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121.
Deborah M. Money Emily C. Wagner Evelyn J. Maan Tessa Chaworth-Musters Izabelle Gadawski Julie E. van Schalkwyk John C. Forbes David R. Burdge Arianne Y. K. Albert Zoe Lohn Hélène C. F. C?té The Oak Tree Clinic Research Group 《PloS one》2015,10(8)
Introduction
Combination antiretroviral therapy (cART) can effectively prevent vertical transmission of HIV but there is potential risk of adverse maternal, foetal or infant effects. Specifically, the effect of cART use during pregnancy on mitochondrial DNA (mtDNA) content in HIV-positive (HIV+) women is unclear. We sought to characterize subclinical alterations in peripheral blood mtDNA levels in cART-treated HIV+ women during pregnancy and the postpartum period.Methods
This prospective longitudinal observational cohort study enrolled both HIV+ and HIV-negative (HIV-) pregnant women. Clinical data and blood samples were collected at three time points in pregnancy (13-<23 weeks, 23-<30 weeks, 30–40 weeks), and at delivery and six weeks post-partum in HIV+ women. Peripheral blood mtDNA to nuclear DNA (nDNA) ratio was measured by qPCR.Results
Over a four year period, 63 HIV+ and 42 HIV- women were enrolled. HIV+ women showed significantly lower mtDNA/nDNA ratios compared to HIV- women during pregnancy (p = 0.003), after controlling for platelet count and repeated measurements using a multivariable mixed-effects model. Ethnicity, gestational age (GA) and substance use were also significantly associated with mtDNA/nDNA ratio (p≤0.02). Among HIV+ women, higher CD4 nadir was associated with higher mtDNA/nDNA ratios (p<0.0001), and these ratio were significantly lower during pregnancy compared to the postpartum period (p<0.0001).Conclusions
In the context of this study, it was not possible to distinguish between mtDNA effects related to HIV infection versus cART therapy. Nevertheless, while mtDNA levels were relatively stable over time in both groups during pregnancy, they were significantly lower in HIV+ women compared to HIV- women. Although no immediate clinical impact was observed on maternal or infant health, lower maternal mtDNA levels may exert long-term effects on women and children and remain a concern. Improved knowledge of such subclinical alterations is another step toward optimizing the safety and efficacy of cART regimens during pregnancy. 相似文献122.
Question: How does willow‐characterised tundra vegetation of western Eurasia vary, and what are the main vegetation types? What are the ecological gradients and climatic regimes underlying vegetation differentiation? Location: The dataset was collected across a wide spectrum of tundra habitats at 12 sites in subarctic and arctic areas spanning from NW Fennoscandia to West Siberia. Methods: The dataset, including 758 vegetation sample plots (relevés), was analysed using a TWINSPAN classification and NMDS ordination that also included analyses of vegetation‐environment correlations. Results: Based on the TWINSPAN classification, eight vegetation types characterised by willow (cover of upright willows >10%) were discerned: (1) Salix glauca‐Carex aquatilis type, (2) Aulacomnium‐Tomentypnum type, (3) Salix‐Betula‐Hylocomium type, (4) Salix lanata‐Brachythecium mildeanum type, (5) Salix‐Pachypleurum type, (6) S. lanata‐Myosotis nemorosa type, (7) Salix‐Trollius‐Geranium type and (8) Salix‐Comarum palustre‐Filipendula ulmaria type. Willow‐characterised vegetation types were compositionally differentiated from other tundra vegetation and were confined to relatively moist valley and sloping tundra sites, from mire to mineral soils. These vegetation types were encountered across a broad latitudinal zone in which July mean temperature ranged from 6 to 10°C. Conclusions: Willow‐characterised tundra vegetation forms a broad category of ecologically and geographically differentiated vegetation types that are linked to dwarf shrub tundra, shrub tundra or mire. Because of complex ecological gradients underlying compositional differentiation, predicting the responses of willow‐characterised tundra vegetation to a warming climate may be complicated. 相似文献
123.
