N6-methyladenosine (m6A) is a reversible mRNA modification that has been shown to play important roles in various biological processes. However, the roles of m6A modification in macrophages are still unknown. Here, we discover that ablation of Mettl3 in myeloid cells promotes tumour growth and metastasis in vivo. In contrast to wild-type mice, Mettl3-deficient mice show increased M1/M2-like tumour-associated macrophage and regulatory T cell infiltration into tumours. m6A sequencing reveals that loss of METTL3 impairs the YTHDF1-mediated translation of SPRED2, which enhances the activation of NF-kB and STAT3 through the ERK pathway, leading to increased tumour growth and metastasis. Furthermore, the therapeutic efficacy of PD-1 checkpoint blockade is attenuated in Mettl3-deficient mice, identifying METTL3 as a potential therapeutic target for tumour immunotherapy.
Aim: The aim of the present study was to investigate the correlation between fibrinogen level, platelet count and prognosis in patients with epithelial ovarian cancer (EOC). Material and Methods: Preoperative fibrinogen level and platelet count in 136 EOC patients and 146 patients with benign ovarian tumor, and their associations with clinicopathologic parameters and survival in EOC patients, were retrospectively analyzed. Results: The fibrinogen level in EOC was higher than that in benign patients (3.95 ± 1.37 g/L versus 2.88 ± 0.6 g/L, P < 0.001), and 36.0% (49/136) of EOC patients had hyperfibrinogenemia (fibrinogen >4.0 g/L). The platelet count in EOC was higher than that in benign patients (251.5 ± 89.4 × 109/L versus 206.7 ± 49.0 × 109/L P < 0.001), and 7.4% (10/136) of EOC patients had thrombocytosis (platelet count >400 × 109/L). Hyperfibrinogenemia was associated with International Federation of Gynecologists and Obstetricians (FIGO) stage, non‐optimal cytoreduction and poor chemo‐response, but not with histologic type and grade, CA‐125 level, chemotherapy method, and age. EOC patients with advanced disease showed higher rate of elevated thrombocyte count than patients with early disease (30.7% versus 8.3%, P = 0.002). The rate of thrombocytosis was higher in patients with hyperfibrinogenemia than in those with normal fibrinogen (9/10 versus 1/10, P < 0.001). A significant correlation between platelet count and fibrinogen level was observed in EOC patients (P < 0.001). In multivariate analysis, overall survival was influenced by tumor stage (P < 0.001), chemotherapy with taxane (P < 0.001) and fibrinogen level (P = 0.004), and disease‐free survival was only influenced by tumor stage (P < 0.001). Conclusion: Our findings suggest that hyperfibrinogenemia may be a predictor for poor chemo‐response and have a potential role as independent prognostic factors in EOC patients.
Tissues from 98 human hepatocellular carcinomas (HCCs) obtained from hepatic resections were subjected to somatic copy number variation (CNV) analysis. Most of these HCCs were discovered in livers resected for orthotopic transplantation, although in a few cases, the tumors themselves were the reason for the hepatectomies. Genomic analysis revealed deletions and amplifications in several genes, and clustering analysis based on CNV revealed five clusters. The LSP1 gene had the most cases with CNV (46 deletions and 5 amplifications). High frequencies of CNV were also seen in PTPRD (21/98), GNB1L (18/98), KIAA1217 (18/98), RP1-1777G6.2 (17/98), ETS1 (11/98), RSU1 (10/98), TBC1D22A (10/98), BAHCC1 (9/98), MAML2 (9/98), RAB1B (9/98), and YIF1A (9/98). The existing literature regarding hepatocytes or other cell types has connected many of these genes to regulation of cytoskeletal architecture, signaling cascades related to growth regulation, and transcription factors directly interacting with nuclear signaling complexes. Correlations with existing literature indicate that genomic lesions associated with HCC at the level of resolution of CNV occur on many genes associated directly or indirectly with signaling pathways operating in liver regeneration and hepatocyte growth regulation.
