The selenium-rich C-terminal domain of mouse selenoprotein P is necessary for the supply of selenium to brain and testis but not for the maintenance of whole body selenium

Selenoprotein P (Sepp1) has two domains with respect to selenium content: the N-terminal, selenium-poor domain and the C-terminal, selenium-rich domain. To assess domain function, mice with deletion of the C-terminal domain have been produced and compared with Sepp1-/- and Sepp1+/+ mice. All mice studied were males fed a semipurified diet with defined selenium content. The Sepp1 protein in the plasma of mice with the C-terminal domain deleted was determined by mass spectrometry to terminate after serine 239 and thus was designated Sepp1Delta240-361. Plasma Sepp1 and selenium concentrations as well as glutathione peroxidase activity were determined in the three types of mice. Glutathione peroxidase and Sepp1Delta240-361 accounted for over 90% of the selenium in the plasma of Sepp1Delta240-361 mice. Calculations using results from Sepp1+/+ mice revealed that Sepp1, with a potential for containing 10 selenocysteine residues, contained an average of 5 selenium atoms per molecule, indicating that shortened and/or selenium-depleted forms of the protein were present in these wild-type mice. Sepp1Delta240-361 mice had low brain and testis selenium concentrations that were similar to those in Sepp1-/- mice but they better maintained their whole body selenium. Sepp1Delta240-361 mice had depressed fertility, even when they were fed a high selenium diet, and their spermatozoa were defective and morphologically indistinguishable from those of selenium-deficient mice. Neurological dysfunction and death occurred when Sepp1Delta240-361 mice were fed selenium-deficient diet. These phenotypes were similar to those of Sepp1-/- mice but had later onset or were less severe. The results of this study demonstrate that the C terminus of Sepp1 is critical for the maintenance of selenium in brain and testis but not for the maintenance of whole body selenium.     

Fungal endophytes of native Gossypium species in Australia

Fungal endophytes of 17 genera were found in stems of four native Gossypium species (G. australe, G. bickii, G. nelsonii, G. sturtianum) collected from inland areas in Queensland, the Northern Territory, and South Australia in 2001. Phoma, Alternaria, Fusarium, Botryosphaeria, Dichomera, and Phomopsis were common, accounting for 58, 18, 11, 3, 1, and 1 % of the 281 recovered isolates, respectively, and occurring in 47, 29, 19, 5, 5, and 4 % of the 79 sampled populations. Among the four Gossypium species in Queensland and the Northern Territory, Alternaria spp. and Fusarium spp. had the greatest recovery frequency in G. bickii stems. The recovery frequencies of Phoma spp. and Alternaria spp. were significantly greater in the G. sturtianum stems collected from South Australia than in those from Queensland and the Northern Territory. Pathogenicity of 42 representative isolates was tested on cultivated cotton (G. hirsutum). All isolates caused some localized discoloration in stem tissue when inoculation was conducted with the stem puncturing method, but none of the isolates could induce any foliar symptoms during the five-week experimental period by either inoculation method (root dipping or stem puncturing), suggesting that the endophytic fungi of native Gossypium species are unlikely sources of cotton pathogens.     

Protein particulates: another generic form of protein aggregation?

Protein aggregation is a problem with a multitude of consequences, ranging from affecting protein expression to its implication in many diseases. Of recent interest is the specific form of aggregation leading to the formation of amyloid fibrils, structures associated with diseases such as Alzheimer's disease. The ability to form amyloid fibrils is now regarded as a property generic to all polypeptide chains. Here we show that around the isoelectric point a different generic form of aggregation can also occur by studying seven widely different, nonrelated proteins that are also all known to form amyloid fibrils. Under these conditions gels consisting of relatively monodisperse spherical particulates are formed. Although these gels have been described before for beta-lactoglobulin, our results suggest that the formation of particulates in the regime where charge on the molecules is minimal is a common property of all proteins. Because the proteins used here also form amyloid fibrils, we further propose that protein misfolding into clearly defined aggregates is a generic process whose outcome depends solely on the general properties of the state the protein is in when aggregation occurs, rather than the specific amino acid sequence. Thus under conditions of high net charge, amyloid fibrils form, whereas under conditions of low net charge, particulates form. This observation furthermore suggests that the rules of soft matter physics apply to these systems.     

