Global ETD Search

61	INVESTIGATION OF NOVEL THERAPIES AND DELIVERY SYSTEMS FOR TREATMENT OF HEPATOCELLULAR CARCINOMA Badawi, Mohamed A. January 2017 (has links) No description available. Pharmaceuticals Hepatocellular carcinoma miRNA extracellular vesicles exosomes INK128 mTOR inhibitors pharmacokinetics
62	Molecular characterization of seminal plasma from boars with divergent sperm quality Dlamini, Notsile Hleliwe 12 May 2023 (has links) (PDF) Seminal plasma (SP) is the microenvironment of spermatozoa whose composition reflects semen quality and constitutes an excellent source for detecting non-invasive biomarkers. This study characterizes good vs. poor quality semen using seminal extracellular vesicles coupled proteins and miRNA. Fresh boar semen samples were screened, centrifuged, and SP supernatants were collected for near-infrared spectroscopy (NIRS) analysis. EVs were extracted from SP (SP-EVs), characterized, and those of extremely poor or good sperm quality groups were subjected to proteomics and small RNA sequencing. Significant differences were set for P semen semen quality extracellular vesicles miRNAs near-infrared spectroscopy pigs Animal Sciences Bioinformatics
63	Mesenchymal Stromal Cells to Treat Lung and Brain Injury in Neonatal Models of Chronic Lung Disease Lithopoulos, Marissa Athena 13 May 2021 (has links) Preterm birth (<37 weeks) is the world’s principal cause of death of children <5 years of age. Bronchopulmonary dysplasia (BPD) is the most common complication of preterm birth. BPD is characterized by an arrest in alveolar and vascular development within the lung. It is a multifactorial disease, caused by a combination of supplemental oxygen, mechanical ventilation, and inflammation. BPD is also an independent risk factor for abnormal neurodevelopment. The link between BPD and abnormal neurodevelopment is poorly understood and there are currently no effective cures for these complications. We hypothesized that a crucial cell population for brain development, i.e., the neural progenitor cell (NPC) is functionally impaired in BPD and that this impairment is associated with abnormal neurodevelopment. Based on our previous findings, we also predicted that human umbilical cord-mesenchymal stromal cell (UC-MSC) extracellular vesicles (EVs), could mitigate both the lung and brain injuries in experimental BPD. We utilized several animal models of BPD, across multiple species, to determine the effects of hyperoxia, mechanical ventilation, and inflammation on the developing lungs and brain. We also utilized UC- MSC therapy to mitigate these injuries. We discovered that hyperoxia exposure damages the developing lungs as well as the brain, leading to cerebrovascular and NPC impairments, as well as reduced neurogenesis. These impairments were associated with neurobehavioural deficits in adulthood. Furthermore, we found that inflammation in combination with mechanical ventilation and hyperoxia also impairs NPC function. Importantly, we demonstrated that UC-MSC EVs can reduce inflammation, improve vascular growth, restore lung growth, and mitigate impairments in NPC self-renewal. This work highlights novel mechanisms of BPD-associated abnormal neurodevelopment and offers potential regenerative medicine therapies to alleviate these outcomes for this vulnerable population. Mesenchymal stromal cells Neonatal lung disease Bronchopulmonary dysplasia Neural progenitor cell Neurodevelopment Extracellular vesicles
64	Role of the tumor microenvironment on mechanosensitive TRPV4 channels and tumor angiogenesis Guarino, Brianna D. 04 August 2021 (has links) No description available. Biomedical Research Molecular Biology Physiology Angiogenesis TRPV4
65	Engineering Extracellular Vesicles as Nano-Carriers for Targeted Payload Delivery andCell Reprogramming Applications Ortega-Pineda, Lilibeth January 2022 (has links) No description available. Biomedical Engineering Biomedical Research Nanomedicine extracellular vesicles cell reprogramming gene therapy nanocarriers