Glypicans are heparan sulfate proteoglycans that are bound to the cell surface by glycosylphosphatidylinositol. While six members of the glypican family are known in mammals, our study focused on glypican 3 (GPC3). Loss-of-function mutations of GPC3 result in the Simpson-Golabi-Behmel syndrome, an X-linked disorder characterized by pre-and postnatal liver and other organ overgrowth. GPC3 is overexpressed in human hepatocellular carcinoma; however, its role in normal liver regeneration and hepatocyte proliferation is unknown. Here we investigated the role of GPC3 in hepatocyte proliferation. GPC3 mRNA and protein levels begin to increase 2 days after hepatectomy with peak expression levels by day 5. In hepatocyte cultures, GPC3 reaches a plateau when hepatocyte proliferation decreases. In vitro studies using Morpholino oligonucleotides showed that blocking GPC3 expression promoted hepatocyte growth. Yeast two-hybrid assays revealed that GPC3 interacts with CD81, a member of the tetraspanin family that is reported to be involved in hepatitis C virus infection and cell proliferation. We found that CD81 levels also increased 2 days after partial hepatectomy and toward the end of regeneration. Immunofluorescence showed that CD81 and GPC3 colocalize by 2 and 6 days after hepatectomy. Co-immunoprecipitation validated the interaction of GPC3 and CD81. Our results indicate that GPC3 may be a negative regulator of liver regeneration and hepatocyte proliferation, and that this regulation may involve
Myopodin, a Synaptopodin Homologue, Is Frequently Deleted in Invasive Prostate Cancers
Prostate cancer is one of the leading causes of cancerrelated deaths for men in the United States. Like other malignancies, prostate cancer is underscored by a variety of aberrant genetic alterations during its development. Although loss of heterozygosity or allelic loss is frequently identified among prostate cancers, few genes have been identified thus far as critical to the development of invasive prostate cancers. In this report, we used the recently developed technology, the "differential subtraction chain," to perform a genome-wide search for sequences that are deleted in an aggressive prostate cancer. Among the deleted sequences, we found that one sequence was deleted in >50% of prostate cancers we tested. We mapped this sequence to chromosome 4q25 by screening the Genebridge 4 hamster radiation panel with primers specific to this probe, and subsequently identify a 54-kb minimal common deletion region that contains the sequence encoding myopodin. Sequence analysis indicates that myopodin shares significant homology with synaptopodin, a protein closely associated with podocyte and neuron differentiation. Prostate cancer remains one of the most frequently diagnosed malignancies in American men. Approximately 37,000 men die from this disease annually.1 Despite the recent advances in our understanding of the environmental, hormonal, and nutritional parameters affecting the incidence of prostate cancers, much remains to be learned about the pathogenesis of prostate cancer. Epidemiological and laboratory studies indicate that genetic factors are important in the pathogenesis of prostate cancers.2,3 For example, 9% of prostate cancer cases have a strong familial component that is inherited as an autosomal dominant trait with high penetrance. In addition, cytogenetic studies, fluorescent in situ hybridization, comparative genomic hybridization, and allelotype analyses have revealed numerous genetic abnormalities associated with invasive prostatic carcinoma, including loss or gain of regions of several chromosomes, presence of trisomies, amplification of certain genes in X chromosome, loss of Y chromosome, and high frequency of loss of heterozygosity in several hot spots. These aberrant genomic alterations seem to accumulate with advancing stages of prostate cancers. However, it is not clear what molecular events are responsible for the progression of prostate cancer from a relatively indolent disease to one that could be life threatening.In this report, we applied a methodology previously developed from this laboratory, namely, the "differential subtraction chain" (DSC) to identify sequences that were deleted in prostate cancer genome. One of the deleted sequences identified in an aggressive prostate cancer was found similarly deleted in many other prostate cancer genomes. We mapped out a common deletion region among the prostate cancers, and identified a gene named "myopodin" that was within the minimal common deletion region. Further study indicated that there were
