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In which There may be Light up, There is a Shared: Indirect Using tobacco along with Rheumatoid arthritis symptoms.
Liver hepatocellular carcinoma (LIHC) is the second leading cause of cancer mortality worldwide. Although cancer driver genes identified so far have been considered to be saturated or nearly saturated, challenges remain in discovering novel genes underlying carcinogenesis due to significant tumor heterogeneity. Here, in a small cohort of hepatitis B virus (HBV)-associated LIHC, we investigated the transcriptional patterns of tumor-mutated alleles using both whole-exome and RNA sequencing data. A graph clustering of the transcribed tumor-mutated alleles characterized overlapped functional clusters, and thus prioritized potentially novel oncogenes. We validated the function of the potentially novel oncogenes in vitro and in vivo. We showed that a component of the retromer complex-the vacuolar protein sorting-associated protein 35 (VPS35)-promoted the proliferation of hepatoma cell through the PI3K/AKT signaling pathway. In VPS35-knockout hepatoma cells, a significantly reduced distribution of membrane fibroblast growth factor receptor 3 (FGFR3) demonstrated the effects of VPS35 on sorting and trafficking of transmembrane receptor. This study provides insight into the roles of the retromer complex on carcinogenesis and has important implications for the development of personalized therapeutic strategies for LIHC.The ubiquitously transcribed tetratricopeptide repeat on X chromosome (UTX) is a major histone H3 lysine 27 (H3K27) demethylase and the mixed-lineage leukemia (MLL) proteins are the H3K4 methyltransferases. UTX is one of the major components of MLL3- and MLL4-containing (MlLL3/4) complexes and likely has functions within the complexes. Although UTX is frequently mutated in various types of cancer and is thought to play a crucial role as a tumor suppressor, the importance of UTX interaction with MLL3/4 complexes in cancer formation is poorly understood. Here, we analyzed the ability of cancer-derived UTX mutant proteins to interact with ASH2L, which is a common core component of all the MLL complexes, and MLL3/4-specific components PTIP and PA1, and found that several single-amino acid substitution mutations in the tetratricopeptide repeat (TPR) affect UTX interaction with these components. Interaction-compromised mutants G137V and D336G and a TPR-deleted mutant Δ80-397 were preferentially localized to the cytoplasm, suggesting that UTX is retained in the nucleus by MLL3/4 complexes through their interaction with the TPR. Intriguingly, WT UTX suppressed colony formation in soft agar, whereas G137V failed. This suggests that interaction of UTX with MLL3/4 complex plays a crucial role in their tumor suppressor function. Preferential cytoplasmic localization was also observed for endogenous proteins of G137V and another mutant G137VΔ138 in HCT116 created by CRISPR-Cas9 gene editing. Interestingly, expression levels of these mutants were low and MG312 stabilized both endogenous as well as exogenous G137V proteins. These results reveal a novel mechanism of UTX regulation and reinforce the importance of UTX interaction with MLL3/4 complexes in cancer formation.GPR81 is a G-protein-coupled receptor for lactate, which is upregulated in breast cancer and plays an autocrine role to promote tumor growth by tumor cell-derived lactate. Here we asked whether lactate has any paracrine role via activation of GPR81 in cells present in tumor microenvironment to help tumor growth. First, we showed that deletion of Gpr81 suppresses breast cancer growth in a constitutive breast cancer mouse model (MMTV-PyMT-Tg). We then used a syngeneic transplant model by monitoring tumor growth from a mouse breast cancer cell line (AT-3, Gpr81-negative) implanted in mammary fat pad of wild-type mice and Gpr81-null mice. Tumor growth was suppressed in Gpr81-null mice compared with wild-type mice. There were more tumor-infiltrating T cells and MHCIIhi-immune cells in tumors from Gpr81-null mice compared with tumors from wild-type mice. RNA-seq analysis of tumors indicated involvement of immune cells and antigen presentation in Gpr81-dependent tumor growth. Antigen-presenting dendritic cells expressed Gpr81 and activation of this receptor by lactate suppressed cell-surface presentation of MHCII. Activation of Gpr81 in dendritic cells was associated with decreased cAMP, IL-6 and IL-12. SCR7 DNA inhibitor These findings suggest that tumor cell-derived lactate activates GPR81 in dendritic cells and prevents presentation of tumor-specific antigens to other immune cells. link2 This paracrine mechanism is complementary to the recently discovered autocrine mechanism in which lactate induces PD-L1 in tumor cells via activation of GPR81 in tumor cells, thus providing an effective means for tumor cells to evade immune system. As such, blockade of GPR81 signaling could boost cancer immunotherapy.Glucagon-like peptide 1 (GLP-1) and cholecystokinin (CCK) are gut-derived peptide hormones known to play important roles in the regulation of gastrointestinal motility and secretion, appetite, and food intake. We have previously demonstrated that both GLP-1 and CCK are produced in the endocrine pancreas of obese mice. Interestingly, while GLP-1 is well known to stimulate insulin secretion by the pancreatic β-cells, direct evidence of CCK promoting insulin release in human islets remains to be determined. link3 Here, we tested whether islet-derived GLP-1 or CCK is necessary for the full stimulation of insulin secretion. We confirm that mouse pancreatic islets secrete GLP-1 and CCK, but only GLP-1 acts locally within the islet to promote insulin release ex vivo. GLP-1 is exclusively produced in approximately 50% of α-cells in lean mouse islets and 70% of α-cells in human islets, suggesting a paracrine α to β-cell signaling through the β-cell GLP-1 receptor. Additionally, we provide evidence that islet CCK expression is