Seon-Yeong Kwak Briony E. Forbes Yoon-Sik Lee Alessia Belgi John D. Wade Mohammed Akhter Hossain 《International journal of peptide research and therapeutics》2010,16(3):153-158
Numerous analogues of insulin have been prepared over the past three decades for use in diabetic therapy. However, only two long-acting insulins have been approved for clinical use. One is Levemir (Novo Nordisk) and the other is Lantus (Sanofi-Aventis). Glargine (commercial name: Lantus) is characterized by a substitution of Gly in place of Asn at the C terminus of the A-chain and addition of two Arg residues to the C terminus of the B-chain. Despite the clinical advantages of glargine, it is not without concern that its increased affinity for the IGF-1 receptor may correlate with increased mitogenic activity. Recently, a systematic study of modified analogues of glargine showed that placement of an extra Arg residue at the N terminus of the A-chain conferred improved insulin:IGF-1 receptor selectivity without significant loss of pharmacological profile. However, as it is difficult to prepare such an analogue in high yield by recombinant DNA methods, we undertook its chemical assembly by our refined solid phase synthesis method. We describe herein its chemical preparation and biological activity in both insulin receptor binding assays and DNA synthesis assays. The synthetic analogue, A0:R glargine, showed slightly reduced affinity for IR-B (twofold) compared to native insulin. In stimulating DNA synthesis, A0:R glargine was slightly less potent compared to insulin or glargine. This result ultimately confirms the previous report that A0:R glargine has a lower potency in mitogenic assays compared to glargine. This glargine analogue thus could be a potential lead compound for drug design and development for the treatment of diabetes. 相似文献
124.
Xiao-Sheng Jiang Peter S. Backlund Christopher A. Wassif Alfred L. Yergey Forbes D. Porter 《Molecular & cellular proteomics : MCP》2010,9(7):1461-1475
Smith-Lemli-Opitz syndrome (SLOS) and lathosterolosis are malformation syndromes with cognitive deficits caused by mutations of 7-dehydrocholesterol reductase (DHCR7) and lathosterol 5-desaturase (SC5D), respectively. DHCR7 encodes the last enzyme in the Kandutsch-Russel cholesterol biosynthetic pathway, and impaired DHCR7 activity leads to a deficiency of cholesterol and an accumulation of 7-dehydrocholesterol. SC5D catalyzes the synthesis of 7-dehydrocholesterol from lathosterol. Impaired SC5D activity leads to a similar deficiency of cholesterol but an accumulation of lathosterol. Although the genetic and biochemical causes underlying both syndromes are known, the pathophysiological processes leading to the developmental defects remain unclear. To study the pathophysiological mechanisms underlying SLOS and lathosterolosis neurological symptoms, we performed quantitative proteomics analysis of SLOS and lathosterolosis mouse brain tissue and identified multiple biological pathways affected in Dhcr7Δ3–5/Δ3–5 and Sc5d−/− E18.5 embryos. These include alterations in mevalonate metabolism, apoptosis, glycolysis, oxidative stress, protein biosynthesis, intracellular trafficking, and cytoskeleton. Comparison of proteome alterations in both Dhcr7Δ3–5/Δ3–5 and Sc5d−/− brain tissues helps elucidate whether perturbed protein expression was due to decreased cholesterol or a toxic effect of sterol precursors. Validation of the proteomics results confirmed increased expression of isoprenoid and cholesterol synthetic enzymes. This alteration of isoprenoid synthesis may underlie the altered posttranslational modification of Rab7, a small GTPase that is functionally dependent on prenylation with geranylgeranyl, that we identified and validated in this study. These data suggested that although cholesterol synthesis is impaired in both Dhcr7Δ3–5/Δ3–5 and Sc5d−/− embryonic brain tissues the synthesis of nonsterol isoprenoids may be increased and thus contribute to SLOS and lathosterolosis pathology. This proteomics study has provided insight into the pathophysiological mechanisms of SLOS and lathosterolosis, and understanding these pathophysiological changes will help guide clinical therapy for SLOS and lathosterolosis.Smith-Lemli-Opitz syndrome (SLOS1; Online Mendelian Inheritance in Man 270400) is a multiple malformation syndrome with cognitive and behavioral deficiencies due to an inborn error of cholesterol synthesis. Typical findings in SLOS include dysmorphic facial features, limb defects, genital anomalies, growth retardation, cognitive disabilities, behavioral problems, and autistic features (for a review, see Ref. 1). The incidence of SLOS has been estimated to be on the order of 1/20,000–1/70,000 (1). SLOS is an autosomal recessive disorder caused by mutation of the 7-dehydrocholesterol reductase gene (DHCR7) (2–4). DHCR7 catalyzes the final step in the Kandutsch-Russel cholesterol biosynthetic pathway. Impaired DHCR7 activity results in increased 7-dehydrocholesterol (7DHC) and decreased cholesterol levels (Fig. 1A). Lathosterolosis is a rare “SLOS-like” malformation syndrome due to mutations of lathosterol 5-desaturase (SC5D) (5–7). SC5D catalyzes the conversion of lathosterol to 7DHC. Thus, in lathosterolosis, like SLOS, there is a deficiency of cholesterol. However, the accumulating precursor sterol is lathosterol rather than 7DHC (Fig. 1A). Because of its rarity and the fact that all known cases of lathosterolosis were ascertained due to similarity with SLOS, the phenotypic spectrum of lathosterolosis has not been defined.Open in a separate windowFig. 