66	Layer 3 pyramidal neurons of rhesus monkeys in aging and after ischemic injury Chang, Wayne Wei-En 23 January 2023 (has links) Layer 3 (L3) pyramidal neurons are involved in intrinsic and extrinsic corticocortical communications that are integral to area specific cortical functions. The functional and morphological properties of these neurons are altered in the lateral prefrontal cortex (LPFC) of aged rhesus monkeys, changes which parallel the decline of working memory (WM) function. What is not yet understood is the time course of these neuronal alternations during the aging process, or the impact of neuronal changes on the function of local networks that underlie WM. By comparing the properties of L3 pyramidal neurons from the LPFC of behaviorally characterized rhesus monkeys over the adult lifespan using whole cell patch clamp recordings and neuronal reconstructions, the present dissertation demonstrates that WM impairment, neuronal hyperexcitabilty and spine loss begin in middle age. We use bump attractor models to predict how empirically observed changes affect performance on the Delayed Response Task and Delayed Recognition Span Task (spatial). The performance of both models is affected much more by neuronal hyperexcitability than by synapse loss. In a separate study, we examine pathological changes of L3 pyramidal neurons in the perilesional ventral premotor cortex following acute ischemic injury to the primary motor cortex. Neurons from lesioned monkeys exhibit hyperexcitability and changes the excitatory:inhibitory synaptic balance in favor of inhibition. As oxidative stress and inflammation are known to exacerbate both age-related and injury-induced neuronal pathology, we characterize neuronal properties in both conditions after administering therapeutic interventions which target inflammatory pathways and which have previously been shown to ameliorate behavioral deficits. Chronic dietary curcumin treatment dampens neuronal hyperexcitability in middle-aged subjects, but the neuronal changes are not correlated with WM improvements. Treatment with mesenchymal-derived extracellular vesicles lowers firing rates and restores excitatory:inhibitory synaptic balance, and importantly, these changes correlate significantly with motor function. Neurosciences Aging Extracellular vesicles Ischemic injury Mesenchymal stem cells Pyramidal neurons Rhesus onkeys
67	Analysis of Stiffness Measurement Methods on Extracellular Vesicles / Analys av Styvhetsmätmetoder för Extracellulära Vesiklar Kylhammar, Hanna January 2022 (has links) Extracellular vesicles are important players in cell-to-cell communication and have the potential to be used as biomarkers for decease. The mechanical properties of extracellular vesicles is an active field of research, with new methods and models being developed. In this thesis, two samples of extracellular vesicles containing different levels of membrane protein expressions are investigated using atomic force microscopy. Three models for determining stiffness are applied to the samples: the Hertz model, an adhesion angle dependent model, and the modified Canham-Helfrich model. The Hertz model indicated a higher Young’s Modulus for vesicles without membrane proteins, but with large errors. The adhesion angle dependent model did not provide high enough sensitivity to determine any difference in stiffness between the two samples. The modified Canham-Helfrich model indicated a higher bending modulus for the vesicles with membrane proteins. The results highlight the importance of taking several measurements on each vesicle, in contrast to how the method is currently applied in research. / Extracellulära vesiklar är essentiella komponenter inom cell-till-cell-kommunikation, och har potentialen att kunna användas som sjukdomsmarkörer. Extracellulära vesiklars mekaniska egenskaper är ett aktivt forskningsfält där nya experimentella metoder och teoretiska modeller är under utveckling. I den här arbetet används atomkraftsmikroskopi för att