Sustainable Improvement in Immunization Rates for Seniors: A Local and Community-Wide Effort

Objective: Overall: To improve influenza and pneumococcal immunization rates in patients age ≥65 years by developing relationships with community organizations that would provide opportunities for community member education about adult vaccines. Pre/post Surveys: To assess potential changes in influenza and pneumococcal immunization knowledge and opinions in community members exposed to an educational presentation. Methods: Using personal and university resources, contact was made with several organizations serving the senior, underserved population in West Dayton, Ohio. An educational presentation about adult immunizations was developed and used at ten community events. The presentation included oral and written communication, and was based on the Health Belief Model. The presentation focused on dissemination of information both verbally and through low-literacy focused written information. Written material was also distributed through community channels. The effectiveness of the oral presentations was examined through pre/post questionnaires at five of the events. Statistical analysis was both descriptive and analytical. Results: Outreach was established to more than 1,000 individuals through direct mailings, flyers and oral presentations. Presentations were made at ten community events, where more than 80% of the participants were ≥65 years of age. Feedback about the presentations was positive. There was statistically significant improvement in answers to questions dealing with adult vaccination. Conclusions: Community outreach programs were successful in increasing awareness of the importance of adult vaccination among community members. Project was supported by a grant from the AAFP

Non-canonical interactions between plant proteins and lectins cause false positives in lectin blots

Lectins are proteins that specifically recognize and non-covalently bind to soluble carbohydrates or to the carbohydrate moieties of glycoproteins or glycolipids. Historically,lectin-blot analysis has been widely used as a tool for structural characterization of many mammalian glycoconjugates. In the present study, we demonstrate that the application of this technique to screen sugar moieties of plant proteins results in numerous false positives. Plants lack the enzyme machinery necessary to perform sialylation, however many bands appear upon probing of N. benthamiana L. leaf proteins with Maacia amurensis agglutinin (MAA) that recognizes specifically N-linked or core 2 O-linked glycans containing Neu5Ac/Gc-α2,3Galβ-1,4GlcNAc/Glc and O-linked glycans containing the trisaccharide Neu5Ac-3Galβ1-3GalNAc. The non-canonical binding is a direct result of sample preparation for SDS PAGE, because native proteins do not show an affinity to MAA-agarose resin. Moreover, inhibition with known hapten fails to prevent binding of MAA to plant proteins in lectin blots. We also provide evidence that interactions of a hydrophobic nature contribute, at least in part, to the non-specific binding, and that other lectins – Sambucus nigra agglutinin (SNA) and Vicia villosa agglutinin (VVA) – also bind non-specifically to plant proteins. In conclusion, lectin blot analysis of plant proteins should always be verified by probing the binding specificity with a known hapten inhibitor alongside appropriate mammalian glycoprotein controls. Alternatively, non-specific binding can be avoided if lectin affinity chromatography of the native plant proteins is performed prior to lectin blots analysis

Genome-wide analyses of cassava Pathogenesis-related (PR) gene families reveal core transcriptome responses to whitefly infestation, salicylic acid and jasmonic acid.

