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Apport du transcriptome des cellules mononucléées sanguines à l’étude de cas familiaux et sporadiques atteints de la maladie de Parkinson / Contribution of the transcriptome of peripheral blood mononuclear cells to the study of familial and sporadic cases with Parkinson's diseaseMutez, Eugénie 30 November 2011 (has links)
La maladie de Parkinson (MP) est caractérisée par la mort des neurones dopaminergiques de la substance noire et la présence de corps de Lewy. Son diagnostic reste sujet à des erreurs notamment aux stades précoces. Les cellules mononucléées sanguines périphériques (PBMC) jouent un rôle dans la cascade délétère et sont le reflet d’événements associés à la MP. Même si elles ne représentent qu’un faible pourcentage, les formes génétiquement déterminées permettent d’identifier des sujets à un stade précoce. Nous avons émis l’hypothèse que les PBMC pouvaient constituer un modèle d’étude reflétant certains mécanismes de la dégénérescence du vivant du patient. Nous avons réalisé des études du transcriptome chez différents groupes de sujets malades ou porteurs de mutations pour y déceler les gènes et voies de signalisation cellulaire dérégulés. Nous avons d’abord étudié le profil d’expression génique de sujets porteurs de la mutation G2019S de LRRK2. L’analyse des puces a permis d’identifier des perturbations de voies impliquées dans la MP comme l’oxydation mitochondriale, l’inflammation et la guidance axonale. Des altérations de la voie des MAPK, du cytosquelette d’actine et du transport vésiculaire ont été notées. La liste des gènes dérégulés permet de séparer les individus selon leur statut génétique. La mutation LRRK2 est associée à un profil d’expression génique dès les stades précoces identifiable dans les PBMC. Nous nous sommes ensuite intéressés à une autre forme de MP avec duplication de SNCA. Nous avons caractérisé la relation entre le génotype et le phénotype clinique des sujets de cette famille. La duplication s’étend sur 4,928 Mb, comporte 31 gènes et résulte d’une recombinaison homologue non allélique. L’analyse de l’expression des gènes présents dans la duplication dans les PBMC d’un sujet à un stade pauci-symptomatique a montré une surexpression de SNCA. Nous avons comparé nos analyses chez les porteurs des mutations LRRK2 et SNCA et chez des parkinsoniens sporadiques. Nos analyses montrent que les sujets LRRK2 et les sujets sporadiques présentent des dérégulations communes de voies de signalisation. En revanche, les voies dérégulées chez le sujet dupliqué reflètent la pathogénie de SNCA comme l’autophagie et les voies lysosomales. Nous nous sommes intéressés à l’expression des 4 isoformes de SNCA dans les PBMC de ces 3 groupes d’individus. Les patients sporadiques et LRRK2 montrent une diminution de l’expression des 4 isoformes de SNCA dans leur PBMC. Chez le sujet dupliqué, on observe uniquement une surexpression de l’isoforme 112. Nous avons ensuite identifié les voies moléculaires associée / Parkinson's disease (PD) is prone to misdiagnosis particularly in the early stages. A better understanding of the deleterious mechanisms is essential to identify therapeutic targets and detect the disease earlier. Peripheral blood mononuclear cells (PBMCs) play a role in the deleterious cascade and reflect molecular events associated with PD. Moreover, the study of genetically determined forms of PD enables the identification of subjects at a very early. We hypothesized that PBMCs could be an interesting model to study some mechanisms reflecting the neurodegeneration even at an early stage of the disease. Therefore, we conducted transcriptomic studies in different groups of PD subjects or patients with mutations in order to detect deregulated genes and signaling pathways.We first studied the gene expression profile of PD subjects with the mutation G2019S of the LRRK2 gene. Analysis of microarrays identified disturbances in cell signaling pathways involved in PD. Alterations in the MAPK pathway, the actin cytoskeleton and vesicular transport, associated with the pathogenesis of LRRK2, were noted. The list of deregulated genes separates individuals based on their genetic status including an asymptomatic subject. G2019S LRRK2 mutation is associated to a particular gene expression profile identifiable in PBMCs even at early stage.Then we investigated another form of genetically determined by duplication of SNCA gene. We better characterized the relationship between