Project description:Fundamental changes in the composition and distribution of lipids within the brain are believed to contribute to the cognitive decline associated with Alzheimer’s disease (AD). The mechanisms by which these changes in lipid composition affect cellular function and ultimately cognition are not well understood. Although “candidate gene” approaches can provide insight into the effects of dysregulated lipid metabolism they require a preexisting understanding of the molecular targets of individual lipid species. In this report we combine unbiased gene expression profiling with a genomewide chemogenomic screen to identify the mitochondria as an important downstream target of PC(O-16:0/2:0), a neurotoxic lipid species elevated in AD. Further examination revealed that PC(O-16:0/2:0) similarly promotes a global increase in ceramide accumulation in human neurons which was associated with mitochondrial-derived reactive oxygen species (ROS) and toxicity. These findings suggest that PC(O-16:0/2:0)-dependent mitochondrial dysfunction may be an underlying contributing factor to the ROS production associated with AD.

Project description:Upon entering in contact with the biological environment, nanostructures are immediately covered by biomolecules, and in particular proteins forming the so-called “protein corona” (PC). The phenomenon of PC formation has gained great attention in recent years due to its implication for the use of nanostructures in biomedicine. In fact, it has been shown that the formation of the PC can impact the performance of nanostructures by reducing their stability, causing aggregation, increasing their toxicity, and causing unexpected and undesired nanostructure-cell interactions. In this work, we decided to study for the first time the formation and the evolution of PC on the surface of nanostructured lipid carriers loaded with superparamagnetic iron oxide nanoparticles (SPIONs), before and after the crossing of an in vitro model of the blood-brain barrier. Combining confocal microscopy, direct STochastic Optical Reconstruction Microscopy (dSTORM), and proteomic analysis, we were able to provide a complete analysis of the PC formation and evolution. In particular, we evidence that PC formation is a fast process, being formed around particles even after just 1 min of exposure to fetal bovine serum. Moreover, PC formed around particles is extremely heterogeneous: while some particles have no associated PC at all, others are completely covered by proteins. Lastly, the interaction with an in vitro blood-brain barrier model strongly affects the PC composition: in particular, a large amount of the proteins forming the initial PC is lost after the BBB passage and is partially replaced by new proteins derived from both the brain endothelial cells and from the cell culture medium. Altogether, the presented data could potentially provide new insights into the design and fabrication of lipid nanostructures for the treatment of central nervous system disorders.

Project description:IFrag-/- but not RAG-/- mice develop rapidly progressing bone marrow failure in response to PC lung infection. Changes contributing to accelerated bone marrow cell apoptosis in IFrag-/- mice appear to be initiated around day 7 post infection. To gain further insight into the mechanism underlying the induction of bone marrow failure in IFRag-/- but not RAG-/- mice in response to PC lung infection, IFRag and RAG mice were PC infected via intra-tracheal inocculation of 10e7 nuclei and bone marrow responses were assessed at day 0, and 7 post infection. One group of IFRag-/- mice also received anti-oxidants treatment with N-Acetyl cysteine in drinking water (100mg/ml) throughout the course of infection (IFRag-/- +NAC) as oxidative stress appeared to be a contributing factor. RT2 profiler PCR array, 5 conditions, 3 biological replicates

Project description:Prostate cancer (PCa) is the most common cancer in American men. The American Cancer Society’s estimates for prostate cancer in the United States for 2017 are estimated 161.360 new cases and 26,730 deaths from PCa. To study metastatic properties to bone, PC-3 cell line is mainly used classical human prostatic carcinoma cell line, established and characterized its tumorigenicity from a human prostatic adenocarcinoma metastatic to bone is reported. In addition, PC-3/nkR cell line, natural killer(NK) cells-resistant, was isolated from mammary tumor xenograft studies in mice from PC-3 was implanted to nude mice and fecund to be tumorigenic in the early 2000s. In this study, we investigated secreted proteins of the conditioned media of PC-3 and PC-3/nkR cell lines using comparative proteomics technology to identify the molecular mechanism related to metastatic processes related to PC-3/nkR. Our study showed PC-3/nkR cells are new highly migrated and NK cells-resistant cell-line compared to PC-3 cells, as novel highly malignant tumor cells to study mechanisms of PCa metastatic.