undersöka de mekaniska egenskaperna av två prover av extracellulära vesiklar med olika mängd membranproteiner. Tre modeller för att utvärdera deras styvhet tillämpas: Hertz-modellen, en adhesionsvinkelberoende modell, och den modifierade Canham-Helfrichmodellen. Hertz-modellen indikerade högre elasticitetsmodul för provet med lägre antal membranprotein, men med stora fel i mätningarna. Den adhesionsvinkelbaserade modellen var inte känslig nog att påvisa några skillnader i styvhet mellan proverna. Den modifierade Canham-Helfrich-modellen indikerade att vesiklarna med membranprotein har högre böjmodul än veiklarna utan membranprotein. Resultaten understryker att det är viktigt att göra flertalet mätningar på varje vesikel, i kontrast mot hur modellen tillämpas i dagsläget. Extracellular Vesicles AFM Atomic Force Microscopy Fluorescent Microscopy Extracellulära Vesiklar AFM Atomkraftsmikroskopi Fluorescensmikroskopi Physical Sciences Fysik
68	CD81-guided cell-secreted EV sub-populations for targeted anticancer strategies Gurrieri, Elena 19 July 2023 (has links) Extracellular Vesicles (EVs) are small membranous particles secreted by the cells. They play an important role in intercellular communication and can transport a variety of biomolecules, including proteins, lipids, and nucleic acids, to target cells. The scientific community recently considered EVs attractive candidates for developing targeted drug delivery systems (DDSs), given their biocompatibility, low immunogenicity, stability in biofluids, and capability to cross biological barriers. Most studies have shown the feasibility of incorporating desired moieties at the EV surface through the genetic modification of EV-producing cells, exploiting the fusion with proteins enriched at the EV membrane. Tetraspanins are transmembrane proteins enriched in EVs, already exploited for EV isolation or tracking upon fusion with fluorescent reporters. CD81 is a well-characterized tetraspanin with ubiquitous protein expression, overexpression tolerance and a limited number of encoded protein isoforms with respect to other EV-associated tetraspanins. Here, I have explored a CD81-based approach for EV targeting. CD81, in full-length or truncated form, was used to guide the expression into EVs of an anti-HER2 moiety, namely the light chains of trastuzumab, within three different constructs, including turbo-GFP (tGFP) as a reporter: CD81-tGFP as master control, CD81-antiHER2-tGFP and CD81delta-antiHER2-tGFP. The first part of the project was dedicated to the characterization of chimeric proteins at cellular and vesicular levels. CD81-based constructs were successfully expressed in HEK239T cells with a preferential enrichment in organelle fractions, underlying the expected involvement in the intracellular vesicular trafficking. Next, chimeric proteins were also found in the derived EVs, with a similar expression trend, corroborated by imaging flow cytometry. Nanoparticle tracking analysis and cryogenic electron microscopy acquisitions confirmed that CD81-fusion proteins boosted EV release without altering the size distribution. Subsequently, I tested the binding capacity of the chimeric proteins to HER2 receptor through orthogonal techniques, such as AlphaLISA and immunoprecipitation. Confocal imaging, also on live cells, confirmed EV internalization into breast cancer cells, depending on the recipient cell type and the presence of HER2 receptor. Moreover, chimeric EVs loaded with doxorubicin were able to mediate a concentration-dependent cytotoxic effect on recipient breast cancer cells. Of note, messenger RNA provided a valuable readout of the in vivo delivery capability of the CD81-engineered EVs, since detected by digital droplet PCR in breast cancer tumour xenografts from mice treated with chimeric EVs. The results presented in this thesis highlighted the feasibility of using CD81 fusion proteins for cell targeting and cargo delivery, ultimately opening new perspectives for the development of EV-based therapeutics.