Chromosome changes are one of the hallmarks of human malignancies. Chromosomal rearrangement is frequent in human cancers. One of the consequences of chromosomal rearrangement is gene fusions in the cancer genome. We have previously identified a panel of fusion genes in aggressive prostate cancers. In this study, we showed that 6 of these fusion genes are present in 7 different types of human malignancies with variable frequencies. Among them, the CCNH-C5orf30 and TRMT11-GRIK2 gene fusions were found in breast cancer, colon cancer, non-small cell lung cancer, esophageal adenocarcinoma, glioblastoma multiforme, ovarian cancer and liver cancer, with frequencies ranging from 12.9% to 85%. In contrast, four other gene fusions (mTOR-TP53BP1, TMEM135-CCDC67, KDM4-AC011523.2 and LRRC59-FLJ60017) are less frequent. Both TRMT11-GRIK2 and CCNH-C5orf30 are also frequently present in lymph node metastatic cancer samples from the breast, colon and ovary. Thus, detecting these fusion transcripts may have significant biological and clinical implications in cancer patient management.
Vibrio owensii is a potential bacterial pathogen in marine aquaculture system. In this study, five lytic phages specific against Vibrio strain B8D, closely related to V. owensii, were isolated from seawater of an abalone farm. The phages were characterized with respect to morphology, genome size, growth phenotype, as well as thermal, and pH stability. All phages were found to belong to the family Siphoviridae with long noncontractile tails and terminal fibers. Restriction analysis indicated that the five phages were dsDNA viruses with molecular weights ranging from c. 30 to 48 kb. One-step growth experiments revealed that the phages were heterogeneous in latent periods (10-70 min), rise periods (40-70 min), and burst sizes [23-331 plaque-forming units (PFU) per infected cell] at the same host strain. All phages were thermal stable and were tolerant to a wide range of pH. The results indicated that these phages could be potential candidates of a phage cocktail for biological control of V. owensii in aquaculture systems.
Enterovirus 71 (EV71) infection can cause severe disease and lead to death in children. Recurring outbreaks of EV71 have been reported in several countries. Interferons (IFNs) have been used for decades to treat several types of viral infection, but have a limited ability to inhibit EV71 replication. Herein, we intend to investigate the mechanisms by which EV71 inhibits the cellular type I IFN response. In this study, MRC-5 (human embryonic lung fibroblast) or RD (human rhabdomyosarcoma) cells were infected with EV71, and then treated with or without IFN-α2b. Cells were harvested and analyzed by flow cytometry to determine the level of IFNAR1. Cell lysis were prepared to detect the levels of STAT1, STAT2, phosphorylated STAT1, phosphorylated STAT2, IFNAR1, JAK1, and TYK2 by Western blotting. The phosphorylation of STAT1 and STAT2 induced by IFN were inhibited without significant downregulation of IFNAR1 in EV71-infected cells. The EV71-induced suppression of STAT1 and STAT2 phosphorylation was not rescued by the protein tyrosine phosphatases inhibitor, and was independent of suppressor of cytokine signaling protein 1/3 levels. The phosphorylation of JAK1 and TYK2 were inhibited accompanied by EV71-induced downregulation of JAK1, which occurred at a post-transcriptional level and was proteasome independent. JAK1 expression did not decrease, and IFN-α-stimulated STAT1 and STAT2 phosphorylation were not blocked in HEK293T cells overexpressing the EV71 viral protein 2A or 3C. This study demonstrates that EV71 inhibits the cellular type I IFN antiviral pathway by downregulating JAK1, while the expression of IFNAR1 does not significantly alter in EV71-infected cells. Additionally, the EV71 viral proteins 2A and 3C do not act as antagonists of cellular type I IFN signaling.
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