Epigenetic changes play significant roles in the development of cancer. UHRF1, as an epigenetic regulator, has been shown to be overexpressed and to coordinate tumor suppressor gene silencing in several cancers. However, the role and underlying mechanism of UHRF1 in gastric cancer (GC) progression remain largely unknown. In this study, we investigated the expression and function of UHRF1 in GC metastasis and explored its upstream regulatory mechanisms at the microRNA level. UHRF1 was overexpressed in GC tissues, especially in metastatic ones, and a high level of UHRF1 expression predicted poor survival. The down-regulation of UHRF1 suppressed GC invasion and metastasis in vitro and in vivo. We identified and verified miR-146a and miR-146b as direct upstream regulators of UHRF1. Furthermore, the restoration of miR-146a/b dramatically reduced the expression of UHRF1 through the direct targeting of its 3'-UTR, and this effect in turn reactivated the slit homologue 3 (Slit3), cadherin 4 (CDH4), and runt-related transcription factor 3 (RUNX3) genes via promoter demethylation. Finally, analyses of miR-146a/b and UHRF1 levels in human GC tissues revealed that miR-146a/b correlated inversely with UHRF1 expression. These findings describe a new mechanism for the regulation of UHRF1 and aberrant DNA hypermethylation in GC. The newly identified miR-146a/b/UHRF1 axis provides insight into the GC metastasis process, and targeting this novel axis represents a therapeutic approach to blocking GC metastasis.
Acute respiratory disease caused by 2019 novel coronavirus (2019-nCoV) has rapidly spread throughout China. Children and adults show a different clinical course. The purpose of the current study is to comparatively analyze the clinical characteristics of 2019-nCoV infection in children and adults and to explore the possible causes for the discrepancies present. The medical records of 25 adults and 7 children confirmed cases of 2019-2019-nCoV acute respiratory diseases were reviewed retrospectively. All children were family clusters. The total adult patients were differentiated into the local residents of Wuhan, a history of travel to Wuhan and direct contact with people from Wuhan. The numbers were 14 (56%), 10 (40%), and 1 (4%), respectively. The median incubation period of children and adults was 5 days (ranged, 3-12 days) and 4 days (ranged, 2-12 days), respectively. Diarrhoea and/or vomiting (57.1%) were demic by World Health Organiza more common in children, whereas for adults it was myalgia or fatigue (52%). On admission, the percentage of children having pneumonia (5%, 71.4%) was roughly the same as adults (20%, 80%). A total of 20% of adults had leucopoenia, but leukocytosis was more frequently in children (28.6%, P=.014). A higher number of children had elevated creatine kinase isoenzyme (57.1% vs 4%, P=.004). Antiviral therapy was given to all adult patients but to none of the children. In summary, knowledge of these differences between children and adults will not only be helpful for the clinical diagnosis of 2019-nCoV disease, but also for a future discussion on age-specific coronavirus infection. K E Y W O R D S 2019 novel coronavirus, clinical manifestations, comparative analysis, differences between children and adults, laboratory parameters
Caudal-related homeobox 1 (CDX1), an intestinal-specific transcription factor, has been reported to have vital roles in gastric intestinal metaplasia (IM). Although IM is a high-risk factor for gastric cancer (GC), the specific role of CDX1 in GC is largely unknown. In this study, we investigated the expression of CDX1 and its functional roles in GC, and its upstream regulatory mechanisms at the microRNA (miRNA) level were further explored. We found that CDX1 is lost in GC when compared with adjacent IM tissues. Gain-of-function studies showed that CDX1 significantly inhibited GC cell growth by inducing cell cycle arrest and apoptosis. Interestingly, we identified and verified an onco-mir, miR-296-5p, as a direct upstream regulator of CDX1. miR-296-5p overexpression significantly promoted GC cell growth and attenuated the CDX1-induced anti-growth effects by recurring cell cycle distribution and apoptotic status, whereas knockdown of miR-296-5p decreased GC cell growth. Furthermore, we found that the extracellular signal-regulated kinases 1 and 2 (ERK1/2) activation and the subsequent downstream changes in protein levels related to cell cycle and apoptosis partly account for the miR-296-5p-CDX1-induced GC growth promotion. In addition, the detection of miR-296-5p and expression of CDX1 in primary GC tissues and adjacent IM tissues revealed that miR-296-5p is inversely correlated with CDX1, further supporting our in vitro results. Our results showed an anti-growth effect of CDX1 and identified its miRNA regulatory mechanism in GC. The identification of this novel miR-296-5p-CDX1-ERK1/2 axis sheds new light on the understanding of the process from IM to GC and may provide therapeutic targets for the treatment of GC.
