Project description:We recently discovered that protein components of the ribonucleic acid (RNA) spliceosome form cytoplasmic aggregates in Alzheimer's disease (AD) brain, resulting in widespread changes in RNA splicing. However, the involvement of small nuclear RNAs (snRNAs), also key components of the spliceosome complex, in the pathology of AD remains unknown. Using immunohistochemical staining of post-mortem human brain and spinal cord, we identified cytoplasmic tangle-shaped aggregates of snRNA in both sporadic and familial AD cases but not in aged controls or other neurodegenerative disorders. Immunofluorescence using antibodies reactive with the 2,2,7-trimethylguanosine cap of snRNAs and transmission electron microscopy demonstrated snRNA localization with tau and paired helical filaments, the main component of neurofibrillary tangles. Quantitative real-time polymerase chain reaction (PCR) showed U1 snRNA accumulation in the insoluble fraction of AD brains whereas other U snRNAs were not enriched. In combination with our previous results, these findings demonstrate that aggregates of U1 snRNA and U1 small nuclear ribonucleoproteins represent a new pathological hallmark of AD.

Project description:The E(280)/E(260) ratio was found to be suitable for following the ionization of cytosine residues of polynucleotides on the basis of studies with model compounds such as oligoguanylic acid, oligocytidylic acid, a complex formed between polyadenylic acid and polyuridylic acid, and a copolymer of guanylic acid and cytidylic acid, provided that changes in secondary structure were taken into account. The pK of cytosine residues of a polynucleotide in the amorphous form was found to be 4.70 at 25 degrees in 0.1m-sodium phosphate on the basis of titration at 75-85 degrees and on the assumption that the heat of ionization was the same as the value (5.2kcal./mole) found for CMP. In contrast, the pK of cytosine residues in the double-helical form of DNA was found to be about 3.25. These observations were utilized in estimating the fraction of cytosine residues in helical segments of ribosomal RNA, a copolymer of guanylic acid and cytidylic acid, and a copolymer of adenylic acid, guanylic acid, uridylic acid and cytidylic acid. The ionization of guanine and uracil residues was estimated from changes in the E(270)/E(260) ratio and E(230)/E(260) ratio respectively. In the amorphous form of RNA both residues had the same pK, whereas in the double-helical form ionization was suppressed. The fraction of guanine and uracil residues in amorphous segments may be estimated from the titration curves. The difference in the denaturation spectrum of adenine--uracil and guanine--cytosine base pairs at 280mmu was enhanced in acidic solutions whereas E(260) was hardly affected. Hence a comparison of the increments in E(280) and E(260) obtained on increasing the temperature at constant pH may be used to distinguish the melting ranges of helical domains differing in nucleotide composition. In alkaline solutions comparison of the increments in E(260) and E(270) yields similar information. In acidic solutions the fraction of cytosine residues involved in helical secondary structure, the degree of ionization of cytosine residues and the fraction of adenine--uracil base pairs denatured may be estimated from DeltaE(265) and DeltaE(280). In alkaline solutions the fractions of guanine and uracil residues involved in secondary structure and the degrees of ionization of these residues may be estimated from DeltaE(230), DeltaE(245), DeltaE(260) and DeltaE(280).

Project description:Multiple sclerosis (MS) is a chronic fatal central nervous system (CNS) disease involving in complex immunity dysfunction. Recently, long noncoding RNAs (lncRNAs) were discovered as the important regulatory factors for the pathogenesis of MS. However, these findings often cannot be repeated and confirmed by the subsequent studies. We considered that the small-scale samples or the heterogeneity among various tissues may result in the divergence of the results. Currently, RNA-seq has become a powerful approach to quantify the abundances of lncRNA transcripts. Therefore, we comprehensively collected the MS-related RNA-seq data from a variety of previous studies, and integrated these data using an expression-based meta-analysis to identify the differentially expressed lncRNA between MS patients and controls in whole samples and subgroups. Then, we performed the Jensen-Shannon (JS) divergence and cluster analysis to explore the heterogeneity and expression specificity among various tissues. Finally, we investigated the potential function of identified lncRNAs for MS using weighted gene co-expression network analysis (WGCNA) and gene set enrichment analysis (GSEA), and 5,420 MS-related lncRNAs specifically expressed in the brain tissue were identified. The subgroup analysis found a small heterogeneity of the lncRNA expression profiles between brain and blood tissues. The results of WGCNA and GSEA showed that a potential important function of lncRNAs in MS may be involved in the regulation of ribonucleoproteins and tumor necrosis factor cytokines receptors. In summary, this study provided a strategy to explore disease-related lncRNAs on genome-wide scale, and our findings will be benefit to improve the understanding of MS pathogenesis.

