Although clinical trials for the enterovirus type 71 (EV71) inactivated vaccine have been progressing, the potential mechanism of EV71 infection and its associated pathogenesis are not well-characterized in terms of comprehensive analysis of the induced immune response, which is generally recognized as an important indicator of the safety of vaccines. To investigate the Th1/Th2 response following viral challenge in neonatal rhesus monkeys immunized with different doses of EV71 inactivated vaccines, the variety of different Th1 and Th2 cytokines in the organs or tissues of the monkeys were identified. The results suggest that depending on the viral challenge, the Th1/Th2 reaction induced by different doses of EV71 inactivated vaccine varies. More specifically, there is an enhanced immune response in 80EU- and 1280EU-immunized monkeys, whereas 320EU immunization induces a mild response. Although there is no direct impact on the variation in immune protection induced by the vaccine, the Th1 reaction functions in T-cell cytotoxicity, which will aid further investigation of the pathogenic characteristics of small pathological changes in the central nerves system (CNS) likely induced by the Th1 response.

The exposures to extremely low frequency magnetic field (ELF-MF) in our environment have dramatically increased. Epidemiological studies suggest that there is a possible association between ELF-MF exposure and increased risks of cardiovascular disease, cancers and neurodegenerative disorders. Animal studies show that ELF-MF exposure may interfere with the activity of brain cells, generate behavioral and cognitive disturbances, and produce deficits in attention, perception and spatial learning. Although, many research efforts have been focused on the interaction between ELF-MF exposure and the central nervous system, the mechanism of interaction is still unknown. In this study, we examined the effects of ELF-MF exposure on learning in mice using two water maze tasks and on some parameters indicative of oxidative stress in the hippocampus and striatum. We found that ELF-MF exposure (1 mT, 50 Hz) induced serious oxidative stress in the hippocampus and striatum and impaired hippocampal-dependent spatial learning and striatum-dependent habit learning. This study provides evidence for the association between the impairment of learning and the oxidative stress in hippocampus and striatum induced by ELF-MF exposure.

Human androgen receptor (AR) contains a highly polymorphic polyglutamine tract encoded by CAG repeats [(CAG)n] in exon 1 of the AR gene. The CAG repeats, ranging from 11 to 38, have been reported to be inversely correlated with AR activity. A case-control study involving 261 polycystic ovary syndrome (PCOS) patients and 278 healthy controls was conducted. Fluorescently labeled DNA fragments containing (CAG)n were obtained by PCR and genotyped via capillary electrophoresis. AR (CAG)n ranges were 6, 12-28 in PCOS cases and 9, 10, 12-32 in controls. In the PCOS group, a higher frequency of short (CAG)n alleles was found compared with that of controls (P=0.007). Similarly, CAG biallelic mean distributions also showed statistical difference between the two groups (P=0.025). In conclusion, shorter alleles of the (CAG)n in exon 1 of the AR gene enhanced the susceptibility to PCOS, either by upregulating AR activity or by causing hyperandrogenism.

Development of simple, cost-effective, and sensitive fluorescence-based sensors for explosives implies broad applications in homeland security, military operations, and environmental and industrial safety control. However, the reported fluorescence sensory materials (e.g., polymers) usually respond to a class of analytes (e.g., nitro-aromatics), rather than a single specific target. Hence, the selective detection of trace amounts of TNT still remains a big challenge for fluorescence-based sensors. Here we report the selective detection of TNT vapor using the nanoporous fibers fabricated by self-assembly of carbazole-based macrocyclic molecules. The nanoporosity allows for time dependent diffusion of TNT molecules inside the material, resulting in further fluores-cence quenching of the material after removal from the TNT vapor source. Under the same testing conditions, other common nitro-aromatic explosives and oxidizing reagents did not demonstrate this post-exposure fluorescence quenching; rather a recovery of fluorescence was observed. The post-exposure fluorescence quenching as well as the sensitivity is further enhanced by lowering the HOMO level of the nanofiber building blocks. This in turn reduces the affinity for oxygen, thus allocating more interaction sites for TNT. Our results present a simple and novel way to achieve detection selectivity for TNT by creating nanoporosity and tuning molecular electronic structure, which when combined may be applied to other fluorescence sensor materials for selective detection of vapor analytes.

Lithium is the first line of therapeutic drugs used to treat both mania and depression in bipolar disorder. Although a body of research suggests that lithium acts as a cognitive enhancer, other animal studies suggest that lithium induces cognitive deficits. Comparatively, the effects of lithium on cognitive behaviour in these studies are inconsistent and contradictory. Further investigations in different species of animals and behavioural tasks are important to evaluate the possibility that lithium may act as a cognitive enhancer. In the present study, the chicks were treated intraperitoneally with lithium chloride (120 mg/kg), and the effects of chronic lithium treatment on chick cognitive behaviour were examined using a detour learning task. Additionally, the effects of chronic lithium treatment on BDNF messenger RNA (mRNA) expression were measured in RTPCR. We found that chronic lithium treatment (120 mg/kg) had no effect on spontaneous motor activity or weight gain of the chicks and that the chicks had a general healthy appearance, while chronic lithium treatment significantly promoted the response latency of detour learning and BDNF mRNA expression. These results suggest that chronic lithium treatment may improve cognitive function.

