previous identified significant thyroid cancer associated SNPs from UKB cohort (358 cases and 407,399 controls) and ICR cohort (3,001 patients and 287,550 controls) and thyroid eQTL (sample size = 574 from GTEx project) and m6A-SNP (N = 1,678,126) were applied to prioritize the candidate SNPs. Finally, five candidate genes (PLEKHA8, SMUG1, CDC123, RMI2, ACSM5) were identified to be thyroid cancer associated m6A-related genetic suscepti bility. Loss and gain function studies of m6A writer proteins confirm that ACSM5 is regulated by m6A methylation of mRNA. Moreover, ACSM5 is downregulated in thyroid cancer and inversely correlated with PTC malignancy and patient survival. Together, our study highlight mRNA-seq and m6A-seq double analysis provided a novel approach to identify cancer biomarkers and understanding the heterogeneity of human cancers. PMID:34873468 | PMC:PMC8640822 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

Dual anticancer role of metformin: an old drug regulating AMPK dependent/independent pathways in metabolic, oncogenic/tumorsuppresing and immunity context

xlomafota13 shared this article with you from Inoreader Dual anticancer role of metformin: an old drug regulating AMPK dependent/independent pathways in metabolic, oncogenic/tumorsuppresing and immunity context Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5625-5643. eCollection 2021. ABSTRACT Metformin has been known to treat type 2 diabetes for decades and is widely prescribed antidiabetic drug. Recently, its anticancer potential has also been discovered. Moreover, metformin has low cost thus it has attained profound research interest. Comprehensing the complexity of the molecular regulatory networks in cancer provides a mode for advancement of research in cancer development and treatment. Metformin targets many pathways that play an important role in cancer cell survival outcome. Here, we described anticancer activity of metformin on the AMPK dependent/independent mechanisms regulating metabolism, oncogene/tumor suppressor signaling pathways together with the issue of clinical studies. We also provided brief overwiev about recently described metformin's role in cancer immunity. Insight in these complex molecular networks, will simplify application o f metformin in clinical trials and contribute to improvement of anti-cancer therapy. PMID:34873484 | PMC:PMC8640802 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

New insights into the functions of progesterone receptor (PR) isoforms and progesterone signaling

xlomafota13 shared this article with you from Inoreader New insights into the functions of progesterone receptor (PR) isoforms and progesterone signaling Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5214-5232. eCollection 2021. ABSTRACT Progesterone, the ovarian steroid hormone, regulates a plentitude of biological processes in tissues ranging from the brain to bones. Recognizing the role of progesterone and its receptors in physiological processes and maladies can prevent and treat various diseases. Apart from its physiological functions, its role in developing diseases, especially breast cancer, is a recent topic of deliberation. There exists conflicting experimental and epidemiological evidence linking progesterone to breast cancer. This review tries to describe the physiological functions of progesterone and its receptors, genomic and non-genomic signaling, splice variants, and a different aspect of progesterone signaling. Furthermore, we seek to address or attempt to discuss the following pertinent questions on steroid hormone signaling; How does progesterone influence breast cancer progres sion? How does it change the molecular pathways in breast cancer with different receptor statuses, the specific role of each isoform, and how does the ER/and PR ratio affect progesterone signaling? PMID:34873457 | PMC:PMC8640821 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

DNA methylation markers in esophageal cancer: an emerging tool for cancer surveillance and treatment

xlomafota13 shared this article with you from Inoreader DNA methylation markers in esophageal cancer: an emerging tool for cancer surveillance and treatment Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5644-5658. eCollection 2021. ABSTRACT Esophageal carcinoma (EC) is one of the most pervasive cancers in the world, with upwards of 500,000 new diagnoses, annually. Despite its prominence, advancements in the detection and treatment of EC have been marginal over the past 30 years and the survival rate continues to stay below 20%. This is due to the uncommonly heterogeneous presentation of EC which presents unprecedented challenges in improving patient survival and quality of care. However, distinct epigenetic alterations to the DNA methylome may provide an avenue to drastically improve the detection and treatment of EC. Specifically, the creation of novel biomarker panels that consist of EC-specific methylation markers have shown promise as a potential alternative to the more invasive, contemporary diagnostic methods. Additionally, growing insight into the biological and clinical properties of EC-spec ific methylation patterns have opened a window of opportunity for enhanced treatment; of growing interest is the application of "DNMT inhibitors" - a class of drugs which inhibit excessive methylation and have been shown to re-sensitize chemoresistant tumors. Here we provide a comprehensive review of the current advancements in EC DNA methylation to underscore a potential approach to its detection and treatment. PMID:34873485 | PMC:PMC8640794 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

m6A methyltransferase METTL3 promotes oral squamous cell carcinoma progression through enhancement of IGF2BP2-mediated SLC7A11 mRNA stability