BACKGROUND:Whiteflies are a threat to cassava (Manihot esculenta), an important staple food in many tropical/subtropical regions. Understanding the molecular mechanisms regulating cassava's responses against this pest is crucial for developing control strategies. Pathogenesis-related (PR) protein families are an integral part of plant immunity. With the availability of whole genome sequences, the annotation and expression programs of the full complement of PR genes in an organism can now be achieved. An understanding of the responses of the entire complement of PR genes during biotic stress and to the defense hormones, salicylic acid (SA) and jasmonic acid (JA), is lacking. Here, we analyze the responses of cassava PR genes to whiteflies, SA, JA, and other biotic aggressors. RESULTS:The cassava genome possesses 14 of the 17 plant PR families, with a total of 447 PR genes. A cassava PR gene nomenclature is proposed. Phylogenetic relatedness of cassava PR proteins to each other and to homologs in poplar, rice and Arabidopsis identified cassava-specific PR gene family expansions. The temporal programs of PR gene expression in response to the whitefly (Aleurotrachelus socialis) in four whitefly-susceptible cassava genotypes showed that 167 of the 447 PR genes were regulated after whitefly infestation. While the timing of PR gene expression varied, over 37% of whitefly-regulated PR genes were downregulated in all four genotypes. Notably, whitefly-responsive PR genes were largely coordinately regulated by SA and JA. The analysis of cassava PR gene expression in response to five other biotic stresses revealed a strong positive correlation between whitefly and Xanthomonas axonopodis and Cassava Brown Streak Virus responses and negative correlations between whitefly and Cassava Mosaic Virus responses. Finally, certain associations between PR genes in cassava expansions and response to biotic stresses were observed among PR families. CONCLUSIONS:This study represents the first genome-wide characterization of PR genes in cassava. PR gene responses to six biotic stresses and to SA and JA are demonstrably different to other angiosperms. We propose that our approach could be applied in other species to fully understand PR gene regulation by pathogens, pests and the canonical defense hormones SA and JA

Meaning of Pregnancy Terms Among African-American Women

The concept of pregnancy intendedness is complex and may not bear the same meaning to all women. Moreover, researcher definition and women’s meaning were thought to be different. Some researchers have indicated that it is unclear how well women understand and relate to questions used by the National Survey of Family Growth (NSFG) and how the classifications relate to women’s lives. The purpose of this study was to explore the meaning of terms such as planned and/or intended pregnancy among African-American women of childbearing age using a qualitative exploratory descriptive method. Although African-American women want children, they are three times as likely to experience an unintended pregnancy as white women. Data extracted from transcripts were coded and analyzed for recurrent patterns and themes. For this study, the Theory of Planned Behavior (Ajzen & Fishbein, 1980) was employed to frame interview questions and to interpret data. Findings suggest participants and partners often did not have the same perceptions or meanings of pregnancy planning or intentions. These findings have implications for research and family planning policy

Deletion of the Gene for the Type I Interferon Inhibitor I329L from the Attenuated African Swine Fever Virus OURT88/3 Strain Reduces Protection Induced in Pigs

Live attenuated vaccines are considered to be the fastest route to the development of a safe and efficacious African swine fever (ASF) vaccine. Infection with the naturally attenuated OURT88/3 strain induces protection against challenge with virulent isolates from the same or closely related genotypes. However, adverse clinical signs following immunisation have been observed. Here, we attempted to increase the OURT88/3 safety profile by deleting I329L, a gene previously shown to inhibit the host innate immune response. The resulting virus, OURT88/3ΔI329L, was tested in vitro to evaluate the replication and expression of type I interferon (IFN) and in vivo by immunisation and lethal challenge experiments in pigs. No differences were observed regarding replication; however, increased amounts of both IFN-β and IFN-α were observed in macrophages infected with the deletion mutant virus. Unexpectedly, the deletion of I329L markedly reduced protection against challenge with the virulent OURT88/1 isolate. This was associated with a decrease in both antibody levels against VP72 and the number of IFN-γ-producing cells in the blood of non-protected animals. Furthermore, a significant increase in IL-10 levels in serum was observed in pigs immunised with OURT88/3ΔI329L following challenge. Interestingly, the deletion of the I329L gene failed to attenuate the virulent Georgia/2007 isolate.info:eu-repo/semantics/publishedVersio

Engineering of N. benthamiana L. plants for production of N-acetylgalactosamine-glycosylated proteins - towards development of a plant-based platform for production of protein therapeutics with mucin type O-glycosylation