genotype and clinical phenotype of the subjects. The duplication extends 4.928 Mb, contains 31 genes and results from non-allelic homologous recombination. The analysis of the expression of genes in the PBMCs of a subject carrying the mutation at preclinical stage showed overexpression of SNCA.We compared PBMCs gene expression of G2019S LRRK2 mutation carriers, SNCA duplication carrier and also sporadic PD patients. Our analysis showed that carriers of the LRRK2 mutation and sporadic PD patients have common deregulated signaling pathways that reflect the PD pathogenesis. By contrast, pathways deregulated in the subject with SNCA duplication reflect the pathogenesis of SNCA. In addition, we looked at the expression of SNCA isoforms in PBMCs of these three groups of individuals. Sporadic and LRRK2 patients showed a decreased expression of four isoforms of SNCA in their PBMCs. However, in the duplicated subject, only isoform 112 was overexpressed.Then we used this technology to identify molecular pathways associated with spino-cerebellar ataxia type 2 (SCA2), which provides rarely a parkinsonian phenotype and compared with subjects with a cerebellar phenotype. Again, we identified deregulation of gene expression associated with SCA2 pathogenesis, such as amyotrophic lateral sclerosis and actin cytoskeleton in PBMCs of subjects with parkinsonian and metabolism of RNA and inositol phosphate in cerebellar subjects.Finally, we looked at gene expression in PBMCs according to the evolutionary and clinical stage of PD including individuals at a very early. We compared their gene expression profiles with more advanced PD patients. From the early stages, we observed a deregulation of ERK/MAPK and PI3K/Akt pathways that control cell survival; these findings underscore the importance of these biological pathways in the development of PD.In conclusion, we demonstrated that PBMCs are an interesting model. The transcriptomic studies can get insight into the mechanisms associated with early stages of degeneration and into biological markers, such as SNCA. This technique could be applied in a larger number of subjects including other neurodegenerative diseases to detect specific diagnostic markers of PD.
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Expression Profiling Elucidates a Molecular Gene Signature for Pulmonary Hypertension in SarcoidosisSingla, Sunit, Zhou, Tong, Javaid, Kamran, Abbasi, Taimur, Casanova, Nancy, Zhang, Wei, Ma, Shwu-Fan, Wade, Michael S., Noth, Imre, Sweiss, Nadera J., Garcia, Joe G. N., Machado, Roberto F. 12 1900 (has links)
Pulmonary hypertension (PH), when it complicates sarcoidosis, carries a poor prognosis, in part because it is difficult to detect early in patients with worsening respiratory symptoms. Pathogenesis of sarcoidosis occurs via incompletely characterized mechanisms that are distinct from the mechanisms of pulmonary vascular remodeling well known to occur in conjunction with other chronic lung diseases. To address the need for a biomarker to aid in early detection as well as the gap in knowledge regarding the mechanisms of PH in sarcoidosis, we used genome-wide peripheral blood gene expression analysis and identified an 18-gene signature capable of distinguishing sarcoidosis patients with PH (n = 8), sarcoidosis patients without PH (n = 17), and healthy controls (n = 45). The discriminative accuracy of this 18-gene signature was 100% in separating sarcoidosis patients with PH from those without it. If validated in a large replicate cohort, this signature could potentially be used as a diagnostic molecular biomarker for sarcoidosis-associated PH.
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Evaluation of an Enhanced (Sialyl Lewis-X) Collagen Matrix for Neovascularization and Myogenesis in a Mouse Model of Myocardial InfarctionSofrenovic, Tanja 20 April 2012 (has links)
In cardiovascular disease the repair response is insufficient to restore blood flow, leading to the death of muscle and loss of tissue function. Therefore, strategies to augment the endogenous cell response and its effects may help improve tissue recovery and function. In this study we explored the use of tissue-engineered collagen matrices for augmenting endogenous regenerative processes after myocardial infarction. Treatment with the sLeX-collagen matrix reduced inflammation and apoptosis and had a positive regenerative effect on the infarcted mouse heart, through improved vascular density and possibly enhanced cardiomyogenesis.