xlomafota13 shared this article with you from Inoreader m<sup>6</sup>A methyltransferase METTL3 promotes oral squamous cell carcinoma progression through enhancement of IGF2BP2-mediated SLC7A11 mRNA stability Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5282-5298. eCollection 2021. ABSTRACT As the key enzyme of the N6-methyladenosine (m6A) in eukaryotic messenger RNA, METTL3 plays an important role in tumor progression, but the exact mechanism by which METTL3 controls oral squamous cell carcinoma (OSCC) progression remains unclear. In this study, METTL3 expression in OSCC samples was analyzed by qPCR and immunohistochemistry. The effects of METTL3 suppression on OSCC cell lines were measured by CCK-8, Ki67 flow cytometry analysis, invasion transwell and wound healing assays. MeRIP-seq and RNA-seq analyses were performed to explore target gene of METTL3. RIP-qPCR and RNA stability assays were performed to explore the mechanism by which METTL3 regulated the target genes. Triptolide was used to evaluate its specific treatment effects on METTL3 in OSCC cells. BALB/c nude mice were used to establish orthotopic and subcutaneous xenograft models to verify the in vitro results. The results showed that METTL3 was upregulated in OSCC tissues compared with OSCC adjacent normal tissues, and its expression was associated with T stage, lymphatic metastasis and prognosis. METTL3 suppression impaired OSCC cells proliferation, invasion, and migration. MeRIP-seq and RNA-seq analysis identified that SLC7A11 mRNA was the m6A target of METTL3, which was verified by meRIP-qPCR, qPCR and western blot. METTL3 depletion decreased the stability of SLC7A11 mRNA, and IGF2BP2 as m6A reader was involved in this process. Moreover, METTL3 knockdown attenuated the binding between SLC7A11 mRNA and IGF2BP2, finally leading to accelerate SLC7A11 mRNA degradation. Triptolide inhibited METTL3-mediated SLC7A11 expression, thus suppressing malignancy of OSCC cells. In conclusion, the new finding of the manuscript is that METTL3 enhances the mRNA stability of SLC7A11 via m6A-mediated binding of IGF2BP2, which thus pr omotes OSCC progression, and triptolide inhibits OSCC by suppressing METTL3-SLC7A11 axis. Triptolide has a potential to be as an effective anti-OSCC drug targeted to METTL3. PMID:34873461 | PMC:PMC8640804 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

Targeting the oncogenic TBX3:nucleolin complex to treat multiple sarcoma subtypes

xlomafota13 shared this article with you from Inoreader Targeting the oncogenic TBX3:nucleolin complex to treat multiple sarcoma subtypes Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5680-5700. eCollection 2021. ABSTRACT Sarcomas are diverse cancers of mesenchymal origin, with compromised clinical management caused by insufficient diagnostic biomarkers and limited treatment options. The transcription factor TBX3 is upregulated in a diverse range of sarcoma subtypes, where it plays a direct oncogenic role, and it may thus represent a novel therapeutic target. To identify versatile ways to target TBX3, we performed affinity purification coupled by mass spectrometry to identify putative TBX3 protein cofactors that regulate its oncogenic activity in sarcomas. Here we identify and validate the multifunctional phosphoprotein nucleolin as a TBX3 cofactor. We show that nucleolin is co-expressed with TBX3 in several sarcoma subtypes and their expression levels positively correlate in sarcoma patients which are associated with poor prognosis. Furthermore, we demonstrate that nucleolin and TBX3 interact in chondrosarcoma, liposarcoma and rhabdomyosarcoma cells where they act together to enhance proliferation and migration and regulate a common set of tumor suppressor genes. Importantly, the nucleolin targeting aptamer, AS1411, exhibits selective anti-cancer activity in these cells and mislocalizes TBX3 and nucleolin to the cytoplasm which correlates with the re-expression of the TBX3/nucleolin target tumor suppressors CDKN1A (p21CIP1) and CDKN2A (p14ARF). Our findings provide the first evidence that TBX3 requires nucleolin to promote features of sarcomagenesis and that disruption of the oncogenic TBX3-nucleolin interaction by AS1411 may be a novel approach for treating sarcomas. PMID:34873487 | PMC:PMC8640805 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

RPL35 promotes neuroblastoma progression via the enhanced aerobic glycolysis

xlomafota13 shared this article with you from Inoreader RPL35 promotes neuroblastoma progression via the enhanced aerobic glycolysis Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5701-5714. eCollection 2021. ABSTRACT Neuroblastoma (NB) is an rare type of tumor that almost affects children age 5 or younger due to its rapid proliferation ability. The overall survival rate of patients with advanced NB is not satisfactory. Ribosomal proteins (RPs) play a critical role in the development and progress of cancer. However, the contribution of RPL35 in NB has not been proven. In this study, we reveal that RPL35 is upregulated in NB tissues and the upregulation of RPL35 promotes proliferation and migration of NB while RPL35 knockdown significantly restrained the proliferation of NB cells. In terms of mechanism, glycolysis was decreased and the mitochondrial respiration was increased with knockdown of RPL35 in NB cells, indicating that RPL35 function as a positive regulator in aerobic glycolysis. Importantly, our data indicated that RPL35 deficiency decreased HIF1α expression both in m RNA and protein levels. Western blot analysis showed that RPL35 knockdown has a negative regulatory effect on the ERK pathway, and RPL35 modulated aerobic glycolysis in part through its regulation of the RPL35/ERK/HIF1α axis. Overall, RPL35 functions as a positive regulator of aerobic glycolysis, and the RPL35/ERK/HIF1α axis could be a potential therapeutic target for the therapy of NB. PMID:34873488 | PMC:PMC8640819 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.

From development to cancer - an ever-increasing role of AGR2

xlomafota13 shared this article with you from Inoreader From development to cancer - an ever-increasing role of AGR2 Via American Journal of Cancer Research Am J Cancer Res. 2021 Nov 15;11(11):5249-5262. eCollection 2021. ABSTRACT Anterior gradient 2, AGR2, is a small, 20 kDa protein that plays a vital role in oxidative protein folding in the endoplasmic reticulum. AGR2 is involved in several signal transduction pathways that are essential for cell survival. It was initially discovered in the African clawed frog, Xenopus laevis, where it plays an important function in embryonic development. Akin to several other developmental genes, it is also frequently deregulated in cancer, where it plays a decisive role in tumor initiation, progression and metastasis. In this review, we have summarized currently known AGR2 functions, its expression and function in embryonic and cancer development, as well as its potential as a candidate tumor biomarker and promising new target for cancer immunotherapy. PMID:34873459 | PMC:PMC8640830 View on the web Inoreader. Take back control of your news feed. Follow us on Twitter and Facebook.