Jennifer K. Miller scite author profile

Currently, diagnosis of exposure to toxic low-molecular-weight compounds is effected by the use of chromatographic techniques. Such an approach is limited by the need for expensive equipment and sample clean-up before carrying out the analysis. To overcome those drawbacks, we have been involved in the development of an immunoassay for diagnosis of exposure to toxic organophosphorus compounds such as pinacolylmethyl phosphonofluoridate (soman), which is a chemical warfare agent. Prior estimates suggested that it is necessary to be able to detect soman at a concentration below 2.5 x 10(-7) M. Using four previously developed monoclonal antibodies, an enzyme-linked immunosorbant assay (ELISA) was used to optimize assay conditions and identify the antibody with the highest apparent affinity. The minimum required assay time was 2.0-2.5 h with no loss in sensitivity. To determine the specificity of the highest affinity antibody, a competitive inhibition enzyme immunoassay (CIEIA) was performed with six structural analogs of soman. The IC50 values for these analogues were 5 x 10(-7) M for 4-nitrophenylpinacolylmethylphosphonate, 8 x 10(-7) M for dipinacolylmethylphosphonate, 2 x 10(-6) M for diisopropylmethylphosphonate, 3 x 10(-5) M for 4-nitrophenylmethyl(phenylphosphinate) and 6.5 x 10(-5) M for 4-nitrophenylethyl(phenyl)phosphinate. 4-Nitrophenyl-di(n-butyl)phosphinate did not inhibit binding. Those inhibitors with branched alkyl side-chains, similar to the soman molecule, were effective inhibitors. Compounds, which contained predominately aromatic groups, were poor inhibitors. We are continuing to probe the binding specificity of the monoclonal antibody to determine its utility in further assay development. Our present results suggest that the antibody chosen may have the appropriate specificity and affinity for immunodiagnosis of exposure to soman.

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Quantitative Proteomics for Cardiac Biomarker Discovery Using Isoproterenol-Treated Nonhuman Primates

Liu

Parman

et al. 2014

J. Proteome Res.

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To identify new cardiac biomarkers, a quantitative proteomic analysis has been performed on serum and heart tissue proteins from three species of nonhuman primates following isoproterenol (ISO) treatment. Three serum proteins—serum amyloid A (SAA), α-1-acid glycoprotein (A1AG), and apolipoprotein A-1 (Apo A1)—were consistently identified as changed and remained altered 72 h post dose in all three species post ISO treatment, indicating the potential of including these proteins in preclinical or clinical evaluation of drug-induced cardiac injury. Furthermore, proteomic analysis of heart tissue proteins following ISO treatment demonstrated detrimental effects on calcium signaling and energy generation in cardiac myocytes. It is worth noting that cardiac troponins were not identified in serum but were identified as altered in heart tissue lysate along with other cardiac-specific proteins. This strategy for cardiac biomarker discovery by proteomic screening of heart tissue proteins, followed by verification in serum samples using immunoassays or targeted mass spectrometry, could be applied in future biomarker studies.

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Do song-phrase production rate and song versatility honestly communicate male parental quality in the Gray Catbird?

Dolby

Clarkson

Haas

et al. 2005

Journal of Field Ornithology

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β-Carotene Biosynthesis in Probiotic Bacteria

Miller

Harrison

D’Andrea

et al. 2013

Probiotics & Antimicro. Prot.

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Susceptibility to deadly diarrheal diseases is partly due to widespread pediatric vitamin A deficiency. To increase vitamin A coverage in malnourished children, we propose to engineer a probiotic bacterium that will produce β-carotene in the intestine, which will be metabolized to vitamin A. Such a therapy has the potential to broadly stimulate mucosal immunity and simultaneously reduce the incidence and duration of diarrheal disease. To that end, a β-carotene-producing variant of the probiotic Escherichia coli strain Nissle 1917 (EcN-BETA) was generated. Notably, the strain produces β-carotene under anaerobic conditions, reflective of the gut environment. EcN-BETA also retains β-carotene production capability after lyophilization, suggesting that it may be amenable to dry formulation. Moreover, EcN-BETA activates murine dendritic cells in vitro, suggesting that the presence of β-carotene may not diminish the immunostimulatory capacity of EcN. Finally, we present a framework through which further improvements may enable approaches such as the one described in this report to yield innovative life-saving therapies for the developing world.

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