Mapping a Circular RNA–microRNA–mRNA-Signaling Regulatory Axis that Modulates Stemness Properties of Cancer Stem Cell Populations in Colorectal Cancer Spheroid Cells

Rengganaten, Vimalan; Huang, Chiu Jung; Tsai, Ping-Hsing; Wang, Mong‐Lien; Yang, Yi; Lan, Yuan Tzu; Fang, Wen Liang; Soo, Shelly; Ong, Hooi Tin; Cheong, Soon Keng; Choo, Kong‐Bung; Chiou, Shih Hwa

doi:10.3390/ijms21217864

Cited by 31 publications

(21 citation statements)

References 101 publications

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“…Due to the similarities between ALK7, ALK4, and ALK5 discussed above, over-expression of ALK7 will result in activation of pathways that are common to all these receptors, hence not possible to exclusively ascribe to endogenously expressed ALK7. Several microRNAs with effects on proliferation, apoptosis, or invasion of cancer cells have also been reported to target the mRNA encoding ALK7, including miR-382 and miR-548c-3p [53], miR-23b [43], miR-454 [54], and miR-376c [55]. However, these microRNAs have multiple target genes, including other TGF-b superfamily receptors [56], and hence, the specific contribution of ALK7 to the effects reported following microRNA overexpression or knock-down remains unclear.…”

Section: Alk7: An Activin Receptor In Endocrine Tissuesmentioning

confidence: 99%

Regulation of metabolic homeostasis by the TGF‐β superfamily receptor ALK7

Ibáñez

2021

The FEBS Journal

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superfamily predominantly expressed by cells and tissues involved in endocrine functions, such as neurons of the hypothalamus and pituitary, pancreatic bcells and adipocytes. Recent studies have begun to delineate the processes regulated by ALK7 in these tissues and how these become integrated with the homeostatic regulation of mammalian metabolism. The picture emerging indicates that ALK7's primary function in metabolic regulation is to limit catabolic activities and preserve energy. Aside of the hypothalamic arcuate nucleus, the function of ALK7 elsewhere in the brain, particularly in the cerebellum, where it is abundantly expressed, remains to be elucidated. Although our understanding of the basic molecular events underlying ALK7 signaling has benefited from the vast knowledge available on TGF-b receptor mechanisms, how these connect to the physiological functions regulated by ALK7 in different cell types is still incompletely understood. Findings of missense and nonsense variants in the Acvr1c gene, encoding ALK7, of some mouse strains and human subjects indicate a tolerance to ALK7 loss of function. Recent discoveries suggest that specific inhibitors of ALK7 may have therapeutic applications in obesity and metabolic syndrome without overt adverse effects.

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Section: Alk7: An Activin Receptor In Endocrine Tissuesmentioning

confidence: 99%

Regulation of metabolic homeostasis by the TGF‐β superfamily receptor ALK7

Ibáñez

2021

The FEBS Journal

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“…In chronic lymphocytic leukemia (CLL) cells, circ-CBFB indirectly upregulates Fzd3 expression and downstream Wnt/β-catenin signaling by inhibiting miR-607 ( Xia et al, 2018 ). Similar mechanisms were observed in CRC spheroid cells where circ_0082096 and circ_006631 upregulate Fzd3 expression by inhibiting miR382, miR-579, miR-224, and miR-548c ( Rengganaten et al, 2020 ). CircRNA_100290 also influences colorectal carcinoma (CRC) by inhibiting miR-516b in CRC cells, indirectly upregulating Fzd4 and the Wnt/β-catenin pathway ( Fang et al, 2018 ).…”

Section: Circular Rnamentioning

confidence: 53%

Non-Coding RNA and Frizzled Receptors in Cancer

Smith

Sompel

Elango

et al. 2021

Front. Mol. Biosci.