Additionally, we investigated the effects of cryopreservation on generating circulating angiogenic cells (CACs) from peripheral blood mononuclear cells (PBMCs), as a potential source of stem cells that could be used in combination with our collagen scaffold. Our findings show that despite PBMCs experiencing phenotypic changes after cryopreservation, they may still be used to generate the same therapeutic CACs as freshly procured PBMCs.
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The immunomodulation of porcine immune cells by innate and synthetic host defense peptides2013 January 1900 (has links)
Dendritic cells (DCs) are potent antigen presenting cells (APCs) that link the innate and adaptive immune system by their unique ability to induce and direct immune responses towards various T helper (Th)-type of immune responses such as Th1-, Th2-, Th9-, Th17-, Th22- or T regulatory (TR). The type of Th response generated very much depends on the nature of the antigen encountered and allows for an effective and proficient immune response. For example, Th1 responses are used to clear intracellular pathogens while Th2 responses are needed to clear extracellular pathogens The ability to specifically modulate Th-responses is an area of intense research, as it allows for the development of more effective vaccines and immunotherapeutics. Immunomodulation of DCs is one strategy by which specific Th-type immune responses may be tailored. Current research is focused on identifying agents that have the capacity to immunomodulate DCs such as host defense peptides (HDPs). Apart from their anti-microbial activities, HDPs have a number of immune functions including recruitment and subsequent activation of DCs.
The goal of this study was to examine the immunomodulatory effects of HDPs on porcine DC functions. This research was part of a larger multinational research project to develop a novel adjuvant platform for single-immunization vaccines against pertussis in neonates. The pig model was used for this research because of its physiological similarities to humans and the recently developed pertussis infection model in young piglets. A series of experiments was conducted to characterize and describe porcine DC functions. Two subsets of DCs were successfully characterized and tested for their response to stimulation with HDPs. Initial results demonstrated a minimal effect of HDPs on DC functions, therefore we expanded the number of HDPs used to include both synthetic derivatives of HDPs known as innate defense regulators (IDRs) and naturally- occurring HDPs. We examined these effects on peripheral blood mononuclear cells (PBMC) in vitro and found that HDPs induce expression of the chemokine interleukin (IL)-8, which resulted in PBMC recruitment in vitro. We then proceeded to evaluate the HDPs in vivo by intradermally administering them into the flank of pigs. Surprisingly, treatment with the HDPs did not result in recruitment of neutrophils in vivo. We also examined the effects of formulating IDR-1002 as an adjuvant with the academic antigen Keyhole Limpet Hemocyanin (KLH) on the development of KLH-specific immune responses in vaccinated pigs. While there was no difference in antibody titers between vaccinated and control animals, we found that co-formulation with IDR-1002 decreased both antigen-specific and mitogen-induced proliferation in KLH/IDR-1002 vaccinated animals as long as four weeks post-treatment. These results demonstrate that specific IDRs can suppress certain aspects of the pro-inflammatory immune response making them potentially highly versatile tools to modulate and tailor the immune response in disease states characterized by a pro-inflammatory component.
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Evaluation of an Enhanced (Sialyl Lewis-X) Collagen Matrix for Neovascularization and Myogenesis in a Mouse Model of Myocardial InfarctionSofrenovic, Tanja 20 April 2012 (has links)
In cardiovascular disease the repair response is insufficient to restore blood flow, leading to the death of muscle and loss of tissue function. Therefore, strategies to augment the endogenous cell response and its effects may help improve tissue recovery and function. In this study we explored the use of tissue-engineered collagen matrices for augmenting endogenous regenerative processes after myocardial infarction. Treatment with the sLeX-collagen matrix reduced inflammation and apoptosis and had a positive regenerative effect on the infarcted mouse heart, through improved vascular density and possibly enhanced cardiomyogenesis.
