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BACKGROUND: Cardiovascular risk is associated with prediabetes states. Ethnic differences in risks related to prediabetes have not been well studied. The purpose of this study was to examine the relationship between prediabetes and the presence of target-organ disease in terms of ethnic differences. METHODS: Cross-sectional analysis of the Multi-Ethnic Study of Atherosclerosis (MESA) involved a prospective cohort of 6814 participants aged 45-84 years in the US, including Black, white and hispanic subjects from an initial examination in 2000 with no known history of heart attack, stroke or diabetes. Main outcomes were comparisons of markers for coronary artery calcification (CAC), carotid stenosis more than 25%, Ankle-Brachial Index (ABI) less than 1.0 and presence of protein in urine (>30 mg/g) between participants with normal fasting glucose (NFG) and impaired fasting glucose (IFG), and between ethnic groups with prediabetes/IFG. RESULTS: There were 2457 white, 1548 black and 1229 Hispanic participants. After adjustments, there were no differences for each outcome between normal and prediabetes black and Hispanic subjects, whereas white participants with prediabetes had significantly higher odds of carotid stenosis (OR: 1.50), low ABI (OR: 1.77) and albuminuria (OR: 1.66) compared with whites with NFG. When comparing those with IFG/prediabetes by ethnicity, blacks and Hispanics had less CAC and carotid stenosis. In addition, Hispanics had lower reduced ABIs (OR: 0.35, 95% CI 0.19-0.65) compared with whites with IFG. CONCLUSION: Prediabetes is related to the presence of several indicators of end-organ damage in white subjects, but not in blacks or Hispanics. Further longitudinal investigations into disease risks related to prediabetes in different ethnic groups are also needed.

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OBJECTIVE: To evaluate the cross-sectional relationship of anthropometric measures (body mass index (BMI) and visceral fat and the adipokines leptin and adiponectin) with telomere length in a racially diverse sample. DESIGN: Cross-sectional study of participants recruited from a health science university. SUBJECTS: Participants include 317 men and women aged 40-64 years without diagnosed diabetes, cardiovascular disease (defined as coronary heart disease or stroke/transient ischemic attack) or cancer. RESULTS: Study participants were 54.9% female, 58% non-Hispanic white (NHW) and 42% non-Hispanic Black (NHB). Of the sample, 76% were either overweight or obese. Linear regressions showed no association between the anthropometric measures (BMI (kg m(-2)), visceral fat (cm(2)), adiponectin (microg ml(-1)), leptin (ng ml(-1)) or adiponectin to leptin ratio (microg ng(-1))) assessed in a continuous manner and telomere length assay ratio, either for the whole sample or when stratified by race or by gender. CONCLUSION: This study finds no linear associations between telomere length and several measures of obesity in a sample of NHB and NHW men and women. Further studies are needed to identify factors that influence telomere length in diverse populations.

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Conventional and digital holographies are proving to be increasingly important for studies of marine zooplankton and other underwater biological applications. This paper reports on the use of a subsea digital holographic camera (eHoloCam) for the analysis and identification of marine organisms and other subsea particles. Unlike recording on a photographic film, a digital hologram (e-hologram) is recorded on an electronic sensor and reconstructed numerically in a computer by simulating the propagation of the optical field in space. By comparison with other imaging techniques, an e-hologram has several advantages such as three-dimensional spatial reconstruction, non-intrusive and non-destructive interrogation of the recording sampling volume and the ability to record holographic videos. The basis of much work in optics lies in Maxwell's electromagnetic theory and holography is no exception: we report here on two of the numerical reconstruction algorithms we have used to reconstruct holograms obtained using eHoloCam and how their starting point lies in Maxwell's equations. Derivation of the angular spectrum algorithm for plane waves is provided as an exact method for the in-line numerical reconstruction of digital holograms. The Fresnel numerical reconstruction algorithm is derived from the angular spectrum method. In-line holograms are numerically processed before and after reconstruction to remove periodic noise from captured images and to increase image contrast. The ability of the Fresnel integration reconstruction algorithm to extend the reconstructed volume beyond the recording sensor dimensions is also shown with a 50% extension of the reconstruction area. Finally, we present some images obtained from recent deployments of eHoloCam in the North Sea and Faeroes Channel.

