6 research outputs found

    The effect of stem cells on ICP/MAP in diabetic rats.

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    <p>The random effects model forest plot graph shows that stem cell therapy could significantly improve the ICP/MAP compared with the control group.</p

    The effect of stem cells on changes in the structure and molecule of the cavernous body in diabetic rats.

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    <p>a. the smooth muscle content was increased by stem cell therapy; b. endothelium content was also increased; c. stem cell therapy could enhance the expression of eNOS; d. more expression of nNOS was detected in stem cell therapy group; e. stem cells lead to more secretion of VEGF; f. the apoptotic cells were reduced by stem cell therapy; g. stem cell therapy increased the ratio of smooth muscle to collagen in the cavernosum.</p

    DataSheet_1_A novel cuproptosis pattern and tumor immune microenvironment characterization in urothelial carcinoma of the bladder.zip

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    BackgroundUrothelial carcinoma of the bladder (UCB) is the most prevalent malignant tumor of the urinary system worldwide, which has a significant recurrence rate despite multiple treatment options available. As a unique and novel copper-dependent programmed cell death mechanism, the comprehensive impact of cuproptosis on the tumor immune microenvironment, clinicopathological characteristics and the prognosis of patients remains largely unclear.MethodsA total of 568 UCB samples were thoroughly examined for cuproptosis patterns using data downloaded from TCGA and GEO, based on 10 cuproptosis-related genes reported previously. Then, the univariate COX regression analysis was performed on the genes that differed across the various patterns. To measure individual cuproptosis pattern, a cuproptosis score system was constructed using a principal component analysis algorithm. To validate the scoring system, immunohistochemical staining was performed on tumor tissues with different pathological grades, and experiments in vitro were conducted about the differentially expressed genes related to prognosis. Finally, the capacity of scoring system to predict the response to immunotherapy was verified by using data from IMvigor 210 cohort.ResultsFour unique cuproptosis clusters and two gene clusters were finally found by the investigation. The clinical features and prognosis of patients, as well as the mRNA transcriptome, pathway enrichment, and immune cell infiltration in TME, varied dramatically between various cuproptosis clusters and gene clusters. To identify individual cuproptosis patterns in UCB patients, we also established a cuproptosis scoring system. After validation with multiple methods, it was indicated that the score system could predict the prognosis of UCB patients and was significantly connected to clinical features such TNM category, tumor grade, molecular type and ultimate survival status. The clinical outcomes of UCB patients were predicted effectively according to the tumor mutation burden in conjunction with the scoring system. Furthermore, we found that the cuproptosis score had a significant correlation with the response to immunotherapy and the sensitivity to chemotherapy.ConclusionThis study revealed the potential impact of cuproptosis on the UCB tumor immune microenvironment and clinical pathological characteristics. The cuproptosis score system could effectively predict the prognosis of patients and the response to chemotherapy and immunotherapy.</p

    Enzyme-Assisted Metabolically Coated Bimetallic Thalassiosira pseudonana Nanosilica as a Surface-Enhanced Raman Scattering Substrate for Specific Screening of Prostate Cancer Individuals

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    Multicomponent heteronanostructures offering catalytic and optical properties have applications across various fields. Photonic crystals (diatom frustules) coated with Au and copper chalcogenide domains represent a unique nanosystem that integrates multiple plasmon resonances from guided-mode resonance, conduction electrons, and valence holes in a single nanoscale system. In this work, we fabricate an enzyme-assisted photonic crystal-enhanced plasmonic nanosystem using a live diatom (Thalassiosira pseudonana) for surface-enhanced Raman scattering (SERS) quantification of sarcosine, an early stage prostate cancer (PCa) biomarker. The biosynthesized heteronanostructure was constructed by coating bimetallic nanoparticles (Au/CuX) on the diatom frustule via a two-stage cultivation process. A silaffin peptide-tagged sarcosine oxidase (SoX) was designed for specific substrate recognition and oriented conjunction. The components were coupled into a single entity (SoX-immobilized Au/CuX-coated frustule, BioNPS) to overcome the interenzyme distance and analyte trade-offs between mass transport. The sarcosine detection by BioNPS outperforms suspended bimetallic nanoparticles and single NP-coated diatom frustules. The improvement is attributed to the coupling of photonic frustule guided-mode resonance to the localized surface plasmonic resonance of bimetallic NPs via both electromagnetic and CT mechanisms. The cascade reaction in close proximity greatly enhances the catalytic efficiency by 5.47-fold compared to the solution-phase assay. The biochem nanosystem precisely detects tiny sarcosine concentration changes in the urine samples of PCa patients and healthy individuals. As a proof of concept, the in vivo fabrication of photonic/plasmonic heterostructures with tunable properties holds great promise for noninvasive biomarker screening
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