69	Procoagulant Extracellular Vesicles Alter Trophoblast Differentiation inMice by a Thrombo-InflammatoryMechanism Markmeyer, Paulina, Lochmann, Franziska, Singh, Kunal Kumar, Gupta, Anubhuti, Younis, Ruaa, Shahzad, Khurrum, Biemann, Ronald, Huebner, Hanna, Ruebner, Matthias, Isermann, Berend, Kohli, Shrey 26 February 2024 (has links) Procoagulant extracellular vesicles (EV) and platelet activation have been associated with gestational vascular complications. EV-induced platelet-mediated placental inflammasome activation has been shown to cause preeclampsia-like symptoms in mice. However, the effect of EV-mediated placental thrombo-inflammation on trophoblast differentiation remains unknown. Here, we identify that the EV-induced thrombo-inflammatory pathway modulates trophoblast morphology and differentiation. EVs and platelets reduce syncytiotrophoblast differentiation while increasing giant trophoblast and spongiotrophoblast including the glycogen-rich cells. These effects are plateletdependent and mediated by the NLRP3 inflammasome. In humans, inflammasome activation was negatively correlated with trophoblast differentiation marker GCM1 and positively correlated with blood pressure. These data identify a crucial role of EV-induced placental thrombo-inflammation on altering trophoblast differentiation and suggest platelet activation or inflammasome activation as a therapeutic target in order to achieve successful placentation. info:eu-repo/classification/ddc/610 ddc:610
70	The therapeutic/anti-carcinogenic effect of cord blood stem cells-derived exosomes in malignant melanoma Naeem, Parisa January 2022 (has links) Malignant melanoma is an invasive type of skin cancer with high mortality rates, if not detected promptly. The mortality trends are generally linked to multiple dysplastic nevi, positive family history, genetic susceptibility and phenotypic features including fair skin, freckles, numerous atypical nevi, light coloured hair and eyes, inability to tan and prolonged exposure to ultraviolet radiation B (UVB). To date, the major anti-cancer therapeutics for melanoma include surgery, chemotherapy, radiotherapy, and immunotherapy. Recently, extracellular vesicles, especially exosomes, have been highlighted for their therapeutic benefits in numerous chronic diseases such as cancer. Exosomes display multifunctional properties, including inhibition of cancer cell proliferation and initiation of apoptosis. Hence, this study aimed to evaluate the genotoxicity and cytotoxicity of cord blood stem cell-derived (CBSC) exosomes on 6 samples of peripheral blood lymphocytes taken from healthy individuals and melanoma patients and on 3 samples of melanoma (CHL-1) cells. The limited number of samples was due to the time limitations and restrictions that were in place due to the COVID-19 pandemic. In this in vitro study, the optimal concentration of CBSC-derived exosomes (0, 100, 200, 300, 400 μg/ml protein at 24, 48 and 72h treatments) was confirmed by the CCK-8 assay. CBSC exosomes (300 μg/ml) were used to treat lymphocytes and CHL-1 cells in the Comet assay and evaluated using the real-time polymerase chain reaction (qPCR) and Western blotting (WB). The data of the CCK-8 and Comet assays illustrated that exosomes exerted genotoxic effects on CHL-1 cells (CCK-8 assay, ***p < 0.0001), (Comet assay, p <0.05, p < 0.01). However, the data portraying a reduction in the viability of lymphocytes needs further investigation as the number of samples was limited, therefore, further clarification is required. Importantly, no significant adverse effect was observed in healthy lymphocytes when treated with the same exosomes (p = ns). When further challenged with UVA+B radiation, the exosomes did not induce any genoprotective effect on ROS-induced CHL-1 cells, compared to the positive control (p = ns). Our data insinuates that the damage might be caused by inducing apoptosis. The anti-tumourigenic potential of exosomes was observed by activating the p53-mediated apoptotic pathway in CHL-1 cells, up-regulating p53, p21 and caspase 3 and down-regulating BCL-2 at mRNA (p < 0.01, *p <0.001, *p <0.0001) and protein levels (p < 0.05, **p <0.01). The potency of CBSC exosomes in inhibiting cancer progression in CHL-1 cells whilst causing no harm to the healthy lymphocytes makes it an ideal potential candidate for anti-cancer therapy. More samples are required to evaluate the therapeutic effect of exosomes on lymphocytes from cancer patients to fully understand their mechanism of action. Extracellular vesicles Exosomes Melanoma Peripheral blood lymphocytes Apoptosis Anti-carcinogenic Cancer therapeutics Skin cancer

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