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A solid-phase synthesis of 2, 4, 8-substituted pyrimidino[5, 4-d]pyrimidines involving three controlled S(N)Ar reactions has been developed. Exploration of different heterocyclic starting materials and resin-bound intermediates is highlighted. The preferred method starts with the treatment of resin-bound anilines with 2, 4, 8-trichloropyrimidino[5, 4-d]pyrimidine. This intermediate is subsequently treated with various amines in two steps to yield the final products. The scope of each diversity step was determined and a library of 16, 000 compounds was synthesized.

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This unit provides protocols for the synthesis and characterization of 2-5A-antisense nucleic acids. These chimeric oligonucleotides consist of 2',5'-phosphodiester-linked oligoadenylates ligated to 3',5'-deoxyribonucleotides and are readily prepared using phosphoramidite chemistry on CPG solid supports. The 3',5'-deoxyribonucleotide functions as the antisense domain to target a given mRNA sequence, while the 2',5'-phosphodiester-linked oligoadenylate serves to locally activate 2-5A-dependent RNase L, causing the targeted sequence to be cleaved.

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2-Methyladenosine-substituted analogues of 2-5A, p5'A2'p5'A2'p5'(me2A), p5'(me2A)2'p5'A2'p5'A, and p5'(me2A) 2'p5'(me2A)2'pS'(me2A), were prepared via a modification of a lead ion-catalyzed ligation reaction. These 5'-monophosphates were subsequently converted into the corresponding 5'-triphosphates. Both binding and activation of human recombinant RNase L by various 2-methyladenosine-substituted 2-5A analogues were examined. Among the 2-5A analogues, p5'A2'p5'A2'p5'(me2A) showed the strongest binding affinity and was as effective as 2-5A itself as an activator of RNase L. The CD spectra of both p5'(me2A)2'p5'A2'p5'A and p5'A2'p5'A2'p5'(me2A) were superimposable on that of p5'A2'p5'A2'p5'A, indicative of an anti orientation about the base-glycoside bonds as in naturally occurring 2-5A.

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A method is described for monitoring the cleavage of an oligoribonucleotide substrate by the 2-5A-dependent RNase L based on fluorescence resonance energy transfer (FRET). The oligoribonucleotide, rC11U2C7, was labeled covalently at its 5'-terminus with fluorescein and at its 3'-terminus with rhodamine to provide a substrate for RNase L. On cleavage, the fluorescence at 538 nm (with 485 nm excitation) increased by a factor of 2.8, allowing real-time quantitation of the reaction progress. The method was performed easily in a 96-well plate format and allowed quantitative high throughput analyses of RNase L activity with different activators.

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This paper presents the fully automated solid phase synthesis of 2-5A-PNA hybrids. These stable antisense probes cause RNase L mediated hydrolysis of target RNA sequences.

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To define more fully the conditions for 2-5A-antisense inhibition of respiratory syncytial virus (RSV), relationships between 2-5A antisense oligonucleotide structure and the choice of RNA target sites to inhibition of RSV replication have been explored. The lead 2-5A-antisense chimera for this study was the previously reported NIH8281 that targets the RSV M2 RNA. We have confirmed and extended the earlier study by showing that NIH8281 inhibited RSV strain A2 replication in a variety of antiviral assays, including virus yield reduction assays performed in monkey (EC90 = 0.02 microM) and human cells (EC90 = microM). This 2-5A-antisense chimera also inhibited other A strains, B strains and bovine RSV in cytopathic effect inhibition and Neutral Red Assays (EC50 values = 0.1-1.6 microM). The 2'-O-methylation modification of NIH8281 to increase affinity for the complementary RNA and provide nuclease resistance, the introduction of phosphothioate groups in the antisense backbone to enhance resistance to exo- and endonucleases, and the addition of cholesterol to the 3'-terminus of the antisense oligonucleotide to increase cellular uptake, all resulted in loss of activity. Of the antisense chimeras targeting other RSV mRNAs (NS1, NS2, P, M. G, F, and L), only those complementary to L mRNA were inhibitory. These results suggest that lower abundance mRNAs may be the best targets for 2-5A-antisense; moreover, the active 2-5A antisense chimeras in this study may serve as useful guides for the development of compounds with improved stability, uptake and anti-RSV activity.

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2',5'-Oligoadenylate (2-5A) antisense chimeric oligonucleotides were synthesized containing varying 2'-O-methyl-ribonucleotide substitution patterns in the antisense domain. The ability of these composite oligonucleotides to mediate RNase H- and RNase L-catalyzed RNA degradation showed that these two enzymes have different activation requirements.

