Objective
Stillbirths are among the most common adverse pregnancy outcomes, with 98% occurring in low‐income countries. More than one‐third occur in sub‐Saharan Africa (SSA). However, the medical ...conditions causing stillbirths and interventions to reduce stillbirths from these conditions are not well documented. We estimated the reductions in stillbirths possible with combinations of interventions.
Design
We developed a computerised model to estimate the impact of various interventions on stillbirths caused by the most common conditions. The model considered the location of obstetric care (home, clinic or hospital) and each intervention's efficacy, penetration and utilisation. Maternal transfers were also considered.
Setting and population
Pregnancies in SSA in 2012.
Methods
For each condition, we created a series of scenarios involving different combinations of interventions and modelled their impact on stillbirth rates.
Main outcome measures
Stillbirths associated with various maternal and fetal conditions and the percentage reduction with various interventions.
Results
Eight to ten maternal and fetal conditions were responsible for most stillbirths, but none for more than 15%. The most common conditions causing stillbirths in SSA include obstructed labour and uterine rupture, fetal distress and umbilical cord complications, fetal growth restriction, pre‐eclampsia/eclampsia, and placental abruption/placenta praevia. Syphilis and malaria contribute smaller numbers. Reducing stillbirths requires appropriate diagnosis and management of each condition, usually including hospital care for monitoring and delivery, often by caesarean section. Maternal syphilis and malaria were the only conditions for which outpatient management alone reduced stillbirth.
Conclusions
Most stillbirths in low‐income countries occur at term and during labour and therefore are preventable by appropriate obstetric care. Management focused on the maternal and fetal conditions that cause stillbirths is necessary to achieve stillbirth rates approaching those found in high‐income countries.
Tweetable
Reducing stillbirth incidence requires appropriate management of each causative condition and often caesarean delivery.
Tweetable
Reducing stillbirth incidence requires appropriate management of each causative condition and often caesarean delivery.
In mammalian cells, biotin is covalently attached to carboxylases and histones and is required for cell proliferation and function. Cellular uptake of biotin (as well as pantothenic acid and lipoic ...acid) is mediated by the sodium-dependent multivitamin transporter, SMVT. Studies of cellular biotin homeostasis have been hampered by the lack of an antibody to SMVT. Here, we describe the synthesis of a rabbit polyclonal antibody to human SMVT. Using this antibody, SMVT has been identified in human peripheral blood mononuclear cells, Caco-2 cells, and HepG2 cells. Moreover, we observed that cells respond to proliferation with increased synthesis of SMVT.
Roles for nutrients in epigenetic events Oommen, Anna M.; Griffin, Jacob B.; Sarath, Gautam ...
The Journal of nutritional biochemistry,
02/2005, Letnik:
16, Številka:
2
Journal Article
Recenzirano
Odprti dostop
The field of epigenetics is the study of modifications of DNA and DNA-binding proteins that alter the structure of chromatin without altering the nucleotide sequence of DNA; some of these ...modifications may be associated with heritable changes in gene function. Nutrients play essential roles in the following epigenetic events. First, folate participates in the generation of
S-adenosylmethionine, which acts as a methyl donor in the methylation of cytosines in DNA; methylation of cytosines is associated with gene silencing. Second, covalent attachment of biotin to histones (DNA-binding proteins) plays a role in gene silencing and in the cellular response to DNA damage. Third, tryptophan and niacin are converted to nicotinamide adenine dinucleotide, which is a substrate for poly(ADP-ribosylation) of histones and other DNA-binding proteins; poly(ADP-ribosylation) of these proteins participates in DNA repair and apoptosis. Here we present a novel procedure to map nutrient-dependent epigenetic marks in the entire genomes of any given species: the combined use of chromatin immunoprecipitation assays and DNA microarrays. This procedure is also an excellent tool to map the enzymes that mediate modifications of DNA and DNA-binding proteins in chromatin. Given the tremendous opportunities offered by the combined use of chromatin immunoprecipitation assays and DNA microarrays, the nutrition community can expect seeing a surge of information related to roles for nutrients in epigenetic events.
