30 research outputs found

    DNA minor-groove binders. Design, synthesis and biological evaluation of ligands structurally related to CC-1065, distamycin, and anthramycin

    Get PDF
    Abstract Many natural and synthetic anticancer agents with the ability to interact with DNA have been discovered, but most have little sequence-specificity and often exhibit severe toxicity to normal tissues. Thus, there has been considerable interest in molecular biology and human medicine to find small molecules that can alkylate the DNA in a sequence-specific manner and modify the function of nucleic acids irreversibly. Analogs of naturally occurring antitumor agents, such as distamycin A, which bind in the minor groove of DNA, represent a new class of anticancer compounds currently under investigation. Distamycin A has driven researchers' attention not only for its biological activity, but also for its nonintercalative binding to the minor groove of double-stranded B-DNA, where it forms a strong reversible complex preferentially at the nucleotide sequences consisting of 4-5 adjacent adenine-thymine (AT) base pairs. The pyrrole-amide skeleton of distamycin A has been also used as DNA sequence-selective vehicles for the delivery of alkylating functions to DNA targets, leading to a sharp increase of its cytotoxicity, in comparison to that, very weak, of distamycin itself. In the last few years, several hybrid compounds, in which derivatives of naturally occurring antitumor agents, such as anthramycin or the alkylating unit of the antibiotic CC-1065, have been tethered to distamycin frames. The DNA alkylating and cytotoxic activities against several tumor cell lines are reported and discussed in terms of their structural differences in relation to both the number of N-methyl pyrrole rings and the type of alkylating unit tethered to the oligopeptidic frame

    Формирование эмоциональной культуры как компонента инновационной культуры студентов

    Get PDF
    Homozygosity has long been associated with rare, often devastating, Mendelian disorders1 and Darwin was one of the first to recognise that inbreeding reduces evolutionary fitness2. However, the effect of the more distant parental relatedness common in modern human populations is less well understood. Genomic data now allow us to investigate the effects of homozygosity on traits of public health importance by observing contiguous homozygous segments (runs of homozygosity, ROH), which are inferred to be homozygous along their complete length. Given the low levels of genome-wide homozygosity prevalent in most human populations, information is required on very large numbers of people to provide sufficient power3,4. Here we use ROH to study 16 health-related quantitative traits in 354,224 individuals from 102 cohorts and find statistically significant associations between summed runs of homozygosity (SROH) and four complex traits: height, forced expiratory lung volume in 1 second (FEV1), general cognitive ability (g) and educational attainment (nominal p<1 × 10−300, 2.1 × 10−6, 2.5 × 10−10, 1.8 × 10−10). In each case increased homozygosity was associated with decreased trait value, equivalent to the offspring of first cousins being 1.2 cm shorter and having 10 months less education. Similar effect sizes were found across four continental groups and populations with different degrees of genome-wide homozygosity, providing convincing evidence for the first time that homozygosity, rather than confounding, directly contributes to phenotypic variance. Contrary to earlier reports in substantially smaller samples5,6, no evidence was seen of an influence of genome-wide homozygosity on blood pressure and low density lipoprotein (LDL) cholesterol, or ten other cardio-metabolic traits. Since directional dominance is predicted for traits under directional evolutionary selection7, this study provides evidence that increased stature and cognitive function have been positively selected in human evolution, whereas many important risk factors for late-onset complex diseases may not have been

    Genetic insights into resting heart rate and its role in cardiovascular disease

    Get PDF
    Resting heart rate is associated with cardiovascular diseases and mortality in observational and Mendelian randomization studies. The aims of this study are to extend the number of resting heart rate associated genetic variants and to obtain further insights in resting heart rate biology and its clinical consequences. A genome-wide meta-analysis of 100 studies in up to 835,465 individuals reveals 493 independent genetic variants in 352 loci, including 68 genetic variants outside previously identified resting heart rate associated loci. We prioritize 670 genes and in silico annotations point to their enrichment in cardiomyocytes and provide insights in their ECG signature. Two-sample Mendelian randomization analyses indicate that higher genetically predicted resting heart rate increases risk of dilated cardiomyopathy, but decreases risk of developing atrial fibrillation, ischemic stroke, and cardio-embolic stroke. We do not find evidence for a linear or non-linear genetic association between resting heart rate and all-cause mortality in contrast to our previous Mendelian randomization study. Systematic alteration of key differences between the current and previous Mendelian randomization study indicates that the most likely cause of the discrepancy between these studies arises from false positive findings in previous one-sample MR analyses caused by weak-instrument bias at lower P-value thresholds. The results extend our understanding of resting heart rate biology and give additional insights in its role in cardiovascular disease development