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To potentiate the 2-5A (2',5'-oligoadenylate)-antisense and peptide nucleic acid (PNA) approaches to regulation of gene expression, composite molecules were generated containing both 2-5A and PNA moieties. 2-5A-PNA adducts were synthesized using solid-phase techniques. Highly cross-linked polystyrene beads were functionalized with glycine tethered through a p-hydroxymethylbenzoic acid linker and the PNA domain of the chimeric oligonucleotide analogue was added by sequential elongation of the amino terminus with the monomethoxytrityl protected N-(2-aminoethyl)-N-(adenin-1-ylacetyl)glycinate. Transition to the 2-5A domain was accomplished by coupling of the PNA chain to dimethoxytrityl protected N-(2-hydroxyethyl)-N-(adenin-1-ylacetyl)glycinate. Finally, (2-cyanoethyl)-N,N-diisopropyl-4-O-(4,4-dimethoxytrityl)butylphosphor amidite and the corresponding (2-cyanoethyl)-N,N-diisopropylphosphoramidite of 5-O-(4,4'-dimethoxytrityl)-3-O-(tert-butyldimethylsilyl)-N6-benzoyladeno sine were the synthons employed to add the 2 butanediol phosphate linkers and the four 2',5'-linked riboadenylates. The 5'-phosphate moiety was introduced with 2-[[2-(4,4'-dimethoxytrityloxy)ethyl]sulfonyl]ethyl-(2-cyanoethyl) -N,N-diisopropylphosphoramidite. Deprotection with methanolic NH3 and tetraethylammonium fluoride afforded the desired products, 2-SA-pnaA4, 2-5A-pnaA8 and 2-5A-pnaA12. When evaluated for their ability to cause the degradation of two different RNA substrates by the 2-5A-dependent RNase L, these new 2-5A-PNA conjugates were found to be potent RNase L activators. The union of 2-5A and PNA presents fresh opportunities to explore the biological and therapeutic implications of these unique approaches to antisense.

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Phosphorothioate oligodeoxyribonucleotides were found to be inhibitors of the 2-5A-dependent RNase L. Inhibitory potency depended upon the chain length of the phosphorothioate oligonucleotide and was dependent on the phosphorothioate substitution pattern, but was not substantially base-dependent.

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RNase L is a latent endonuclease found in reptiles, birds, and mammals. It is activated by the 2',5'-phosphodiester-linked oligoadenylates called 2-5A and has been implicated in the mechanism of action of interferon, as well as in a variety of other biological phenomena such as apoptosis. Covalent linkage of 2-5A to antisense oligonucleotides permits recruitment of RNase L for enhancement of antisense action. The purification of RNase L described herein and the assays for its detection and activation will help to provide further mechanistic details on how this unique nuclease functions and what its biochemical roles may be. In addition, such assays will facilitate the screening of 2-5A-antisense congeners for exploration of the potential therapeutic applications of RNase L.

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The 2-5A system is a recognized mechanistic component of the antiviral action of interferon. Interferon-induced 2-5A synthetase generates 2-5A, which, in turn, activates the latent constitutive RNase L that degrades viral RNA. Chemical conjugation of 2-5A to an antisense oligonucleotide can target the 2-5A-dependent RNase L to the antisense-specified RNA and effect its selective destruction. Such a 2-5A-antisense chimera (NIH351) has been developed that targets a consensus sequence within the respiratory syncytial virus (RSV) genomic RNA. NIH351 was 50- to 90-fold more potent against RSV strain A2 than was ribavirin, the presently approved drug for clinical management of RSV infection. It was similarly active against a variety of RSV strains of both A and B subgroups and possessed a cell culture selectivity index comparable to ribavirin. In addition, the anti-RSV activity of NIH351 was shown to be virus-specific and a result of a true antisense effect, because a scrambled nucleotide sequence in the antisense domain of NIH351 caused a significant decrease in antiviral activity. The 2-5A system's RNase L was implicated in the mechanism of action of NIH351 because a congener with a disabled 2-5A moiety was of greatly reduced anti-RSV effectiveness. These findings represent an innovative approach to the control of RSV replication.