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Frizzled receptors have been long recognized for their role in Wnt/β-catenin signaling, a pathway known for its tumorigenic effects. More recent studies of frizzled receptors include efforts to understand non-coding RNA (ncRNA) regulation of these receptors in cancer. It has become increasingly clear that ncRNA molecules are important for regulating the expression of both oncogenic and tumor-suppressive proteins. The three most commonly described ncRNA molecules are microRNAs (miRNAs), long non-coding RNAs (lncRNAs), and circular RNAs (circRNAs). Here, we review ncRNA molecules that directly or indirectly affect frizzled protein expression and downstream signaling. Exploring these interactions highlights the potential of incorporating ncRNA molecules into cancer prevention and therapy strategies that target frizzled receptors. Previous investigations of frizzled receptors and ncRNA have established strong promise for a role in cancer progression, but additional studies are needed to provide the substantial pre-clinical evidence required to translate findings to clinical applications.

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“…Of these, the top three with the highest degree score of DEcircRNAs included hsa_circ_0031583, hsa_circ_0008197, and hsa_circ_0036627. A ceRNA network mediated via DEcircRNAs modulated histological classi cations and gastric cancer progression (29) and the stemness properties of colorectal cancer stem cells (30). No report has shown that hsa_circ_0031583, hsa_circ_0008197, and hsa_circ_0036627 affected tumor progression.…”

Section: Discussionmentioning

confidence: 99%

Pepsinogen C expression–related lncRNA/circRNA/mRNA profile and its co-mediated ceRNA network in gastric cancer

Yan

Ding

Shen

et al. 2021

Funct Integr Genomics

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BackgroundThe expression of pepsinogen C (PGC) is considered an ideal negative biomarker of gastric cancer, but its pathological mechanisms remain unclear. This study aims to analyze competing endogenous RNA (ceRNA) networks related to PGC expression at a posttranscriptional level and build an experimental basis for studying the role of PGC in the progression of gastric cancer. Materials and methodsRNA sequencing technology was used to detect the differential expression pro les of PGC-related long non-coding (lnc)RNAs, circular (circ)RNAs, and mRNAs. The online database, STRING, was used to construct protein-protein interaction (PPI) networks of differentially expressed (DE) mRNAs. A ggcorrplot R package and online database were used to construct DElncRNAs/DEcircRNAs co-mediated PGC expression-related ceRNA networks. In vivo and in vitro validations were performed using quantitative reverse transcription-PCR. ResultsRNA sequencing found 637 DEmRNAs, 698 DElncRNAs, and 38 DEcircRNAs. The PPI network of PGC expression-related mRNAs consisted of 503 nodes and 1179 edges. CFH, PPARG, and MUC6 directly interacted with PGC. Enrichment analysis suggested that DEmRNAs were mainly enriched in cancer-related pathways. Eleven DElncRNAs, 13 circRNAs, and 35 miRNA-mRNA pairs were used to construct ceRNA networks co-mediated by DElncRNAs and DEcircRNAs that were PGC expression-related. The network directly related to PGC was as follows: SNHG16/hsa_circ_0008197-hsa-mir-98-5p/hsa-let-7f-5p/hsa-let-7c-5p-PGC. Quantitative reverse transcriptase PCR validation results showed that PGC, PPARG, SNHG16, and hsa_circ_0008197 were differentially expressed in gastric cancer cells and

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Mapping a Circular RNA–microRNA–mRNA-Signaling Regulatory Axis that Modulates Stemness Properties of Cancer Stem Cell Populations in Colorectal Cancer Spheroid Cells

Cited by 31 publications

References 101 publications

Regulation of metabolic homeostasis by the TGF‐β superfamily receptor ALK7

Regulation of metabolic homeostasis by the TGF‐β superfamily receptor ALK7

Non-Coding RNA and Frizzled Receptors in Cancer

Pepsinogen C expression–related lncRNA/circRNA/mRNA profile and its co-mediated ceRNA network in gastric cancer

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