Biochemical and electrochemical characterization of two variant human short-chain acyl-CoA dehydrogenases

Short-chain acyl-CoA dehydrogenase (hSCAD) catalyzes the first matrix step in the mitochondrial beta-oxidation cycle with optimal activity toward butyryl- and hexanoyl-CoA. Two common variants of this enzyme encoding G185S and R147W substitutions have been identified at an increased frequency compared to the general population in patients with a wide variety of clinical problems, but functional studies of the purified mutant enzymes have shown only modestly changed kinetic properties. Moreover, both amino acid residues are located quite far from the catalytic pocket and the essential FAD cofactor. To clarify the potential relationship of these variants to clinical disease, we have further investigated their thermodynamic properties using spectroscopic and electrochemical techniques. Purified R147W hSCAD exhibited almost identical physical and redox properties to wild-type but only half of the specific activity and substrate activation shifts observed in wild-type enzyme. In contrast, the G185S mutant proved to have impairments of both its kinetic and electron transfer properties. Spectroelectrochemical studies reveal that G185S binding to the substrate/product couple produces an enzyme potential shift of only +88 mV, which is not enough to make the reaction thermodynamically favorable. For wild-type hSCAD, this barrier is overcome by a negative shift in the substrate/product couple midpoint potential, but in G185S this activation was not observed. When G185S was substrate bound, the midpoint potential of the enzyme actually shifted more negative. These results provide valuable insight into the mechanistic basis for dysfunction of the common variant hSCADs and demonstrate that mutations, regardless of their position in the protein structure, can have a large impact on the redox properties of the enzyme.     

A single amino acid change in rabies virus glycoprotein increases virus spread and enhances virus pathogenicity

Several rabies virus (RV) vaccine strains containing an aspartic acid (Asp) or glutamic acid (Glu) instead of an arginine (Arg) at position 333 of the RV glycoprotein (G) are apathogenic for immunocompetent mice even after intracranial inoculation. However, we previously showed that the nonpathogenic phenotype of the highly attenuated RV strain SPBNGA, which contains a Glu at position 333 of G, is unstable when this virus is passaged in newborn mice. While the Glu(333) remained unchanged after five mouse passages, an Asn(194)-->Lys(194) mutation occurred in RV G. This mutation was associated with increased pathogenicity for adult mice. Using site-directed mutagenesis to exchange Asn(194) with Lys(194) in the G protein of SPBNGA, resulting in SPBNGA-K, we show here that this mutation is solely responsible for the increase in pathogenicity and that the Asn(194)-->Lys(194) mutation does not arise when Asn(194) is exchanged with Ser(194) (SPBNGA-S). Our data presented indicate that the increased pathogenicity of SPBNGA-K is due to increased viral spread in vivo and in vitro, faster internalization of the pathogenic virus into cells, and a shift in the pH threshold for membrane fusion. These results are consistent with the notion that the RV G protein is a major contributor to RV pathogenesis and that the more pathogenic RVs escape the host responses by a faster spread than that of less pathogenic RVs.     

Isoelectric point-based prefractionation of proteins from crude biological samples prior to two-dimensional gel electrophoresis

Two-dimensional gel electrophoresis (2-DE) is used to compare the protein profiles of different crude biological samples. Narrow pH range Immobilized pH Gradient (IPG) strips were designed to increase the resolution of these separations. To take full advantage of IPG strips, the ideal sample should be composed primarily of proteins that have isoelectric point (pI) values within the pH range of the IPG strip. Prefractionation of cell lysates from a human prostate cancer cell line cultured in the presence or absence of epigallocatechin-3-gallate was achieved in fewer than 30 min using an anion-exchange resin and two expressly designed buffers. The procedure was carried out in a centrifuge tube and standard instrumentation was used. The cell lysates were prefractionated into two fractions: proteins with pI values above 7 and between 4 and 7, respectively. The fractions were then analyzed by 2-DE, selecting appropriate pH ranges for the IPG strips, and the gels were compared with those of unprefractionated cell lysates. Protein loading capacity was optimized and resolution and visualization of the less abundant and differentially expressed proteins were greatly improved.     

Observations on the exoerythrocytic stages of different isolates of Plasmodium cynomolgi in hepatocytes of New World aotus and Saimiri monkeys

Sporozoites of 3 isolates of Plasmodium cynomolgi dissected from the salivary glands of Anopheles dirus and Anopheles quadrimaculatus were injected intravenously into 9 New World monkeys. Liver stage parasites were demonstrated in all 9 animals; 7 of these animals also produced blood stages after prepatent periods of 9 to 23 days.     