1.Representative 2-DE maps of SLOS and lathosterolosis mouse brain proteins. A, SLOS and lathosterolosis are inborn errors of cholesterol synthesis. SLOS is caused by mutations in the DHCR7 gene. DHCR7 catalyzes the final step in cholesterol synthesis. Lathosterolosis is caused by mutations of the SC5D gene. Cholesterol levels are decreased in both SLOS and lathosterolosis, but the accumulating precursor sterol differs. In SLOS, 7DHC accumulates, whereas in lathosterolosis, the accumulating sterol is lathosterol. B, representative 2-DE maps of control (Dhcr7+/+ and Sc5d+/+), Dhcr7Δ3–5/Δ3–5, and Sc5d−/− mouse brain proteins. Eighty micrograms of the pooled protein sample from Dhcr7+/+, Dhcr7Δ3–5/Δ3–5, Sc5d+/+, and Sc5d−/− embryonic mouse brain tissues were separated on a pH 3–10 nonlinear IPG strip followed by electrophoretic separation on a 12% SDS-polyacrylamide gel. Acidic pH is to the left, and increased molecular mass is at the top. Compared with Dhcr7+/+ mouse brains, the protein spots with significantly decreased or increased expression in Dhcr7Δ3–5/Δ3–5 mouse brains are marked in Dhcr7+/+ and Dhcr7Δ3–5/Δ3–5 mouse brain 2-DE maps, respectively. Compared with Sc5d+/+ mouse brains, the protein spots with significantly decreased or increased expression in Sc5d−/− mouse brains are marked in Sc5d+/+ and Sc5d−/− mouse brain 2-DE maps, respectively. Supplemental Table 2 provides detailed information on the differentially expressed protein spots.Although the genetic and biochemical causes of SLOS are defined, the pathophysiological mechanisms contributing to specific malformations have not been delineated. The classic paradigm for the pathogenesis of an inborn error of metabolism includes the accumulation of a toxic precursor and/or deficiency of an essential product. In the case of SLOS, the observed defects are postulated to be caused, either singly or in combination, by cholesterol deficiency or the accumulation of 7DHC (8, 9).Cholesterol is an essential lipid with multiple critical functions. In addition to being a structural lipid in membranes and myelin, cholesterol is the precursor for bile acid, steroid hormone, neuroactive steroid, and oxysterol synthesis. In cellular membranes, cholesterol rafts are microdomains that function in receptor-mediated signal transduction. Functional defects in IgE receptor-mediated mast cell degranulation and cytokine production (10), N-methyl-d-aspartate receptor function (11), and serotonin 1A receptor ligand binding (12, 13) have been reported in SLOS. The altered sterol composition in SLOS affects the physiochemical properties and function of lipid rafts. Membrane domains incorporating 7DHC differ from those containing only cholesterol in protein composition (14), packing (15), and stability (16–18). Substitution of 7DHC for cholesterol also decreases membrane bending rigidity (19). In addition, model membranes mimicking SLOS membranes have been reported to exhibit atypical membrane organization (20) and curvature (19). These alterations may have functional consequences. Depletion of cholesterol from hippocampal membranes and replenishment with 7-dehydrocholesterol does not restore ligand binding activity of the serotonin 1A receptor despite the recovery of the overall membrane order (12). Cholesterol is also necessary for maturation and function of the hedgehog family of morphogens during embryonic development, and several mechanisms by which sonic hedgehog signaling might be impaired in SLOS have been proposed (21–23).To understand the pathophysiological processes underlying cognitive defects found in SLOS, we need to consider the potential detrimental effects of decreased cholesterol/functional sterol levels versus the potential toxic effects of increased 7DHC. To give insight into pathological effects due to cholesterol deficiency and precursor accumulation, we have produced mouse models deficient in either 7-dehydrocholesterol reductase (11) or lathosterol reductase (6) activity (Dhcr7Δ3–5/Δ3–5 and Sc5d−/−, respectively). Although the two models are similar in many respects, significant differences exist. Dhcr7 pups have relatively few physical malformations