Pancreatic cancer (PC) is a highly aggressive cancer, with a 9% 5-year survival rate and a high risk of recurrence. In part, this is because PC is composed of heterogeneous subgroups with different ...biological and functional characteristics and personalized anticancer treatments are required. Posttranslational modifications (PTMs) play an important role in modifying protein functions/roles and are required for the maintenance of cell viability and biological processes; thus, their dysregulation can lead to disease. Different types of PTMs increase the functional diversity of the proteome, which subsequently influences most aspects of normal cell biology or pathogenesis. This review primarily focuses on ubiquitination, SUMOylation, and NEDDylation, as well as the current understanding of their roles and molecular mechanisms in pancreatic carcinogenesis. Additionally, we briefly summarize studies and clinical trials on PC treatments to advance our knowledge of drugs available to target the ubiquitination, SUMOylation, and NEDDylation PTM types. Further investigation of PTMs could be a critical field of study in relation to PC, as they have been implicated in the initiation and progression of many other types of cancer.
Receptor-interacting protein kinase 3 (RIPK3) functions as a central regulator of necroptosis, mediating signaling transduction to activate pseudokinase mixed lineage kinase domain-like protein ...(MLKL) phosphorylation. Increasing evidences show that RIPK3 contributes to the pathologies of inflammatory diseases including multiple sclerosis, infection and colitis. Here, we identified a novel small molecular compound Salt-inducible Kinases (SIKs) inhibitor HG-9-91-01 inhibiting necroptosis by targeting RIPK3 kinase activity. We found that SIKs inhibitor HG-9-91-01 could block TNF- or Toll-like receptors (TLRs)-mediated necroptosis independent of SIKs. We revealed that HG-9-91-01 dramatically decreased cellular activation of RIPK3 and MLKL. Meanwhile, HG-9-91-01 inhibited the association of RIPK3 with MLKL and oligomerization of downstream MLKL. Interestingly, we found that HG-9-91-01 also trigger RIPK3-RIPK1-caspase 1-caspase 8-dependent apoptosis, which activated cleavage of GSDME leading to its dependent pyroptosis. Mechanistic studies revealed that SIKs inhibitor HG-9-91-01 directly inhibited RIPK3 kinase activity to block necroptosis and interacted with RIPK3 and recruited RIPK1 to activate caspases leading to cleave GSDME. Importantly, mice pretreated with HG-9-91-01 showed resistance to TNF-induced systemic inflammatory response syndrome. Consistently, HG-9-91-01 treatment protected mice against Staphylococcus aureus-mediated lung damage through targeting RIPK3 kinase activity. Overall, our results revealed that SIKs inhibitor HG-9-91-01 is a novel inhibitor of RIPK3 kinase and a potential therapeutic target for the treatment of necroptosis-mediated inflammatory diseases.
Biotite, also called black mica (BM), is a group of sheet silicate minerals with great potential in various fields. However, synthesis of high‐quality BM nanosheets (NSs) remains a huge challenge. ...Here, an exfoliation approach is provided that combines calcination, n‐butyllithium exchange and intercalation, and liquid exfoliating processes for the high‐yield synthesis of ultrathin BM NSs. Due to the presence of MgO, Fe2O3, and FeO in these NSs, PEGylated BM can be engineered as an intelligent theranostic platform with the following unique features: i) Fe3+ can damage the tumor microenvironment (TME) through glutathione consumption and O2 production; ii) Generated O2 can be further catalyzed by MgO with oxygen vacancy to generate ·O2−; iii) The Fe2+‐catalyzed Fenton reaction can produce ·OH by disproportionation reactions of H2O2 in the TME; iv) Reactions in (i) and (iii) circularly regenerate Fe2+ and Fe3+ for continuous consumption of glutathione and H2O2 and constant production of ·OH and O2; v) The NSs can be triggered by a 650 nm laser to generate ·O2− from O2 as well as by an 808 nm laser to generate local hyperthermia; and vi) The fluorescent, photoacoustic, and photothermal imaging capabilities of the engineered NSs allow for multimodal imaging‐guided breast cancer treatment.
2D black mica (BM)‐based nanosheets (NSs) are fabricated through an exfoliation approach that combines grinding, calcination, n‐butyllithium exchange and intercalation, and liquid exfoliating processes. The nanoplatform based on PEGylated BM NSs exhibits multiple features, such as tumor microenvironment modulation, efficient reactive oxygen species production and photothermal conversion, high tumor site accumulation, good biocompatibility, and multimodal imaging‐guided breast cancer treatment.