Additionally, we investigated the effects of cryopreservation on generating circulating angiogenic cells (CACs) from peripheral blood mononuclear cells (PBMCs), as a potential source of stem cells that could be used in combination with our collagen scaffold. Our findings show that despite PBMCs experiencing phenotypic changes after cryopreservation, they may still be used to generate the same therapeutic CACs as freshly procured PBMCs.
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Depletion of Dendritic Cells to Prevent Acute Graft Versus Host Disease.John Wilson Unknown Date (has links)
Acute graft versus host disease (aGVHD) affects more than 40% of patients undergoing haematopoietic stem cell transplantation. aGVHD occurs after transplantation of donor haematopoietic cells into hosts incapable of rejecting the donor cells, when donor T cells attack host tissue. Despite extensive efforts, aGVHD remains problematic to prevent and difficult to control. Current therapies to prevent aGVHD induce profound immunosuppression, leaving patients at increased risk of infection and leukaemic relapse. Dendritic cells (DC) are professional antigen presenting cells of haematopoietic origin and are the primary stimulators of the immune system, uniquely being able to activate naïve T cells. A growing body of evidence suggests that DC are responsible for the stimulation of the donor T cells which cause aGVHD. I have used a model of aGVHD which utilizes conditioned severe combined immunodeficient mice transplanted with human peripheral blood mononuclear cells (PBMC). In this model human CD4+ T cells appear to be responsible for an aGVHD-like syndrome which results in death 15-30 days post transplant. I have shown, using in vitro depletion of individual populations, that other subpopulations of human PBMC did not affect the survival of the mice. I have also demonstrated that human DC are required for the induction of aGVHD in the majority of mice. This novel finding validated the use of this model to test the primary hypothesis; that antibody mediated depletion of DC would prevent aGVHD. The murine IgM monoclonal antibody (Mab), CMRF-44 Mab, is specific for an unknown molecule expressed on the surface of activated human DC. Previous work had shown that when mixed lymphocyte reaction stimulator cells were depleted of CMRF-44+ cells, there was a significant reduction in the proliferation of responder cells. Here I tested the efficacy of CMRF-44 as a therapy for the prevention of aGVHD in the model. CMRF-44 Mab did not improve survival of mice treated with human PBMC, despite recent data showing that CMRF-44 expression on DC was predictive of aGVHD in patients. In vitro depletion of CMRF-44+ cells from human PBMC prior to transplantation also did not reduce incidence of aGVHD. An alternate target for the depletion of human DC was CD83 which is also expressed on the surface of activated human DC. I generated a rabbit polyclonal antibody using a human CD83 fusion protein, which was then affinity purified in a multi-step process which yielded only antibody specific for human CD83. Treatment with this antibody greatly improved survival of transplanted mice. Further experiments showed that anti-CD83 treatment did not abrogate human leucocytes including CD8+ memory T cells suggesting that a therapy using an anti-CD83 antibody has the potential to prevent aGVHD without the immunosuppression associated with current anti-aGVHD therapies. The work described here has validated the use of a human mouse chimeric model as an in vivo assay of human DC function and shown that targeting CD83 has the potential to reduce the incidence of clinical aGVHD whilst preserving donor memory T cells.
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Evaluation of an Enhanced (Sialyl Lewis-X) Collagen Matrix for Neovascularization and Myogenesis in a Mouse Model of Myocardial InfarctionSofrenovic, Tanja January 2012 (has links)
In cardiovascular disease the repair response is insufficient to restore blood flow, leading to the death of muscle and loss of tissue function. Therefore, strategies to augment the endogenous cell response and its effects may help improve tissue recovery and function. In this study we explored the use of tissue-engineered collagen matrices for augmenting endogenous regenerative processes after myocardial infarction. Treatment with the sLeX-collagen matrix reduced inflammation and apoptosis and had a positive regenerative effect on the infarcted mouse heart, through improved vascular density and possibly enhanced cardiomyogenesis.
