Accumulating evidence supports a role for exosomal protein in diagnosis. The purpose of this study was to identify the tumor‐derived exosomal biomarkers in the serum that improve the diagnostic value in Chinese non‐small cell lung cancer (NSCLC) patients. Serum exosomes were isolated from healthy donors (n = 46) and NSCLC patients (n = 125) by ultracentrifugation and were characterized using transmission electron microscopy, qNano, and immunoblotting. Proteomic profiles (by mass spectrometry) revealed multiple differentially expressed proteins in the healthy and NSCLC groups. The exosomal expression levels of alpha‐2‐HS‐glycoprotein (AHSG) and extracellular matrix protein 1 (ECM1) increased significantly in the NSCLC patients compared to the healthy group. Alpha‐2‐HS‐glycoprotein showed diagnostic values with a maximum area under the receiver operating characteristic curve (AUC) as 0.736 for NSCLC vs healthy individuals (P < .0001) and 0.682 for early stage NSCLC vs healthy individuals (P < .01). Extracellular matrix protein 1 showed the diagnostic capacity with AUC values of 0.683 (P < .001) and 0.656 (P < .05) in cancer and early stage NSCLC compared to healthy individuals. When AHSG was combined with ECM1, the AUCs were 0.795 and 0.739 in NSCLC and early stage patients, respectively. Taken together, the combination of AHSG, ECM1, and carcinoembryonic antigen improved the diagnostic potential of NSCLC. The diagnosis values were AUC of 0.938 for NSCLC and 0.911 for early stage NSCLC vs healthy individuals. Our results suggest that novel proteomic signatures found in serum exosomes of NSCLC patients show potential usefulness as diagnostic tools.
Black pepper (Piper
nigrum L.) has
been commonly utilized in food preparation and traditional medicine
in several countries. Seven new amide alkaloids, pipernigramides A–G
(3, 10, 38, and 41–44), a new piperic ester, pipernigrester A (48), along with 47 known compounds were isolated from the
EtOH extract of P. nigrum. The inhibitory
effects on nitric oxide (NO) of all compounds were then evaluated.
Among the tested compounds, three of them (42–44) significantly inhibited inducible nitric oxide synthase
(iNOS)-mediated NO (IC50 = 4.74 ± 0.18, 4.08 ±
0.19, and 3.71 ± 0.32 μM, respectively), and IL-1β,
IL-6, TNF-α, and PGE2 release in RAW 264.7 cells
stimulated by lipopolysaccharide. Moreover, 42–44 suppressed IκB degradation and further inhibited
the cytosol-nucleus translocation of the p65 subunit by targeting
IKK-β. In the carrageenan-induced paw edema test, 42–44 demonstrated anti-inflammatory effects as
well. These results indicate that all three compounds from P.nigrum have the potential anti-inflammatory effects.
Inhibitors that bind to the paclitaxel- or vinblastine-binding sites of tubulin have been part of the pharmacopoeia of anticancer therapy for decades. However, tubulin inhibitors that bind to the colchicine-binding site are not used in clinical cancer therapy, because of their low therapeutic index. To address multidrug resistance to many conventional tubulin-binding agents, numerous efforts have attempted to clinically develop inhibitors that bind the colchicine-binding site. Previously, we have found that millepachine (MIL), a natural chalcone-type small molecule extracted from the plant , and its two derivatives (MDs) SKLB028 and SKLB050 have potential antitumor activities both and However, their cellular targets and mechanisms are unclear. Here, biochemical and cellular experiments revealed that the MDs directly and irreversibly bind β-tubulin. X-ray crystallography of the tubulin-MD structures disclosed that the MDs bind at the tubulin intradimer interface and to the same site as colchicine and that their binding mode is similar to that of colchicine. Of note, MDs inhibited tubulin polymerization and caused G/M cell-cycle arrest. Comprehensive analysis further revealed that free MIL exhibits an s- conformation, whereas MIL in the colchicine-binding site in tubulin adopts an s- conformation. Moreover, introducing an α-methyl to MDs to increase the proportion of s- conformations augmented MDs' tubulin inhibition activity. Our study uncovers a new class of chalcone-type tubulin inhibitors that bind the colchicine-binding site in β-tubulin and suggests that the s- conformation of these compounds may make them more active anticancer agents.