Ganoderic acid Me (GA-Me) is a natural bioactive compound derived from
. Our present results suggested that GA-Me inhibited proliferation, induced DNA fragmentation and significantly activated ...caspase-9 and caspase-3 in HCT116 cells. As shown in our previous studies, GA-Me targets several genes to prevent cancer, including colorectal cancer (CRC). Thus, we hypothesized that GA-Me might be a multitarget ligand against cancer. However, its exact mechanism in CRC remains unclear. Here, whole-transcriptome sequencing was employed to assess the long noncoding RNA (lncRNA), circular RNA (circRNA), microRNA (miRNA), and messenger RNA (mRNA) profiles of GA-Me-treated HCT116 cells. In total, 1572 differentially expressed (DE) lncRNAs, 123 DEcircRNAs, 87 DEmiRNAs, and 1508 DEmRNAs were identified. DCBLD2 and RAPGEF5 were validated as two core mRNAs in the DElncRNA, DEcircRNA, and DEmiRNA networks. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses revealed the biological functions and potential mechanisms of TCONS-00008997, XR-925056.2, circRNA-07908, hsa-miR-100-3p, hsa-miR-1257, hsa-miR-3182, NAV3, ADAM20, and STARD4, which were altered after GA-Me treatment. The regulatory relationships of the XR-925056.2-hsa-miR-3182-NAV3/ADAM20/STARD4, circRNA-07908|Chr22:38986298-39025349-hsa-miR-3182-NAV3/ADAM20, ENST00000414039/ENST00000419190-novel874_mature-MMP9 and circRNA-00314|Chr1:35470863-35479212/circRNA-05460|Chr17:72592203-72649268-novel874_mature-MMP9 immune-regulatory networks involved both noncoding RNAs (ncRNAs) and mRNAs. Molecular docking studies showed that Zn
and the His201, His205, His211, Glu202, and Ala165 residues of MMP2 contributed to its high affinity for GA-Me. Zn
and the Glu402 and Gly186 residues of MMP9 are important for its interaction with GA-Me. Our results suggested and confirmed that GA-Me is a potential multitarget lead compound for CRC treatment with unique polypharmacological advantages.
The transforming growth factor-β-activated kinase 1 (TAK1) phosphorylation promotes inflammation occurrence. Meanwhile, TAK1 directly interacts with KEAP1 and strenghtenes NRF2/HO-1 pathway ...downregulated-inflammation. Recently, we found that caffeoylquinic acids not only possessed powderful anti-inflammation function, but also attenuated oxidative damage through KEAP1/NRF2 pathway. Whereas it’s rarely understood whether the anti-inflammatory activity were regulated by their interaction between TAK1 and NRF2. Herein, 34 caffeoylquinic acids including five new (2, 4-7) were systematically isolated and identified on the basis of spectroscopic evidence from Lonicera japonica Thunb. flower buds. Their inhibitory effects on inflammation induced by LPS plus IFN-γ were exerted substantial NO scavenging activity, and inhibited massive production of inflammatory cytokines and related proteins. Compound 3 (4F5C-QAME) exhibited the best anti-inflammation activity. 4F5C-QAME down-regulated the phosphorylation of TAK1, JNK, and c-JUN, thereby alleviated inflammation stimulated by LPS plus IFN-γ. Meanwhile, 4F5C-QAME could alleviate the interaction between TAK1 and KEAP1, inhibit the ubiquitination degradation of NRF2, activate NRF2/HO-1 signaling pathway, result in the increase in ROS elimination. Furthermore, 4F5C-QAME effectively protected against inflammation through direct inhibition of TAK1 phosphorylation. Based on these findings, 4F5C-QAME directly targeting TAK1 could be represented as a potential drug candidate for preventing/treating inflammatory diseases that regulated NRF2 activation through alleviating the interaction between TAK1 and KEAP1. Moreover, the regulatory mechanism of TAK1 on NRF2 activation under exogenous oxidative stress was revealed for the first time.