other than a low frequency of cleft palate but die during the 1st day of life due to failure to feed (11). In contrast Sc5d mutant embryos are stillborn and have multiple developmental malformations (6). In addition, although secretory granule formation is altered in both models, consistent with differing physiochemical properties of the two precursor sterols, the specific changes differ between the two models (19). For these reasons, a comparison of the two models will provide insight into common mechanisms that are likely due to cholesterol/sterol deficiency and syndrome-specific mechanisms that are due to specific effects of one of the two precursors.We now report the use of two-dimensional electrophoresis (2-DE) mass spectrometry proteomics analysis to identify proteins with altered expression in brain tissue from both Dhcr7 and Sc5d mutants with the goal of identifying novel pathophysiological mechanisms contributing to the neurological deficits in these two inborn errors of cholesterol synthesis. Because our focus was on identifying processes that could contribute to abnormal neurological development, our analysis was focused on brain tissue from E18.5 embryos. This embryonic age was selected because the biochemical defect increases with embryonic age (6, 11), and it is the latest time point for which we could obtain viable tissue for both mutants. Western blot analysis was used to validate selected individual proteins and pathways. Functional annotation suggested that alterations in mevalonate metabolism, glycolysis, oxidative stress, apoptosis, protein biosynthesis, intracellular trafficking, and cytoskeleton may contribute to the pathology of inborn errors of cholesterol synthesis. In addition, our data are consistent with the hypothesis that both cholesterol deficiency and increased precursor sterol levels contribute to SLOS and lathosterolosis pathology. 相似文献
125.
126.
In this study, we report the creation and characterization of a yeast-based promoter-reporter construct for the detection of genotoxic compounds within a cell's local environment. We have synthesized a fusion containing the HUG1 promoter and GFP and incorporated this cassette into the yeast genome creating a stable, sensitive genotoxicity indicator. To quantify biosensor performance, HUG1P-GFP cells were exposed to multiple doses of a wide variety of genotoxins, including alkylating agents, an oxidative agent, a ribonucleotide reductase inhibitor, a UV mimetic agent, an agent that causes double strand breaks, a topoisomerase I inhibitor, and ionizing radiation, all of which triggered a detectable and reproducible level of GFP production by the HUG1P-GFP strain. Furthermore, GFP was not induced by general cell stresses including starvation, heat shock, and acidic pH. These results suggest this system will be a valuable supplement to traditional genotoxicity assays. 相似文献
127.
Differential activation of insulin receptor substrates 1 and 2 by insulin-like growth factor-activated insulin receptors 总被引:6,自引:0,他引:6 下载免费PDF全文
Denley A Carroll JM Brierley GV Cosgrove L Wallace J Forbes B Roberts CT 《Molecular and cellular biology》2007,27(10):3569-3577
The insulin-like growth factors (insulin-like growth factor I [IGF-I] and IGF-II) exert important effects on growth, development, and differentiation through the IGF-I receptor (IGF-IR) transmembrane tyrosine kinase. The insulin receptor (IR) is structurally related to the IGF-IR, and at high concentrations, the IGFs can also activate the IR, in spite of their generally low affinity for the latter. Two mechanisms that facilitate cross talk between the IGF ligands and the IR at physiological concentrations have been described. The first of these is the existence of an alternatively spliced IR variant that exhibits high affinity for IGF-II as well as for insulin. A second phenomenon is the ability of hybrid receptors comprised of IGF-IR and IR hemireceptors to bind IGFs, but not insulin. To date, however, direct activation of an IR holoreceptor by IGF-I at physiological levels has not been demonstrated. We have now found that IGF-I can function through both splice variants of the IR, in spite of low affinity, to specifically activate IRS-2 to levels similar to those seen with equivalent concentrations of insulin or IGF-II. The specific activation of IRS-2 by IGF-I through the IR does not result in activation of the extracellular signal-regulated kinase pathway but does induce delayed low-level activation of the phosphatidylinositol 3-kinase pathway and biological effects such as enhanced cell viability and protection from apoptosis. These findings suggest that IGF-I can function directly through the IR and that the observed effects of IGF-I on insulin sensitivity may be the result of direct facilitation of insulin action by IGF-I costimulation of the IR in insulin target tissues. 相似文献
128.