<p>Abstract</p> <p>Background</p> <p>Mucin type O-glycosylation is one of the most common types of post-translational modifications that impacts stability and biological functions of many mammalian proteins. A large family of UDP-GalNAc polypeptide:N-acetyl-α-galactosaminyltransferases (GalNAc-Ts) catalyzes the first step of mucin type O-glycosylation by transferring GalNAc to serine and/or threonine residues of acceptor polypeptides. Plants do not have the enzyme machinery to perform this process, thus restricting their use as bioreactors for production of recombinant therapeutic proteins.</p> <p>Results</p> <p>The present study demonstrates that an isoform of the human GalNAc-Ts family, GalNAc-T2, retains its localization and functionality upon expression in <it>N. benthamiana </it>L. plants. The recombinant enzyme resides in the Golgi as evidenced by the fluorescence distribution pattern of the GalNAc-T2:GFP fusion and alteration of the fluorescence signature upon treatment with Brefeldin A. A GalNAc-T2-specific acceptor peptide, the 113-136 aa fragment of chorionic gonadotropin β-subunit, is glycosylated <it>in vitro </it>by the plant-produced enzyme at the "native" GalNAc attachment sites, Ser-121 and Ser-127. Ectopic expression of GalNAc-T2 is sufficient to "arm" tobacco cells with the ability to perform GalNAc-glycosylation, as evidenced by the attachment of GalNAc to Thr-119 of the endogenous enzyme endochitinase. However, glycosylation of highly expressed recombinant glycoproteins, like magnICON-expressed <it>E. coli </it>enterotoxin B subunit:<it>H. sapiens </it>mucin 1 tandem repeat-derived peptide fusion protein (LTBMUC1), is limited by the low endogenous UDP-GalNAc substrate pool and the insufficient translocation of UDP-GalNAc to the Golgi lumen. Further genetic engineering of the GalNAc-T2 plants by co-expressing <it>Y. enterocolitica </it>UDP-GlcNAc 4-epimerase gene and <it>C. elegans </it>UDP-GlcNAc/UDP-GalNAc transporter gene overcomes these limitations as indicated by the expression of the model LTBMUC1 protein exclusively as a glycoform.</p> <p>Conclusion</p> <p>Plant bioreactors can be engineered that are capable of producing Tn antigen-containing recombinant therapeutics.</p

A metabolomics characterisation of natural variation in the resistance of cassava to whitefly

Background: Cassava whitefly outbreaks were initially reported in East and Central Africa cassava (Manihot esculenta Crantz) growing regions in the 1990's and have now spread to other geographical locations, becoming a global pest severely affecting farmers and smallholder income. Whiteflies impact plant yield via feeding and vectoring cassava mosaic and brown streak viruses, making roots unsuitable for food or trading. Deployment of virus resistant varieties has had little impact on whitefly populations and therefore development of whitefly resistant varieties is also necessary as part of integrated pest management strategies. Suitable sources of whitefly resistance exist in germplasm collections that require further characterization to facilitate and assist breeding programs. Results: In the present work, a hierarchical metabolomics approach has been employed to investigate the underlying biochemical mechanisms associated with whitefly resistance by comparing two naturally occurring accessions of cassava, one susceptible and one resistant to whitefly. Quantitative differences between genotypes detected at pre-infestation stages were consistently observed at each time point throughout the course of the whitefly infestation. This prevalent differential feature suggests that inherent genotypic differences override the response induced by the presence of whitefly and that they are directly linked with the phenotype observed. The most significant quantitative changes relating to whitefly susceptibility were linked to the phenylpropanoid super-pathway and its linked sub-pathways: monolignol, flavonoid and lignan biosynthesis. These findings suggest that the lignification process in the susceptible variety is less active, as the susceptible accession deposits less lignin and accumulates monolignol intermediates and derivatives thereof, differences that are maintained during the time-course of the infestation. Conclusions: Resistance mechanism associated to the cassava whitefly-resistant accession ECU72 is an antixenosis strategy based on reinforcement of cell walls. Both resistant and susceptible accessions respond differently to whitefly attack at biochemical level, but the inherent metabolic differences are directly linked to the resistance phenotype rather than an induced response in the plant