    Designing an efficient build environment to save energy and water consumptions

    No full text
    This paper investigates the potential for water and energy savings achieved in showers equipped with a complex embedded system to recover water heat for instant reuse and collect and treat water discharge for other residential uses. An easy-to-use human computer interface is developed to control the shower functions, create a multisensory experience, make the user aware of consumptions and support decision-making oriented to home eco-sustainability. The interface implements an innovative model to predict the overall shower system behavior and related consumptions. Experimental results are presented to demonstrate the model reliability and the achieved savings

    Low-Frequency Low-Intensity Ultrasounds Do Not Influence the Survival and Immune Functions of Cultured Keratinocytes and Dendritic Cells

    Get PDF
    Low-frequency ultrasounds (US) are used to enhance drug transdermal transport. Although this phenomenon has been extensively analyzed, information on US effects on the single skin cell components is limited. Here, we investigated the possible effects of low-frequency US on viability and immune functions of cultured human keratinocytes and dendritic cells (DC), skin cells involved in the regulation of many immune-mediated dermatoses. We demonstrated that US, employed at low-frequency (42 KHz) and low-intensity (0.15 W/cm2) values known to enhance drug and water transdermal transport, did not affect extracellular-signal-regulated-kinase (ERK)1/2 activation, cell viability, or expression of adhesion molecules in cultured keratinocytes. Moreover, US at these work frequency and intensity did not influence the keratinocyte expression and release of immunomodulatory molecules. Similarly, cultured DC treated with low-frequency low-intensity US were viable, and did not show an altered membrane phenotype, cytokine profile, nor antigen presentation ability. However, intensity enhancement of low-frequency US to 5 W/cm2 determined an increase of the apoptotic rate of both keratinocytes and DC as well as keratinocyte CXCL8 release and ERK1/2 activation, and DC CD40 expression. Our study sustains the employment of low-frequency and low-intensity US for treatment of those immune skin disorders, where keratinocytes and DC have a pathogenetic role

    Preparation of O-substituted-dibenzyl (thio)urea derivatives as TRPV1 receptor antagonists.

    No full text
    none6Title compds. [I; wherein A = (CH2)n, n is 0, 1, or 2; X = halo; Y = O or S; R1 = 2-hydroxyethyl, 2,3-dihydroxypropyl, etc.; R2 = CF3 or t-Bu] were prepd. as TRPV1 (transient receptor potential vanilloid 1) receptor antagonists, useful in the treatment of, e.g., inflammation. Thus, the invention compd. II was prepd. by substitution of 2-bromo-4-hydroxy-5-methoxy-N-acetyl benzylamine with 3-chloro-1,2-dihydroxypropane (84%) followed by deprotection in quant. yield and reaction with 4-trifluoromethylbenzyl isothiocyanate (58%) and gave a Ki value of 27 nM in the radioligand binding assay.noneBaraldi P.G.; Borea P.A.; Geppetti P.; Fruttarolo F.; Pavani M.G.; Trevisani M.Baraldi, Pier Giovanni; Borea, Pier Andrea; Geppetti, P.; Fruttarolo, Francesca; Pavani, Maria Giovanna; Trevisani, Marcell

    O-SUBSTITUTED-DIBENZYL UREA-DERIVATIVES AS TRPV1 RECEPTOR ANTAGONISTS

    No full text
    The invention relates to compounds of formula (I) wherein R is halogen; R 1 is selected from 2-hydroxyethyl, 2,3-dihydroxypropyl, 3-hydroxypropyl, 2,2-dihydroxyethyl, 3,3-dihydroxypropyl, aminomethyl, 2-aminoethyl, 3-aminopropyl, 3-amino-2-hydroxypropyl, ..
    corecore