Further differentiation of murine double-positive thymocytes is inhibited in adenosine deaminase-deficient murine fetal thymic organ culture

Murine fetal thymic organ culture (FTOC) was used to investigate the mechanism by which a lack of adenosine deaminase (ADA) leads to a failure of T cell production in the thymus. We previously showed that T cell development was inhibited beginning at the CD4(-)CD8(-)CD25(+)CD44(low) stage in ADA-deficient FTOC initiated at day 15 of gestation when essentially all thymocytes are CD4(-)CD8(-). In the present study, we asked whether thymocytes at later stages of differentiation would also be sensitive to ADA inhibition by initiating FTOC when substantial numbers of CD4(+)CD8(+) thymocytes were already present. dATP was highly elevated in ADA-deficient cultures, and the recovery of alphabeta TCR(+) thymocytes was inhibited by 94%, indicating that the later stages of thymocyte differentiation are also dependent upon ADA. ADA-deficient cultures were partially rescued by the pan-caspase inhibitor carbobenzoxy-Val-Ala-Asp-fluoromethyl ketone or by the use of apoptotic protease-activating factor-1-deficient mice. Rescue was even more dramatic, with 60- to >200-fold increases in the numbers of CD4(+)CD8(+) cells, when FTOC were performed with an inhibitor of adenosine kinase, the major thymic deoxyadenosine phosphorylating enzyme, or with bcl-2 transgenic mice. dATP levels were normalized by treatment with either carbobenzoxy-Val-Ala-Asp-fluoromethyl ketone or an adenosine kinase inhibitor, but not in cultures with fetal thymuses from bcl-2 transgenic mice. These data suggest that ADA deficiency leads to the induction of mitochondria-dependent apoptosis as a consequence of the accumulation of dATP derived from thymocytes failing the positive/negative selection checkpoint.     

Pregnancy does not affect HIV incidence test results obtained using the BED capture enzyme immunoassay or an antibody avidity assay

Background

Accurate incidence estimates are needed for surveillance of the HIV epidemic. HIV surveillance occurs at maternal-child health clinics, but it is not known if pregnancy affects HIV incidence testing.

Methods

We used the BED capture immunoassay (BED) and an antibody avidity assay to test longitudinal samples from 51 HIV-infected Ugandan women infected with subtype A, C, D and intersubtype recombinant HIV who were enrolled in the HIVNET 012 trial (37 baseline samples collected near the time of delivery and 135 follow-up samples collected 3, 4 or 5 years later). Nineteen of 51 women were also pregnant at the time of one or more of the follow-up visits. The BED assay was performed according to the manufacturer''s instructions. The avidity assay was performed using a Genetic Systems HIV-1/HIV-2 + O EIA using 0.1M diethylamine as the chaotropic agent.

Results

During the HIVNET 012 follow-up study, there was no difference in normalized optical density values (OD-n) obtained with the BED assay or in the avidity test results (%) when women were pregnant (n = 20 results) compared to those obtained when women were not pregnant (n = 115; for BED: p = 0.9, generalized estimating equations model; for avidity: p = 0.7, Wilcoxon rank sum). In addition, BED and avidity results were almost exactly the same in longitudinal samples from the 18 women who were pregnant at only one study visit during the follow-up study (p = 0.6, paired t-test).

Conclusions

These results from 51 Ugandan women suggest that any changes in the antibody response to HIV infection that occur during pregnancy are not sufficient to alter results obtained with the BED and avidity assays. Confirmation with larger studies and with other HIV subtypes is needed.     

Bridging the gap: How the National Core Arts Standards forge the divide between the arts and assessment-based learning

ABSTRACT

This article is a review and thematic analysis of the 2014 National Core Arts Standards (NCAS). Historically, there exists a gap between the arts and assessment-based educational practices. Thematic analysis of the NCAS reveals a policy striving to bridge the gap between the way arts educators envision arts in schools, and the current reality of assessment-based schooling in the United States. This policy could become the foundation for the recognition of the arts as academically rigorous subject matter, capable of existing and thriving in an assessment-oriented world; it remains to be seen as to how and if arts educators will use and adapt NCAS. Is the NCAS merely a symbolic policy or does it have the support behind it to be a material policy that truly creates change in the educational system?