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The 2-5A system is an RNA degradation pathway that can be induced by the interferons (IFNs). Treatment of cells with IFN activates genes encoding several double-stranded RNA (dsRNA)-dependent synthetases. These enzymes generate 5'-triphosphorylated, 2',5'-phosphodiester-linked oligoadenylates (2-5A) from ATP. The effects of 2-5A in cells are transient since 2-5A is unstable in cells due to the activities of phosphodiesterase and phosphatase. 2-5A activates the endoribonuclease 2-5A-dependent RNase L, causing degradation of single-stranded RNA with moderate specificity. The human 2-5A-dependent RNase is an 83.5 kDa polypeptide that has little, if any, RNase activity, unless 2-5A is present. 2-5A binding to RNase L switches the enzyme from its off-state to its on-state. At least three 2',5'-linked oligoadenylates and a single 5'-phosphoryl group are required for maximal activation of the RNase. Even though the constitutive presence of 2-5A-dependent RNase is observed in nearly all mammalian cell types, cellular amounts of 2-5A-dependent mRNA and activity can increase after IFN treatment. One well-established role of the 2-5A system is as a host defense against some types of viruses. Since virus infection of cells results in the production and secretion of IFNs, and since dsRNA is both a frequent product of virus infection and an activator of 2-5A synthesis, the replication of encephalomyocarditis virus, which produces dsRNA during its life cycle, is greatly suppressed in IFN-treated cells as a direct result of RNA decay by the activated 2-5A-dependent RNase. This review covers the organic chemistry, enzymology, and molecular biology of 2-5A and its associated enzymes. Additional possible biological roles of the 2-5A system, such as in cell growth and differentiation, human immunodeficiency virus replication, heat shock, atherosclerotic plaque, pathogenesis of Type I diabetes, and apoptosis, are presented.

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To elucidate further the roles played by the adenine bases in the interaction of RNase L (EC 3.1.2.6) with the 2',5'-oligoadenylate 2-5A, p5'A2'(p5'A2')np5' A, a series of sequence-specific 1-deazaadenosine (c1A)-substituted analogues were synthesized and evaluated for their ability to bind to and activate human RNase L in comparison to earlier reported inosine-substituted congeners of 2-5A. Substitution of only the 5'-terminal adenosine of p5'A2'p5'A2 p5 A with c1A afforded an analogue with strongly diminished RNase L binding and activation ability, while replacement of the second or middle adenosine of p5 A2' p5'A2'p5' A had only a modest effect. In distinct contrast to p5'A2'p5'A2'p5'I, the c1A analogue with the third or 2'-terminal adenosine replacement approached parent p5' A2'p5'A2'p5' A in RNase L activation ability. These results permitted a further dissection of the role of various nucleotidic functional groups in the interaction of 2-5A with RNase L: specifically, that the 5'-terminal adenosine purine N-1 moiety is key for binding to RNase L, while the 2'-terminal adenosine N-6 exocyclic amino group is critical for RNase L activation.

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A new modification of 2-5A-antisense, 2-5A-iso-antisense, has been developed based on a reversal of the direction of the polarity of the antisense domain of a 2-5A-antisense composite nucleic acid. This modification was able to anneal with its target RNA as well as the parental 2-5A-antisense chimera. The 2-5A-iso-antisense oligonucleotide displayed enhanced resistance to degradation by 3'-exonuclease enzyme activity such as that represented by snake venom phosphodiesterase and by that found in human serum. 2-5A-Iso-antisense was able to effect the degradation of a synthetic nontargeted substrate, [5'-32P]pC11U2C7, and two targeted RNAs, PKR and BCR mRNAs, in a cell-free system containing purified recombinant human 2-5A-dependent RNase L. These results demonstrated that the novel structural modification represented by 2-5A-iso-antisense provided a stabilized biologically active formulation of the 2-5A-antisense strategy.

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We have developed chromatographic and spectrophotometric assays for determining the degree of thiolation in phosphatase-resistant 5'-monothiophosphate-capped 2-5A-antisense chimeras. Concomitantly, we have explored the reactivity of this 5'-monophosphorothioate moiety with reporter reagents such as 5-iodoacetomidofluorescein and 5,5'-dithiobis(2-nitrobenzoic acid). On the basis of these reactions, analyses for 5'-monothiophosphate-functionalized 2-5A-antisense chimeras were made possible. Kinetic experiments demonstrated that oligonucleotide backbone negative charge could retard mixed disulfide formation in the reaction of 5,5'-dithiobis(2-nitrobenzoic acid) with 5'-monothiophosphorylated 2-5A-antisense chimeras.

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