Histones are modified post‐translationally, e.g. by methylation of lysine and arginine residues, and by phosphorylation of serine residues. These modifications regulate processes such as gene ...expression, DNA repair, and mitosis and meiosis. Recently, evidence has been provided that histones are also modified by covalent binding of the vitamin biotin. The aims of this study were to identify biotinylation sites in histone H3, and to investigate the crosstalk among histone biotinylation, methylation and phosphorylation. Synthetic peptides based on the sequence of human histone H3 were used as substrates for enzymatic biotinylation by biotinidase; biotin in peptides was probed using streptavidin peroxidase. These studies provided evidence that K4, K9 and K18 in histone H3 are good targets for biotinylation; K14 and K23 are relatively poor targets. Antibodies were generated to histone H3, biotinylated either at K4, K9 or K18. These antibodies localized to nuclei in human placental cells in immunocytochemistry and immunoblotting experiments, suggesting that lysines in histone H3 are biotinylated in vivo. Dimethylation of R2, R8 and R17 increased biotinylation of K4, K9 and K18, respectively, by biotinidase; phosphorylation of S10 abolished biotinylation of K9. These observations are consistent with crosstalk between biotinylation of histones and other known modifications of histones. We speculate that this crosstalk provides a link to known roles for biotin in gene expression and cell proliferation.
Biotin supply may affect transcription of genes and biotinylation of proteins in cells. In this study, Jurkat cells were used to model effects of biotin supply on biotin homeostasis and interleukin-2 ...metabolism in immune cells. Cells were cultured in media containing deficient (25 pmol/L), physiologic (250 pmol/L), or pharmacologic concentrations (10,000 pmol/L) of biotin for 4 wk. Activities of the biotin-dependent enzyme propionyl-CoA carboxylase paralleled the biotin concentrations in media pmol bicarbonate fixed/(min × 106 cells): 1.9 ± 0.7 (25 pmol/L biotin) vs. 19 ± 1.2 (250 pmol/L biotin) vs. 40 ± 2.0 (10,000 pmol/L biotin). Cells responded to biotin deficiency with increased expression of biotin transporter genes. Biotin-deficient cells maintained normal biotinylation of histones but contained reduced levels of biotinylated carboxylases, suggesting compartmentalization of intracellular biotin distribution. Rates of cell proliferation and activities of the apoptotic enzyme caspase-3 were similar among treatment groups, suggesting that net proliferation was not affected by biotin status. Net secretion of interleukin-2 by Jurkat cells was inversely associated with the biotin concentration in media kU/(L × 24 h × 106 cells): 21 ± 1.8 (25 pmol/L biotin) vs. 15 ± 5.4 (250 pmol/L biotin) vs. 6.1 ± 1.8 (10,000 pmol/L biotin), suggesting increased secretion or decreased internalization of interleukin-2 by biotin-deficient cells. This study provides evidence that biotin supply affects biotinylation of proteins, gene expression and metabolism of interleukin-2 in Jurkat cells. The physiological significance of effects of biotin status on metabolism of interleukin-2 remains to be elaborated.
Biological functions of biotinylated histones Kothapalli, Nagarama; Camporeale, Gabriela; Kueh, Alice ...
The Journal of nutritional biochemistry,
07/2005, Letnik:
16, Številka:
7
Journal Article
Recenzirano
Odprti dostop
Histones H1, H2A, H2B, H3 and H4 are DNA-binding proteins that mediate the folding of DNA into chromatin. Various posttranslational modifications of histones regulate processes such as transcription, ...replication and repair of DNA. Recently, a novel posttranslational modification has been identified: covalent binding of the vitamin biotin to lysine residues in histones, mediated by biotinidase and holocarboxylase synthetase. Here we describe a novel peptide-based technique, which was used to identify eight distinct biotinylation sites in histones H2A, H3 and H4. Biotinylation site-specific antibodies were generated to investigate biological functions of histone biotinylation. Evidence was provided that biotinylation of histones plays a role in cell proliferation, gene silencing and cellular response to DNA damage.
Biotin affects gene expression in mammals; however, the signaling pathways leading to biotin-dependent transcriptional activation and inactivation of genes are largely unknown. Members of the ...Sp/Krüppel-like factor family of transcription factors (e.g., the ubiquitous Sp1 and Sp3) play important roles in the expression of numerous mammalian genes. We tested the hypothesis that the nuclear abundance of Sp1 and Sp3 depends on biotin in human T cells (Jurkat cells) mediating biotin-dependent gene expression. Jurkat cells were cultured in biotin-deficient (0.025 nmol/L) and biotin-supplemented (10 nmol/L) media for 5 wk prior to transcription factor analysis. The association of Sp1 and Sp3 with DNA-binding sites (GC box and CACCC box) was 76–149% greater in nuclear extracts from biotin-supplemented cells compared with biotin-deficient cells, as determined by electrophoretic mobility shift assays. The increased DNA-binding activity observed in biotin-supplemented cells was caused by increased transcription of genes encoding Sp1 and Sp3, as shown by mRNA levels and reporter-gene activities; increased transcription of Sp1 and Sp3 genes was associated with the increased abundance of Sp1 and Sp3 protein in nuclei. Notwithstanding the important role for phosphorylation of Sp1 and Sp3 in regulating DNA-binding activity, the present study suggests that the effects of biotin on phosphorylation of Sp1 and Sp3 are minor. The increased nuclear abundance of Sp1 and Sp3 in biotin-supplemented cells was associated with increased transcriptional activity of 5′-flanking regions in Sp1/Sp3-dependent genes in reporter-gene assays. This study provides evidence that some effects of biotin on gene expression might be mediated by the nuclear abundance of Sp1 and Sp3.