Project description:Pancreatic cancer (PC) is an aggressive cancer with a high mortality rate, necessitating the de-velopment of effective diagnostic, prognostic and predictive biomarkers for disease manage-ment. Aberrantly fucosylated proteins in PC are considered a valuable resource of clinically useful biomarkers. The main objective of the present study was to identify novel plasma glyco-biomarkers of PC using the iTRAQ quantitative proteomics approach coupled with Aleuria au-rantia lectin (AAL)-based glycopeptide enrichment and isotope-coded glycosylation site-specific tagging, with a view to analyzing the glycoproteome profiles of plasma samples from patients with non-metastatic and metastatic PC and gallstones (GS). As a result, 22 glycopeptides with significantly elevated levels in plasma samples of PC were identified. Fucosylated SERPINA1 (fuco-SERPINA1) was selected for further validation in 121 plasma samples (50 GS and 71 PC) using an AAL-based reverse lectin ELISA technique developed in-house. Our analyses revealed significantly higher plasma levels of fuco-SERPINA1 in PC than GS subjects (310.7 ng/ml v.s. 153.6 ng/ml, p = 0.0114). Elevated fuco-SERPINA1 levels were associated with higher TNM stage (p = 0.024) and poorer prognosis for overall survival (log-rank test, p = 0.0083). The increased plasma fuco-SERPINA1 levels support the utility of this protein as a novel prognosticator for PC.

Project description:To determine the global effects of ASCT2 inhibition, we used next generation sequencing to determine mRNA expression changes in PC-3 cells treated with BenSer or GPNA for 48 h. Examination of two different ASCT2 inhibitors BenSer and GPNA in prostate cancer cell line PC-3.

Project description:Our aim was to study the effect of FGF-8 on prostate tumor growth and to identify FGF-8b-associated molecular targets in the orthotopic PC-3 nude mouse model of prostate cancer.

Project description:Transcriptional profiling of the prostate adenocarcinoma cell line PC-3 comparing control cells transfected with a pool of oligonucleotides control (siControl) with cells transfected a pool of oligonucleotides specific to inhibit ARHGAP21 expression (siARHGAP21). The efficiency of the transfection was checked with quantitative PCR and western blotting. Goal was to determine the effects of ARHGAP21 silencing on global PC-3 gene expression. Two-condition experiment, siControl vs. siARHGAP21 PC-3 cells with three biological samples of PC3 cells transfected with a pool of oligonucleotides control (siControl 1, 2 and 3) and three biological samples of PC3 cells transfected with a pool of oligonucleotides specific to inhibit ARHGAP21 (siARHGAP21 1, 2 and 3). For each sample (three siControl and three siARHGAP21), two technical replicates were performed (labelled with Cy3 or Cy5).

Project description:Exosomes are small extracellular vesicles released through fusion of multivesicular bodies with the plasma membrane. The aim of this study was to investigate whether there are any differences in miRNAs in exosomes secreted from the prostate cancer cell line PC-3 and in parent cells, as well as to investigate whether there are any differences in miRNAs in cell lysates from PC-3 cells and the non-cancerous prostate cell line RWPE-1. Exosomes isolated from media of PC-3 cells, RNA isolated from exosomes and parent cells, as well as from RWPE-1 cells. Using 3 biological replicates, 1 replicate per array

Project description:Disease causal mechanism remains largely unknown for most Alzheimer’s disease (AD) genome-wide association studies (GWAS) risk loci, including the Clusterin (CLU) locus. Here, leveraging our approach to identify functional GWAS risk variants that show allele-specific open chromatin (ASoC), we nominated a putative AD causal SNP rs1532278 (T/C) of CLU that showed strong ASoC specifically in iPSC-derived excitatory neurons (iGlut). We found the AD protective allele T of rs1532278 elevated neuronal CLU and promoted neuron excitability. Transcriptomic analysis of iGlut (T/T vs. C/C) co-cultured with mouse astrocytes surprisingly showed allele T upregulated lipid synthesis and astrocytic lipid metabolism pathways. Further corroborative functional studies mechanistically tied allele T to CLU-facilitated neuron-glia lipid transfer and astrocytic lipid droplet (LD) formation. Interestingly, astrocytes with more LD were found to uptake less glutamate likely due to reactive oxygen species (ROS), which may contribute to CLU-promoted neuron excitability. Our study uncovered a previously unappreciated protective role of neuronal CLU in maintaining proper neuronal excitability through lipid-mediated neuron-glia communication.