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The aim of this study was to investigate the association between serum albumin to serum creatinine ratio (sACR) and the prognosis of heart failure (HF). In this single-center prospective cohort ...study, a total of 2625 patients with HF were enrolled between March 2012 and June 2017. All patients were divided into three groups according to the tertiles of sACR. Of 2625 patients, the mean age was 57.0 ± 14.3 years. During a median follow-up time of 23 months, 666 end point events occurred. Prognosis analysis indicated that the lowest sACR was significantly associated with higher mortality risk of HF (hazard ratio HR = 1.920, 95% confidence interval CI = 1.585-2.326, p < 0.001) when compared with the highest tertile. After adjusting for covariates including age, gender, diabetes, systolic blood pressure (SBP), diastolic blood pressure, heart rate, total cholesterol, triglycerides, HDL-C, LDL-C, white blood cell count, hemoglobin, glycosylated hemoglobin, and β-blocker use, the HRs for mortality risk of HF was 1.513 (95% CI = 1.070-2.139, p = 0.019). Subgroup analysis indicated that the mortality risk of HF statistically significantly reduced with the rise in sACR in patients with no β-blocker use, patients with serum creatine less than 97 μmol/L. However, stratification by age, sex, history of hypertension, diabetes, and smoking, level of glycosylated hemoglobin, and albumin have no obvious effect on the association between sACR and the prognosis of HF. Additionally, patients with lower sACR displayed reduced left ventricular ejection fraction and increased left ventricular end-diastolic diameter. The discriminant power of sACR alone and in combination with age, gender, SBP, heart rate, and glycosylated hemoglobin were excellent with C statistic of 0.655 and 0.889, respectively. Lower sACR was an independent risk factor for mortality risk of HF.
Background: In our previous work, we purified a novel biflavonoid named Japoflavone D (JFD) from Lonicera japonica flower buds. Biflavonoids are chemical compounds characterized by their high levels ...of antioxidative activity.
The present study aimed to investigate the function and molecular mechanism of JFD under different oxidative conditions in hepatoma cells.
MTT assay and apoptosis assay were used to evaluate the cytotoxic effect of JFD. The activities of SOD and CAT were detected to evaluate the oxidative level. Oxidative stress was induced by H2O2 stimulation. The molecular mechanism of JFD was investigated by analyzing relative signaling pathway.
JFD inhibited cell viability in all hepatoma cell lines we examined. Under quiescent conditions, JFD treatment of SMMC-7721 cells resulted in upregulation of AKT/mTOR signal pathway and ERK activities and downregulation of KEAP1/NRF2/ARE signaling axis, together with apoptosis. However, under oxidative stress, JFD played a quite different role. Treatment of JFD suppressed the activation of ERK and mTOR and activated the KEAP1/NRF2/ARE signaling axis, which is a predominant regulator of cytoprotective responses to oxidative stress, thereby lessening the damage caused by excess reactive oxygen species (ROS). A molecular docking analysis suggested that JFD may interrupt the interaction between KEAP1 and NRF2 by competitively anchoring to the NRF2 binding site on KEAP1.
The results indicate that JFD functions as a potent antioxidant and plays dual roles in modulating apoptosis under different oxidative conditions. JFD has the potential to be developed as a protective drug for diseases related with excess ROS.
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Targeting macrophage M1 polarization is a promising strategy with fewer detrimental effects in COVID-19 curation. Phenylethanoid glycosides (PhGs) of Cistanche tubulosa are a botanical drug to ...possess various anti-inflammation-related functions, such as immunomodulating, hepatoprotective or neuroprotective functions, whereas their anti-inflammatory activity is rarely understood. A search into their anti-inflammatory characteristics led to the isolation of 49 PhGs along with 15 new PhGs. Their inhibitory effects against M1 polarization induced by LPS plus IFN-γ were explored in RAW264.7 macrophages. Of these PhGs, tubuloside B (Tub B) exerted substantial NO scavenging effect both in chemical- and cell-based assays, and it inhibited massive production of cytokines and chemokines. Tub B decreased ERK1/2 phosphorylation via direct binding and inhibited the MAPK signaling pathway. Tub B also directly binded to Mob1 protein, thereby increased the stability and level of Mob1 protein by inhibiting ubiquitinated degradation. Mob1 was pivotal for the anti-inflammatory activity of Tub B, and it acted independently of the canonical Hippo-YAP pathway. Moreover, ERK1/2 and Mob1 also had a synergic effect on modulating the inflammatory response. Finally, these effects of Tub B were verified in mice with LPS-induced systemic inflammatory response syndrome. Taken together, these results indicated that Tub B acted as a promising agent against M1 macrophage activation by synergistically targeting ERK1/2 and Mob1, and that it may potentially be a drug candidate to prevent/treat inflammatory diseases, especially in COVID-19.