Project description:Use of ribonucleic acid (RNA) interference to regulate protein expression has become an important research topic and gene therapy tool, and therefore, finding suitable vehicles for delivery of small RNAs into cells is of crucial importance. Layered double metal hydroxides such as hydrotalcite (HT) have shown great promise as nonviral vectors for transport of deoxyribose nucleic acid (DNA), proteins, and drugs into cells, but the adsorption of RNAs to these materials has been little explored. In this study, the binding of small RNAs with different lengths and levels of secondary structure to HT nanoparticles has been analyzed and compared to results obtained with small DNAs in concurrent experiments. Initial experiments established the spectrophotometric properties of HT in aqueous solutions and determined that HT particles could be readily sedimented with near 100% efficiencies. Use of RNA+HT cosedimentation experiments as well as electrophoretic mobility shift assays demonstrated strong adsorption of RNA 25mers to HT, with twofold greater binding of single-stranded RNAs relative to double-stranded molecules. Strong affinities were also observed with ssRNA and dsRNA 54mers and with more complex transfer RNA molecules. Competition binding and RNA displacement experiments indicated that RNA-HT associations were strong and were only modestly affected by the presence of high concentrations of inorganic anions.

Project description:1. The u.v.-absorption spectrum of ribosomal RNA from rabbit reticulocytes was studied as a function of temperature at different pH values. The changes in the spectrum over the range 220-320mmu were interpreted on the basis of the assumption that the effect of denaturation and ionization are additive. The results suggest that in neutral salt solutions the secondary structure of the ribosomal RNA samples studied is due to two species of helical segments stabilized principally, if not solely, by complementary base pairs but differing in nucleotide composition: each species appears to be heterogeneous in other respects in view of the breadth of the melting ranges. 2. The number of base pairs per helical segment was estimated to be small (between 4 and 17) on the basis of the relation between melting temperature and chain length previously established by Lipsett and others for model compounds. Small fragments (about 2s) obtained by alkaline hydrolysis appeared to form the same helical segments as the intact molecule in accord with the estimated size of these segments. 3. Specific nucleotide sequences appear necessary to account for the hysteresis observed on titrating ribosomal RNA with acid or alkali within the range pH3.0-7.0 since this phenomenon was less pronounced for Escherichia coli transfer RNA and for RNA from turnip yellow-mosaic virus.

Project description:BackgroundShort interfering RNAs (siRNAs) have become the research tool of choice for gene suppression, with human clinical trials ongoing. The emphasis so far in siRNA therapeutics has been the design of one siRNA with complete complementarity to the intended target. However, there is a need for multi-targeting interfering RNA in diseases in which multiple gene products are of importance. We have investigated the possibility of using a single short synthetic duplex RNA to suppress the expression of VEGF-A and ICAM-1; genes implicated in the progression of ocular neovascular diseases such as diabetic retinopathy.ResultsDuplex RNA were designed to have incomplete complementarity with the 3'UTR sequences of both target genes. One such duplex, CODEMIR-1, was found to suppress VEGF and ICAM-1 by 90 and 60%, respectively in ARPE-19 cells at a transfected concentration of 40 ng/mL. Use of a cyan fusion reporter with target sites constructed in its 3'UTR demonstrated that the repression of VEGF and ICAM-1 by CODEMIR-1 was indeed due to interaction with the target sequence. An exhaustive analysis of sequence variants of CODEMIR-1 demonstrated a clear positive correlation between activity against VEGF (but not ICAM-1) and the length of the contiguous complementary region (from the 5' end of the guide strand). Various strategies, including the use of inosine bases at the sites of divergence of the target sequences were investigated.ConclusionOur work demonstrates the possibility of designing multitargeting dsRNA to suppress more than one disease-altering gene. This warrants further investigation as a possible therapeutic approach.