Benton J Powers A Eiselein L Fitch R Wilson D Villablanca AC Rutledge JC 《American journal of physiology. Regulatory, integrative and comparative physiology》2007,292(2):R723-R730
The overall goal of this project was to examine the interactions of hyperglycemia and loss of ovarian hormones on the artery wall in a type I diabetic mouse model. Intact or ovariectomized (OVX) female BALB/C mice were fed a high-cholesterol diet. Half the animals were treated with steptozotocin to induce insulin-deficient diabetes mellitus, generating four treatment groups: control, intact; control, ovariectomized; diabetic, intact; diabetic, ovariectomized (DOVX). We examined arterial structure and function and found that 1) diabetes and ovariectomy additively increased endothelial layer permeability, 2) arterial stiffening was increased in DOVX, 3) DOVX synergistically increased atheroma formation, and 4) ultrastructural evaluation revealed that the basal lamina was often multilayered and formed convoluted aggregates separating endothelium from the internal elastic lamina in diabetic, but not control arteries or arteries from OVX mice. Endothelium overlying these regions formed thin cytoplasmic extensions between these aggregates and was often separated from the basal lamina by electron lucent spaces. Our studies showed that diabetes and loss of ovarian function have additive and synergistic effects to worsen arterial pathophysiology by disrupting the arterial endothelial layer with increased permeability and increased atheroma formation. 相似文献
129.
Turning the other cheek: the viewpoint dependence of facial expression after-effects 总被引:1,自引:0,他引:1
Benton CP Etchells PJ Porter G Clark AP Penton-Voak IS Nikolov SG 《Proceedings. Biological sciences / The Royal Society》2007,274(1622):2131-2137
How do we visually encode facial expressions? Is this done by viewpoint-dependent mechanisms representing facial expressions as two-dimensional templates or do we build more complex viewpoint independent three-dimensional representations? Recent facial adaptation techniques offer a powerful way to address these questions. Prolonged viewing of a stimulus (adaptation) changes the perception of subsequently viewed stimuli (an after-effect). Adaptation to a particular attribute is believed to target those neural mechanisms encoding that attribute. We gathered images of facial expressions taken simultaneously from five different viewpoints evenly spread from the three-quarter leftward to the three-quarter rightward facing view. We measured the strength of expression after-effects as a function of the difference between adaptation and test viewpoints. Our data show that, although there is a decrease in after-effect over test viewpoint, there remains a substantial after-effect when adapt and test are at differing three-quarter views. We take these results to indicate that neural systems encoding facial expressions contain a mixture of viewpoint-dependent and viewpoint-independent elements. This accords with evidence from single cell recording studies in macaque and is consonant with a view in which viewpoint-independent expression encoding arises from a combination of view-dependent expression-sensitive responses. 相似文献
130.
Dicks E Teague JW Stephens P Raine K Yates A Mattocks C Tarpey P Butler A Menzies A Richardson D Jenkinson A Davies H Edkins S Forbes S Gray K Greenman C Shepherd R Stratton MR Futreal PA Wooster R 《Bioinformatics (Oxford, England)》2007,23(13):1689-1691
The undertaking of large-scale DNA sequencing screens for somatic variants in human cancers requires accurate and rapid processing of traces for variants. Due to their often aneuploid nature and admixed normal tissue, heterozygous variants found in primary cancers are often subtle and difficult to detect. To address these issues, we have developed a mutation detection algorithm, AutoCSA, specifically optimized for the high throughput screening of cancer samples. Availability: http://www.sanger.ac.uk/genetics/CGP/Software/AutoCSA. 相似文献