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•15 new and 34 known PhGs were isolated and identified from C. tubulosa.•Many isolated PhGs were able to inhibit NO production and more potent than, that of positive control Dex.•Tub B inhibited MAPK pathway through decreased ERK1/2 phosphorylation, via direct binding.•Tub B stabilized Mob1 via direct binding, and inhibited Mob1-ubiquitinated, degradation.•ERK1/2 and Mob1 also have a synergic effect on Tub B modulating M1, polarization.
•P. frutescens essential oils from 11 areas of China were analyzed by GC–MS.•The chemical variability in oils was compared among 11 different areas in China.•We examined antioxidant activity of oils ...using three different testing methods.•We assessed antifungal activity of oils against five tested microbes.
Perilla frutescens is an important annual herb of the mint family that is native to East Asia, particularly China, Korea, and Japan, is widely used as a fresh vegetable and in traditional Chinese medicines, popular garnishes, and food colorants. Hydrodistilled essential oils obtained from P. frutescens from 11 areas of China were analyzed by gas chromatography-mass spectrometry (GC–MS). One hundred and nineteen compounds accounting for 98.07–99.74% of the oils were identified. The predominant compounds were 2-acetylfuran (max. 82.17%), perillaldehyde (max. 53.41%), caryophyllene (max. 38.34%), laurolene (max. 40.6%), 2-hexanoylfuran (max. 33.03%), 2-butylamine (max. 22.22%), α-asarone (max. 11.85%), β-farnesene (max. 9.25%), α-caryophyllene (max. 9.16%), and (Z,E)-α-farnesene (max. 7.14%). Chemical variation in the oils was estimated using cluster analysis and principal component analysis. The results revealed chemical polymorphism in the oils. However, the oils from Ganzhou, Kaili, Suining, Macheng, Nanyang, and Yixing were more similar, and the oils from Quzhou, Loudi, and Nanning also revealed similarities. Antioxidant activity (by free radical scavenging activity and ferric reducing power) and antifungal activity (by poisoned food method and micro-well dilution method) were also assessed. The antioxidant activity of the oils showed similar order to that obtained by three different testing methods: Pingliang, Baoding, Loudi, and Quzhou>Kaili, Ganzhou, Macheng, and Nanning>Suining, Nanyang, and Yixing. All oils except that from Baoding were active against all of the tested strains. These results suggested that the region of origin greatly influenced the chemical composition and bioactivities of P. frutescens, which might help in developing this promising bioresource in the food and pharmaceutical industries.
Aims
Apolipoproteins have been reported to be involved in many cardiovascular diseases. The aim of our study was to investigate the prognostic value of apolipoprotein B (ApoB) to apolipoprotein A‐I ...(ApoA‐I) ratio (ApoB/ApoA‐I) in patients with heart failure (HF).
Methods and results
We randomly assigned 2400 HF patients into the training cohort (n = 1400) and the validation cohort (n = 1000). Using a receiver operating characteristic curve, we identified the optimal cut‐off value of the ApoB/ApoA‐I in the training cohort as 0.69, which was further validated in the validation cohort. A propensity score matching (PSM) analysis was conducted to eliminate the imbalance in the baseline characteristics of the high and low ApoB/ApoA‐I group. A total of 2242 HF patients were generated in the PSM cohort. We also validated our results with an independent cohort (n = 838). Univariate and multivariate analyses were conducted to explore the independent prognostic value of ApoB/ApoA‐I in the training cohort (n = 1400), the validation cohort (n = 1000), the PSM cohort (n = 2242), and the independent cohort (n = 838). Patients with high ApoB/ApoA‐I ratio had significantly poorer prognosis compared with those with low ApoB/ApoA‐I ratio in the training cohort, the validation cohort, the PSM cohort, and the independent cohort (P < 0.05). Multivariate analysis indicated that the ApoB/ApoA‐I was an independent prognostic factor for HF in the training cohort hazard ratio (HR) = 1.637, 95% confidence interval (CI) = 1.201–2.231, P = 0.002, the validation cohort (HR = 1.54, 95% CI = 1.051–2.257, P = 0.027), the PSM cohort (HR = 1.645, 95% CI = 1.273–2.125, P < 0.001), and the independent cohort (HR = 1.987, 95% CI = 1.251–3.155, P = 0.004).
Conclusions
Serum ApoB/ApoA‐I ratio is an independent predictor for the prognosis of HF patients.