regulated by glucose, but its receptor signaling is not required during glucose-stimulated insulin secretion (GSIS). We also see no increase in GSIS in response to CCK peptides. Importantly, all these findings were confirmed in islets from non-diabetic human donors. In summary, our data suggest no direct role for CCK in stimulating insulin secretion and highlight the critical role of intra-islet GLP-1 signaling in the regulation of human β-cell function.Massive releases of organic substrates during marine algal blooms trigger growth of many clades of heterotrophic bacteria. Algal polysaccharides represent the most diverse and structurally complex class of these substrates, yet their role in shaping the microbial community composition is poorly understood. We investigated, whether polysaccharide utilization capabilities contribute to niche differentiation of Polaribacter spp. (class Flavobacteriia; known to include relevant polysaccharide-degraders) that were abundant during 2009-2012 spring algal blooms in the southern North Sea. We identified six distinct Polaribacter clades using phylogenetic and phylogenomic analyses, quantified their abundances via fluorescence in situ hybridization, compared metagenome-assembled genomes, and assessed in situ gene expression using metaproteomics. Four clades with distinct polysaccharide niches were dominating. Polaribacter 2-a comprised typical first responders featuring small genomes with limited polysaccharide utilization capacities. Polaribacter 3-a were abundant only in 2010 and possessed a distinct sulfated α-glucoronomannan degradation potential. Polaribacter 3-b responded late in blooms and had the capacity to utilize sulfated xylan. Polaribacter 1-a featured high numbers of glycan degradation genes and were particularly abundant following Chattonella algae blooms. These results support the hypothesis that sympatric Polaribacter clades occupy distinct glycan niches during North Sea spring algal blooms.Age-related reduction in muscle force generation capacity is similarly evident across different lower limb muscle groups, yet decline in locomotor performance with age has been shown to depend primarily on reduced ankle extensor muscle function. To better understand why ageing has the largest detrimental effect on ankle joint function during locomotion, we examined maximal ankle and knee extensor force development during a two-leg hopping test in older and young men, and used these forces as a reference to calculate relative operating efforts for the knee and ankle extensors as participants walked, ran and sprinted. We found that, across locomotion modes in both age groups, ankle extensors operated at a greater relative effort compared to knee extensors; however, slightly less pronounced differences between ankle and knee extensor muscle efforts were present among older men, mainly due to a reduction in the ankle extensor force generation during locomotion modes. We consider these findings as evidence that reduced ankle push-off function in older age is driven by a tendency to keep ankle extensor effort during locomotion lower than it would otherwise be, which, in turn, may be an important self-optimisation strategy to prevent locomotor-induced fatigue of ankle extensor muscles.The development of machine-transplanted hybrid rice is a feasible approach to meet the needs of both high grain yield and high labor efficiency in China, but limited information is available on the critical plant traits associated with high grain yields in machine-transplanted hybrid rice. This study was carried out to identify which type of culms (i.e., main stems and primary and secondary tillers) and which yield components of this culm are critical to achieving high grain yields in machine-transplanted hybrid rice. Field experiments were conducted with two hybrid rice cultivars grown under two densities of machine transplanting in two years. Results showed that total grain yield of main stems and primary and secondary tillers was not significantly affected by cultivar but was significantly affected by density and year. Averaged across cultivars, densities, and years, main stems and primary and secondary tillers contributed about 15%, 50%, and 35% to total grain yield, respectively. Total grain yield was not significantly related to grain yields of main stems and secondary tillers but was positively and significantly related to grain yield of primary tillers. Approximately 85% of the variation in total grain yield was explained by grain yield of primary tillers, which was positively and significantly related to primary-tiller panicles per m2 but not to spikelets per panicle, spikelet filling percentage, or grain weight of primary tillers. Based on these results, it is concluded that primary-tiller panicle number is essential for achieving high grain yields in machine-transplanted hybrid rice.Exposure to particulate matter less than 2.5 microns from either ambient pollution (AMB-PM2.5) or secondhand smoke (SHS-PM2.5) have been associated with asthma worsening, but there is little information on effects and relative potency with concurrent exposures. We studied health effects of concurrent exposures to AMB-PM2.5 and SHS-PM2.5 over a 6-year period in schoolchildren with asthma. Regression calibration with instrumental variables (RCIV) was utilized to estimate effects of personal exposure to low-level SHS and AMB-PM2.5 on daily albuterol usage and urinary leukotriene E4 (uLTE4; a biomarker of asthma-related inflammation) using urine cotinine and concentrations from fixed and personal pollution monitors. Each IQR increase in SHS-PM2.5 exposure was associated with a 6.7% increase (95% CI 1.0-12.8%) in uLTE4 on the same day and 9.4% increase (95% CI -2.6 to 22.7%) in albuterol use the next day, when children were co-exposed to mean levels of AMB-PM2.5. The dose-response relationship between health outcomes and one pollutant was higher at lower levels of the other pollutant.
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