Additionally, we investigated the effects of cryopreservation on generating circulating angiogenic cells (CACs) from peripheral blood mononuclear cells (PBMCs), as a potential source of stem cells that could be used in combination with our collagen scaffold. Our findings show that despite PBMCs experiencing phenotypic changes after cryopreservation, they may still be used to generate the same therapeutic CACs as freshly procured PBMCs.
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Cellular Stress Assay in Peripheral Blood Mononuclear Cells: Factors Influencing Its ResultsTessema, Belay, Riemer, Janine, Sack, Ulrich, König, Brigitte 13 May 2024 (has links)
Cellular stress is central to the understanding of pathological mechanisms and the development
of new therapeutic strategies and serves as a biomarker for disease progression in neurodegeneration,
diabetes, cancer, cardiovascular and other chronic diseases. The common cellular
stress assay (CSA) based on Seahorse technology in peripheral blood mononuclear cells (PBMCs)
shows inconsistent results, which prevents its use as a biomarker for the progression of chronic
diseases. Therefore, the aim of this study was to investigate potential factors that affect the CSA in
PBMCs. We measured the CSA parameters in PBMCs from study participants and compared the
results according to the potential factors, namely, the PBMC isolation method, age, seasonal variation
and the gender of the study participants. PBMCs were isolated by OptiPrep® and RobosepTM-S
methods. PBMCs isolated with the OptiPrep method showed much higher extracellular acidification
and higher respiration compared to Robosep-isolated cells. Moreover, OptiPrep-isolated cells showed
a higher number of outliers for the proton production rate (PPR) and a high respiratory quotient,
indicating impurities with other cells, such as platelets, and technical inconsistencies. PBMCs from
older individuals showed higher maximal respiration, spare capacity and extracellular acidification
than younger participants. Additionally, in winter, maximal respiration and spare capacity decreased.
From spring until early autumn, spare capacity and maximal respiration continuously increased.
Elderly males also showed higher basal respiration, spare capacity and extracellular acidification
than females. In conclusion, the findings of this study clearly demonstrate that the results of CSA
parameters measured in PBMCs are influenced by the PBMC isolation method, age, seasonal variation
and gender. Therefore, we recommend that researchers and physicians properly interpret the
results of CSA parameters in PBMCs by considering these factors. It is important to use separate
CSA evaluation standards based on the isolation method, age, gender and season-dependent factors.
To assess the cellular stress situation in PBMCs, both extracellular acidification and mitochondrial
respiration should be taken into account. Further study of additional factors, such as mitochondrial
mass, should be conducted to improve the measurement of CSA parameters for the assessment of the
real mitochondrial fitness.
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Effect of gold nanoparticles on H9C2 myoblasts and rat peripheral blood mononuclear cellsZhang, Jingwen, Ma, A., Shang, Lijun 08 1900 (has links)
No / Recent studies have gained positive results using nanoparticles (NPs) in treating atherosclerosis on animals. But their toxicity and application in treating other heart diseases such as heart failure and endocarditis still need proper investigation. Gold nanoparticles (Au-NPs) were chosen as model substances as they have been successfully used in treating cancer.
In this study, we use both H9C2 myoblasts and rat peripheral blood mononuclear cells to determine the influence of Au-NP size on their cytotoxicity and cell apoptosis. H9C2 cells were treated with Au-NPs of a diameter of 5, 20, 40 and 100nmfor 24 hrs before their cell viabilities tested by MTT assay, cell apoptosis measured by flow cytometry, and the generation of reactive oxygen species (ROS) detected by Fluorometric Intracellular ROS Kit. Distribution of the Au-NPs and their effects on the structure of mitochondria and lysosome were detected by electron microscopy. In addition, we obtained rat peripheral blood mononuclear cells and treated them with Au-NPs same with H9C2 cell line.