Eight new flavonoids, including two
β-hydroxy/methoxychalcones,
velutones A and B (1 and 2), two 1,3-diarylpropan-1-ols,
velutols C and D (3 and 4), a dihydroxychalcone,
velutone E (5), a chalcone, velutone F (6), a furanoflavanone, velutone G (7), and a furanoflavonol,
velutone H (8), and 14 known compounds were isolated
from Millettia velutina. Their structures
were determined by high-resolution electrospray ionisation mass spectrometry
(HR-ESIMS) and spectroscopic data analyses and time-dependent density
functional theory electronic circular dichroism (TD-DFT–ECD)
calculations. Among the isolated constituents, compound 6 exhibited the most potent inhibitory effect (IC50: 1.3
μM) against nigericin-induced IL-1β release in THP-1 cells.
The initial mechanism of action study revealed that compound 6 suppressed NLRP3 inflammasome activation via blocking ASC oligomerization without affecting the priming step,
which subsequently inhibited caspase-1 activation and IL-1β
secretion. Most importantly, compound 6 exerted potent
protective effects in the LPS-induced septic shock mice model by improving
the survival rate of mice and suppressing serum IL-1β release.
These results demonstrated that compound 6 had the potential
to be developed as a broad-spectrum NLRP3 inflammasome inhibitor for
the treatment of NLRP3-related disease.
Background
Small nuclear RNA (snRNA) levels are extremely variable across a wide range of biological conditions. SnRNAs could potentially regulate alternative splicing to drive genetic, dysplastic and neoplastic disease, which might be the main reason for mRNA profile alteration in tumor educated platelets (TEPs).
Methods
Platelets were isolated from the plasma of lung cancer patients and healthy donors by low-speed centrifugation and subjected to RNA isolation. SnRNA U1, U2, U5 levels were detected by quantitative real-time polymerase chain reaction (qRT-PCR). Exosomes were isolated by ultracentrifugation and identified by qNano.
Results
TEP U1, U2, U5 levels were significantly decreased in patients with lung cancer as well as with early stage patients, their downregulation was correlated with lung cancer progression, possessing favorable diagnostic efficiency. More importantly, TEP U1, U2 and U5 levels were closely correlated between paired exosomes and TEP from treated patients but not from untreated ones, and U1, U5 but not U2 in platelets were elevated by apo-exosomes.
Conclusion
Tumor educated platelet small nuclear RNAs are downregulated and act as promising biomarkers in lung cancer.
A capillary electrophoresis coupled with electrochemiluminescent detection system (CE-ECL) was developed for the detection of polymerase chain reaction (PCR) amplicons. The ECL luminophore, tris(1,10-phenanthroline) ruthenium(II) (Ru(phen)(3)(2+)), was labeled to the PCR primers before amplification. Ru(phen)(3)(2+) was then introduced to PCR amplicons by PCR amplification. Eventually, the PCR amplicons were separated and detected by the homemade CE-ECL system. The detection of a typical genetically modified organism (GMO), Roundup Ready Soy (RRS), was shown as an example to demonstrate the reliability of the proposed approach. Four pairs of primers were amplified by multiple PCR (MPCR) simultaneously, three of which were targeted on the specific sequence of exogenous genes of RRS, and another was targeted on the endogenous reference gene of soybean. Both the conditions for PCR amplification and CE-ECL separation and detection were investigated in detail. Results showed that, under the optimal conditions, the proposed method can accurately identifying RRS. The corresponding limit of detection (LOD) was below 0.01% with 35 PCR cycles.
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