Depending on the environment, dendritic cells (DCs) may become active or tolerogenic, but little is known about whether heritable epigenetic modifications are involved in these processes. Here, we have found that epigenetic histone modifications can regulate the differentiation of human monocyte-derived DCs (moDCs) into either activated or tolerized DCs. The inhibition or silencing of methyltransferases or methylation-associated factors affects the expression of multiple genes. Genome mapping of transforming growth factor (TGF-β)- or lipopolysaccharide (LPS)-associated H3K4 trimethylation (H3K4me3) and H3K27 trimethylation (H3K27me3) demonstrated the presence of histone modification of gene expression in human TGF-β- or LPS-conditioned moDCs. Although the upregulated or downregulated genes were not always associated with H3K4me3 and/or H3K27me3 modifications in TGF-β-conditioned (tolerized) or LPS-conditioned (activated) moDCs, some of these genes may be regulated by the increased and/or decreased H3K4me3 or H3K27me3 levels or by the alteration of these epigenetic marks, especially in TGF-β-conditioned moDCs. Thus, our results suggested that the differentiation and function of moDCs in tumor and inflammation environments are associated with the modification of the H3K4me3 and K3K27me3 epigenetic marks.Genes and Immunity advance online publication, 26 January 2012; doi:10.1038/gene.2011.87.

The Matrilin3 gene (MATN3) encodes an extracellular matrix protein, which modulates chondrocyte differentiation. The aim of this study was to test for association of MATN3 polymorphisms with bone mineral density (BMD), fracture, vertebral fracture, bone turnover or 25-hydroxyvitamin D [25(OH)D] in postmenopausal women. A community-based population of 1488 postmenopausal women was randomly selected in Beijing. The history of fracture and vertebral fracture was obtained via questionnaire and vertebral X-ray respectively. BMD of lumbar spine (2-4), femoral neck and total hip were measured by dual energy X-ray absorptiometry. Serum N-terminal procollagen of type 1 collagen (P1NP), β-isomerized type I collagen C-telopeptide breakdown products (β-CTX) and 25(OH)D were quantified. Binary logistic regression revealed that Haplotype-4 was significantly associated with vertebral fracture risk in both additive model (p=0.023, OR=1.521) and dominant model (p=0.028, OR=1.623). The significance remained after 10,000 permutation tests to correct multiple testing (p=0.042). Re-selected age matched vertebral fracture case-control groups revealed similar associations in additive model (p=0.014, OR=1.927, 95%CI=1.142-3.253) and in dominant model (p=0.011, OR=2.231, 95%CI=1.200-4.148). However, no significant association was found between MATN3 polymorphisms and serum β-CTX, P1NP, 25(OH)D levels, or BMD. In linear regression, Haplotype-2 approached marginal significance in association with femoral neck BMD T-score (p=0.050), but this would account for only 0.2% of BMD variation in our sample. This study suggests that Haplotype-4 of MATN3 is associated with vertebral fracture risk independent of BMD in Chinese postmenopausal women. Efforts should be made to replicate our finding in other, similar and ethnically diverse, populations.

The synthesis and biological activity of a new series of LpxC inhibitors represented by pyridone methylsulfone hydroxamate 2a is presented. Members of this series have improved solubility and free fraction when compared to compounds in the previously described biphenyl methylsulfone hydroxamate series, and they maintain superior Gram-negative antibacterial activity to comparator agents.

Water plays an essential role in determining the structure and function of all biological systems. Recent methodological advances allow for an accurate and efficient estimation of the thermodynamic properties of water molecules at the surface of proteins. In this work, we characterize these thermodynamic properties and relate them to various structural and functional characteristics of the protein. We find that high-energy hydration sites often exist near protein motifs typically characterized as hydrophilic, such as backbone amide groups. We also find that waters around alpha helices and beta sheets tend to be less stable than waters around loops. Furthermore, we find no significant correlation between the hydration site-free energy and the solvent accessible surface area of the site. In addition, we find that the distribution of high-energy hydration sites on the protein surface can be used to identify the location of binding sites and that binding sites of druggable targets tend to have a greater density of thermodynamically unstable hydration sites. Using this information, we characterize the FKBP12 protein and show good agreement between fragment screening hit rates from NMR spectroscopy and hydration site energetics. Finally, we show that water molecules observed in crystal structures are less stable on average than bulk water as a consequence of the high degree of spatial localization, thereby resulting in a significant loss in entropy. These findings should help to better understand the characteristics of waters at the surface of proteins and are expected to lead to insights that can guide structure-based drug design efforts. Proteins 2011; © 2011 Wiley Periodicals, Inc.

In this paper we present the synthesis and SAR as well as selectivity, pharmacokinetic and infection model data for representative analogs of a novel series of potent antibacterial LpxC inhibitors represented by hydroxamic acid 1a.