Our results showed NPs of 5, 40, and 100 nm reduced cell viabilities on H9C2 cells while20nm showed no change on cell viability (Ctrl: 100±8.2 vs 20nm: 95.39±9.13, P>0.05, n=6) and some protect effect on ISO induced H9C2 cells apoptosis (ISO: 100±13.5 vs 20nm: 80.19±17.36, P>0.05, n=6). All size of Au-NPs reduced cell viabilities on rat peripheral blood mononuclear cells while 40nm showed the least reduction on cell viability (Ctrl: 100.0±3.0 vs 40nm: 76.31±3.68, P<0.001, n=6) and significant protect effect on ISO-induced rat peripheral monocytes apoptosis (ISO: 100±1.86 vs 40nm: 45.34±10.32, P<0.05, n=6). In addition, 20nm Au-NP showed some protect effect on ROS generation on ISO-induced H9C2 cells (ISO: 100±3.79 vs 20nm: 94.84±4.98, P>0.05, n=6), while 40nm produced more ROS (ISO: 100±3.79 vs 40nm: 141.63±42.81, P>0.05, n=6). Electron microscopy detection showed correlated results in structure.
These results on H9C2 cell line are basically in agreeable to our animal study. The protective effect of 20nm may due to its ability to protect ISO-induced ROS generation. The results on rat peripheral monocytes are slightly different to those on H9C2 cells. Further investigation need to focus on the role of NPs size on cell apoptosis by detecting autophagy specific protein through western blotting. / Abstract of conference paper.
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A functional genomic model for predicting prognosis in idiopathic pulmonary fibrosisHuang, Yong, Ma, Shwu-Fan, Vij, Rekha, Oldham, Justin M., Herazo-Maya, Jose, Broderick, Steven M., Strek, Mary E., White, Steven R., Hogarth, D. Kyle, Sandbo, Nathan K., Lussier, Yves A., Gibson, Kevin F., Kaminski, Naftali, Garcia, Joe G.N., Noth, Imre January 2015 (has links)
BACKGROUND: The course of disease for patients with idiopathic pulmonary fibrosis (IPF) is highly heterogeneous. Prognostic models rely on demographic and clinical characteristics and are not reproducible. Integrating data from genomic analyses may identify novel prognostic models and provide mechanistic insights into IPF. METHODS: Total RNA of peripheral blood mononuclear cells was subjected to microarray profiling in a training (45 IPF individuals) and two independent validation cohorts (21 IPF/10 controls, and 75 IPF individuals, respectively). To identify a gene set predictive of IPF prognosis, we incorporated genomic, clinical, and outcome data from the training cohort. Predictor genes were selected if all the following criteria were met: 1) Present in a gene co-expression module from Weighted Gene Co-expression Network Analysis (WGCNA) that correlated with pulmonary function (p < 0.05); 2) Differentially expressed between observed "good" vs. "poor" prognosis with fold change (FC) >1.5 and false discovery rate (FDR) < 2 %; and 3) Predictive of mortality (p < 0.05) in univariate Cox regression analysis. "Survival risk group prediction" was adopted to construct a functional genomic model that used the IPF prognostic predictor gene set to derive a prognostic index (PI) for each patient into either high or low risk for survival outcomes. Prediction accuracy was assessed with a repeated 10-fold cross-validation algorithm and independently assessed in two validation cohorts through multivariate Cox regression survival analysis. RESULTS: A set of 118 IPF prognostic predictor genes was used to derive the functional genomic model and PI. In the training cohort, high-risk IPF patients predicted by PI had significantly shorter survival compared to those labeled as low-risk patients (log rank p < 0.001). The prediction accuracy was further validated in two independent cohorts (log rank p < 0.001 and 0.002). Functional pathway analysis revealed that the canonical pathways enriched with the IPF prognostic predictor gene set were involved in T-cell biology, including iCOS, T-cell receptor, and CD28 signaling. CONCLUSIONS: Using supervised and unsupervised analyses, we identified a set of IPF prognostic predictor genes and derived a functional genomic model that predicted high and low-risk IPF patients with high accuracy. This genomic model may complement current prognostic tools to deliver more personalized care for IPF patients.
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