A Molecular Platinum Cluster Junction: A Single-Molecule Switch

We present a theoretical study of the electronic transport through single-molecule junctions incorporating a Pt6 metal cluster bound within an organic framework. We show that the insertion of this molecule between a pair of electrodes leads to a fully atomically engineered nano-metallic device with high conductance at the Fermi level and two sequential high on/off switching states. The origin of this property can be traced back to the existence of a HOMO which consists of two degenerate and asymmetric orbitals, lying close in energy to the Fermi level of the metallic leads. Their degeneracy is broken when the molecule is contacted to the leads, giving rise to two resonances which become pinned close to the Fermi level and display destructive interference.Comment: 4 pages, 4 figures. Reprinted (adapted) with permission from J. Am. Chem. Soc., 2013, 135 (6), 2052. Copyright 2013 American Chemical Societ

Muscle Expression of Mutant Androgen Receptor Accounts for Systemic and Motor Neuron Disease Phenotypes in Spinal and Bulbar Muscular Atrophy

SummaryX-linked spinal and bulbar muscular atrophy (SBMA) is characterized by adult-onset muscle weakness and lower motor neuron degeneration. SBMA is caused by CAG-polyglutamine (polyQ) repeat expansions in the androgen receptor (AR) gene. Pathological findings include motor neuron loss, with polyQ-AR accumulation in intranuclear inclusions. SBMA patients exhibit myopathic features, suggesting a role for muscle in disease pathogenesis. To determine the contribution of muscle, we developed a BAC mouse model featuring a floxed first exon to permit cell-type-specific excision of human AR121Q. BAC fxAR121 mice develop systemic and neuromuscular phenotypes, including shortened survival. After validating termination of AR121 expression and full rescue with ubiquitous Cre, we crossed BAC fxAR121 mice with Human Skeletal Actin-Cre mice. Muscle-specific excision prevented weight loss, motor phenotypes, muscle pathology, and motor neuronopathy and dramatically extended survival. Our results reveal a crucial role for muscle expression of polyQ-AR in SBMA and suggest muscle-directed therapies as effective treatments

Vitamin D and the risk of dementia and Alzheimer disease

Objective: To determine whether low vitamin D concentrations are associated with an increased risk of incident all-cause dementia and Alzheimer disease. Methods: One thousand six hundred fifty-eight elderly ambulatory adults free from dementia, cardiovascular disease, and stroke who participated in the US population?based Cardiovascular Health Study between 1992?1993 and 1999 were included. Serum 25-hydroxyvitamin D (25(OH)D) concentrations were determined by liquid chromatography-tandem mass spectrometry from blood samples collected in 1992?1993. Incident all-cause dementia and Alzheimer disease status were assessed during follow-up using National Institute of Neurological and Communicative Disorders and Stroke/Alzheimer\u27s Disease and Related Disorders Association criteria. Results: During a mean follow-up of 5.6 years, 171 participants developed all-cause dementia, including 102 cases of Alzheimer disease. Using Cox proportional hazards models, the multivariate adjusted hazard ratios (95% confidence interval [CI]) for incident all-cause dementia in participants who were severely 25(OH)D deficient (\u3c25 nmol/L) and deficient (?25 to \u3c50 nmol/L) were 2.25 (95% CI: 1.23?4.13) and 1.53 (95% CI: 1.06?2.21) compared to participants with sufficient concentrations (?50 nmol/L). The multivariate adjusted hazard ratios for incident Alzheimer disease in participants who were severely 25(OH)D deficient and deficient compared to participants with sufficient concentrations were 2.22 (95% CI: 1.02?4.83) and 1.69 (95% CI: 1.06?2.69). In multivariate adjusted penalized smoothing spline plots, the risk of all-cause dementia and Alzheimer disease markedly increased below a threshold of 50 nmol/L. Conclusion: Our results confirm that vitamin D deficiency is associated with a substantially increased risk of all-cause dementia and Alzheimer disease. This adds to the ongoing debate about the role of vitamin D in nonskeletal conditions