Project description:The effect of the chemical structure of selected phenolic acids on the molecular organization of gliadins was investigated with the application of Fourier Transform Infrared (FTIR) technique, steady-state, and time-resolved fluorescence spectroscopy. Hydroxybenzoic (4-hydroxybenzoic, protocatechuic, vanillic, and syringic) and hydroxycinnamic (coumaric, caffeic, ferulic, sinapic) acids have been used as gliadins modifiers. The results indicated that hydroxybenzoic acids due to their smaller size incorporate into spaces between two polypeptide chains and form a hydrogen bond with them leading to aggregation. Additionally, syringic acids could incorporate into hydrophobic pockets of protein. Whereas hydroxycinnamic acids, due to their higher stiffness and larger size, separated polypeptide chains leading to gliadin disaggregation. These acids did not incorporate into hydrophobic pockets.

Project description: Not available

Project description:BACKGROUND: Molecular signaling in in vitro fertilization procedures seems to play a crucial role for embryonic development. In a prospective blinded cohort study, we investigated the role of microRNAs (miRNA) and extracellular vesicles (EV) as potential carriers of miRNAs in embryonic culture media. METHODS: Embryonic culture media from 56 female partners undergoing infertility treatment. miRNA microarray and RT-qPCR assays in combination with bioinformatics were used for the screening, validation and analysis of identified miRNAs. Nanoparticle tracking analysis was applied to measure EV in culture media. RESULTS: The overall miRNA repertoire in culture media was astonishingly complex: 621 miRNAs were present in embryonic culture media. Samples with positive outcome had an overall decreased miRNA repertoire, with the largest effects for miR-29c-3p. RT-qPCR measurements were largely consistent with the microarray results. Comparison to human spermatozoa profiles highlighted that a large part of spermatozoa miRNAs (101 miRNAs) are also present in culture media following embryonic transfer. As potential carrier molecules that could be of relevance for the decreased miRNA repertoire in samples with positive outcome we investigated EV in a small proof-of-concept study. While the size distribution was similar between both cohorts, the total number of EV in pure culture media was zero, in culture media of patients with positive outcome 3.8 billion per ml and in culture media of samples with negative outcome 7.35 billion per ml, correlating well with the results for the miRNAs. CONCLUSIONS: Embryonic culture media of pre-implantation embryos contains a stable population of highly specific to ubiquitous miRNAs that are correlated to embryogenesis and spermatogenesis processes. These miRNAs are potentially harbored by EV.

Project description:BACKGROUND: Few genetic markers useful for the screening of lung cancer risk exist. Although related research has shown that certain expression profiles of micro ribonucleic acids (miRNAs) are different in lung cancer versus the normal lung, such as miR-29a and miR-29s, the precise molecular mechanism of lung cancer remains obscure. In order to get a better understanding of the pathogenetic mechanism of lung cancer, we analyzed the differentially expressed genes (DEGs) and identified featured miRNAs in lung cancer tissues. METHODS: We used the gene expression profile GSE10072, including 49 gene chips of non-tumor tissues and 58 gene chips of lung tumor specimens. The DEGs between these two groups were identified by Limma package in R language. The TarBase database was used to construct the networks of miRNA regulating DEGs related to lung cancer. After ordering miRNAs regulating DEGs, we further screened featured miRNAs combined with the miR2Disease database. RESULTS: A total of 5572 DEGs were obtained between lung cancer and control specimens. After constructing a miRNA regulatory network, a total of 398 regulations between 57 miRNAs and 321 target genes existed. By intergrating the miR2Disease database and using a sorting algorithm, a total of six featured miRNAs related to lung cancer were identified, including miR-520h, miR-133a, miR-34, miR-103, miR-370, and miR-148. They might be involved in lung cancer progression by regulating ABCG2, PKM2, VAMP2, GPD1, MAP3K8, and DNMT3B, respectively. CONCLUSION: The top 10 significant miRNAs, such as miR-520h, miR-133a, miR-34, and miR-103 may be potential therapeutic targets for lung cancer.