Since the widespread presence of metal ions in the ecosystem, especially heavy metal ions that could bring severe damage to living organisms, the development of chemosensors for heavy metal ions is in high demand. In this contribution, we designed and synthesized a new corrole-based covalent organic framework (CorMeO-COF) with good crystallinity and high porosity. CorMeO-COF can detect Cu(II) with high sensitivity and selectivity based on the efficient fluorescence quenching caused by the photoinduced electron transfer (PET) process. More interestingly, CorMeO-COF can selectively detect trivalent metal ions such as Ga(III), Al(III), Cr(III), or Fe(III) with fluorescence enhancement. An in-depth mechanism study revealed that the binding of metal ions on the skeleton can inhibit the aggregation-caused quenching (ACQ) resulting in the improved photoluminescence (PL). Notably, this fluorescence-on/off feature of CorMeO-COF cannot be accessed by its counterpart (e.g., corrole monomer, model compound). These results point out a new direction to use corrole-based COF materials as efficient chemosensors to detect trace amounts of metal ions in the environmental and biological systems.
RELA and FOS are targets of miR-7 in gastric cancer cells and the miR-7/IKKε/RELA reciprocal feedback loop is important for gastric cancer induced by H. pylori infection.
Introduction: Metastasis and drug resistance contribute substantially to the poor prognosis of colorectal cancer (CRC) patients. However, the epigenetic regulatory mechanisms by which CRC develops metastatic and drug-resistant characteristics remain unclear. This study aimed to investigate the role of miR-302a in the metastasis and molecular-targeted drug resistance of CRC and elucidate the underlying molecular mechanisms.Methods: miR-302a expression in CRC cell lines and patient tissue microarrays was analyzed by qPCR and fluorescence in situ hybridization. The roles of miR-302a in metastasis and cetuximab (CTX) resistance were evaluated both in vitro and in vivo. Bioinformatic prediction algorithms and luciferase reporter assays were performed to identify the miR-302a binding regions in the NFIB and CD44 3'-UTRs. A chromatin immunoprecipitation assay was performed to examine NFIB occupancy in the ITGA6 promoter region. Immunoblotting was performed to identify the EGFR-mediated pathways altered by miR-302a.Results: miR-302a expression was frequently reduced in CRC cells and tissues, especially in CTX-resistant cells and patient-derived xenografts. The decreased miR-302a levels correlated with poor overall CRC patient survival. miR-302a overexpression inhibited metastasis and restored CTX responsiveness in CRC cells, whereas miR-302a silencing exerted the opposite effects. NFIB and CD44 were identified as novel targets of miR-302a. miR-302a inhibited the metastasis-promoting effect of NFIB that physiologically activates ITGA6 transcription. miR-302a restored CTX responsiveness by suppressing CD44-induced cancer stem cell-like properties and EGFR-mediated MAPK and AKT signaling. These results are consistent with clinical observations indicating that miR-302a expression is inversely correlated with the expression of its targets in CRC specimens.Conclusions: Our findings show that miR-302a acts as a multifaceted regulator of CRC metastasis and CTX resistance by targeting NFIB and CD44, respectively. Our study implicates miR-302a as a candidate prognostic predictor and a therapeutic agent in CRC.
Prion protein (PrPc) has been previously reported to be involved in gastric cancer (GC) development and progression. However, the association between expression of PrPc and GC prognosis is yet poorly characterized. In the present study, the expressions of PrPc and MGr1-Ag/37LRP, a protein interacting with PrPc, were detected using the tissue microarray technique and immunohistochemical method to compare clinicopathological parameters of 238 GC patients. We found that the expressions of PrPc and MGr1-Ag/37LRP were upregulated in GC lesions compared with their expressions in adjacent noncancerous tissues (p < 0.01). High expression of PrPc was detected in 37.39% (89/238) of GC patients and positively correlated with the expression of MGr1-Ag/37LRP (r = 0.532, p < 0.001). PrPc expression was associated with a number of clinicopathological parameters including depth of invasion and lymph node metastasis of the tumor (p < 0.001). High expression of PrPc brought a poorer prognosis than low PrPc expression. Moreover, GC patients with high level of PrPc and high level of MGr1-Ag/37LRP had the poorest prognosis. Multivariate survival analysis suggested that, along with other parameters, combined expression of PrPc and MGr1-Ag/37LRP was independent prognostic factors for GC patients. These data indicates that overexpression of PrPc, combined with MGr1-Ag/37LRP, is predictive of poor prognosis in GC and thereby could be used to guide the clinical decision.What's new?Prion protein was originally exclusively associated with prion disease but has now been linked to other processes such as cancer and inflammation. Here the authors examined the role of prion protein and its receptor MGr1-Ag/37LRP in gastric cancer. They found that both factors were upregulated in gastric cancer, and not in neighboring healthy, tissues and established the combined expression of prion protein and MGr1-Ag/37LRP as an independent prognostic factor for gastric cancer patients. These studies support a new role of prion protein in cancer and identify a new biomarker for a more accurate prediction of prognosis in gastric cancer patients.
Construction of a novel two-dimensional covalent organic framework with excellent photoluminescence performance using flexible building blocks.
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