Flavin mononucleotide (FMN) and flavin adenine dinucleotide (FAD) are essential coenzymes in redox reactions. For example, FAD is a coenzyme for both glutathione reductase and enzymes that mediate ...the oxidative folding of secretory proteins. Here we investigated short-term effects of moderately riboflavin-deficient culture medium on flavin-related responses in HepG2 hepatocarcinoma cells. Cells were cultured in riboflavin-deficient (3.1 nmol/l) medium for up to 6 days; controls were cultured in riboflavin-sufficient (532 nmol/l) medium. The activity of glutathione reductase decreased by 98% within 4 days of riboflavin-deficient culture. Transport rates of riboflavin increased in response to riboflavin depletion, whereas expression of enzymes mediating flavocoenzyme synthesis (flavokinase and FAD synthetase) decreased in response to depletion. The oxidative folding and synthesis of plasminogen and apolipoprotein B-100 was impaired within 4 days of culture in riboflavin-deficient medium; this is consistent with impaired processing of secretory proteins in riboflavin-deficient cells. Riboflavin depletion was associated with increased DNA-binding activities of transcription factors with affinity for endoplasmic reticulum stress elements and nuclear factor κB (NF-κB) consensus elements, suggesting cell stress. Moreover, the abundance of the stress-induced protein GADD153 was greater in riboflavin-deficient cells compared with controls. Riboflavin deficiency was associated with decreased rates of cell proliferation caused by arrest in G1 phase of the cell cycle. These studies are consistent with the hypothesis that HepG2 cells have a great demand for riboflavin and that cell stress develops rapidly if riboflavin supply is marginally low.
Biotin affects the abundance of mRNA coding for approximately10% of genes expressed in human-derived hepatocarcinoma (HepG2) cells. Here, we determined whether effects of biotin on gene expression ...are associated with changes in the abundance of distinct proteins in cell signaling and structure. HepG2 cells were cultured in media containing the following concentrations of biotin: 0.025 nmol/L (denoted "deficient"), 0.25 nmol/L ("physiological" = control), and 10 nmol/L ("pharmacological") for 10 d before harvesting. The abundance of 1009 proteins from whole-cell extracts was quantified by using high-throughput immunoblots. The abundance of 44 proteins changed by at least 25% in biotin-deficient and biotin-supplemented cells compared with physiological controls. One third of these proteins participate in cell signaling. Specifically, proteins associated with receptor tyrosine kinase-mediated signaling were identified as targets of biotin; the abundance of these proteins was greater in biotin-deficient cells than in controls. This was associated with increased DNA-binding activities of the transcription factors Fos and Jun, and increased expression of a reporter gene driven by activator protein (AP)1-binding elements in biotin-deficient cells compared with physiological controls. The abundance of selected signaling proteins was not paralleled by the abundance of mRNA, suggesting that biotin affects expression of these genes at a post-transcriptional step. Additional clusters of biotin-responsive proteins were identified that play roles in cytoskeleton homeostasis, nuclear structure and transport, and neuroscience. This study is consistent with the existence of clusters of biotin-responsive proteins in distinct biological processes, including signaling by Fos/Jun; the latter might mediate the proinflammatory and antiapoptotic effects of biotin deficiency.
An enzymatic mechanism has been proposed by which biotinidase may catalyze biotinylation of histones. Here, human cells were found to covalently bind biotin to histones H1, H2A, H2B, H3, and H4. ...Cells respond to proliferation with increased biotinylation of histones; biotinylation increases early in the cell cycle and remains increased during the cycle. Notwithstanding the catalytic role of biotinidase in biotinylation of histones, mRNA encoding biotinidase and biotinidase activity did not parallel the increased biotinylation of histones in proliferating cells. Biotinylation of histones might be regulated by enzymes other than biotinidase or by the rate of histone debiotinylation.