Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-7 (of 7 Records) |
Query Trace: Solano MI[original query] |
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Comprehensive characterization of toxins during progression of inhalation anthrax in a non-human primate model
Boyer AE , Gallegos-Candela M , Lins RC , Solano MI , Woolfitt AR , Lee JS , Sanford DC , Knostman KAB , Quinn CP , Hoffmaster AR , Pirkle JL , Barr JR . PLoS Pathog 2022 18 (12) e1010735 Inhalation anthrax has three clinical stages: early-prodromal, intermediate-progressive, and late-fulminant. We report the comprehensive characterization of anthrax toxins, including total protective antigen (PA), total lethal factor (LF), total edema factor (EF), and their toxin complexes, lethal toxin and edema toxin in plasma, during the course of inhalation anthrax in 23 cynomolgus macaques. The toxin kinetics were predominantly triphasic with an early rise (phase-1), a plateau/decline (phase-2), and a final rapid rise (phase-3). Eleven animals had shorter survival times, meanstandard deviation of 58.77.6 hours (fast progression), 11 animals had longer survival times, 11334.4 hours (slow progression), and one animal survived. Median (lower-upper quartile) LF levels at the end-of-phase-1 were significantly higher in animals with fast progression [138 (54.9-326) ng/mL], than in those with slow progression [23.8 (15.6-26.3) ng/mL] (p = 0.0002), and the survivor (11.1 ng/mL). The differences were also observed for other toxins and bacteremia. Animals with slow progression had an extended phase-2 plateau, with low variability of LF levels across all time points and animals. Characterization of phase-2 toxin levels defined upper thresholds; critical levels for exiting phase-2 and entering the critical phase-3, 342 ng/mL (PA), 35.8 ng/mL (LF), and 1.10 ng/mL (EF). The thresholds were exceeded earlier in animals with fast progression (38.57.4 hours) and later in animals with slow progression (78.715.2 hours). Once the threshold was passed, toxin levels rose rapidly in both groups to the terminal stage. The time from threshold to terminal was rapid and similar; 20.87.4 hours for fast and 19.97.5 hours for slow progression. The three toxemic phases were aligned with the three clinical stages of anthrax for fast and slow progression which showed that anthrax progression is toxin- rather than time-dependent. This first comprehensive evaluation of anthrax toxins provides new insights into disease progression. |
SARS-CoV-2 viral shedding in vaccinated and unvaccinated persons: A case series.
McCormick DW , Hagan LM , Salvatore PP , Magleby R , Lee C , Sleweon S , Nicolae L , Dixon T , Banta R , Ogle I , Young C , Dusseau C , Ogden C , Browne H , Michael Metz J , Chen MH , Solano MI , Rogers S , Burgin A , Sheth M , Bankamp B , Tamin A , Harcourt JL , Tate JE , Kirking HL . Vaccine 2022 41 (11) 1769-1773 The preclinical time course of SARS-CoV-2 shedding is not well-described. Understanding this time course will help to inform risk of SARS-CoV-2 transmission. During an outbreak in a congregate setting, we collected paired mid-turbinate nasal swabs for antigen testing and reverse-transcription polymerase chain reaction (RT-PCR) every other day from all consenting infected and exposed persons. Among 12 persons tested prospectively before and during SARS-CoV-2 infection, ten of 12 participants (83%) had completed a primary COVID-19 vaccination series prior to the outbreak. We recovered SARS-CoV-2 in viral culture from 9/12 (75%) of participants. All three persons from whom we did not recover SARS-CoV-2 in viral culture had completed their primary vaccination series. We recovered SARS-CoV-2 from viral culture in 6/9 vaccinated persons and before symptom onset in 3/6 symptomatic persons. These findings underscore the need for both non-pharmaceutical interventions and vaccination to mitigate transmission. |
Accurate and selective quantification of anthrax protective antigen in plasma by immunocapture and isotope dilution mass spectrometry
Solano MI , Woolfitt AR , Boyer AE , Lins RC , Isbell K , Gallegos-Candela M , Moura H , Pierce CL , Barr JR . Analyst 2019 144 (7) 2264-2274 Anthrax protective antigen (83 kDa, PA83) is an essential component of two major binary toxins produced by Bacillus anthracis, lethal toxin (LTx) and edema toxin (ETx). During infection, LTx and ETx contribute to immune collapse, endothelial dysfunction, hemorrhage and high mortality. Following protease cleavage on cell receptors or in circulation, the 20 kDa (PA20) N-terminus is released, activating the 63 kDa (PA63) form which binds lethal factor (LF) and edema factor (EF), facilitating their entry into their cellular targets. Several ELISA-based PA methods previously developed are primarily qualitative or semi-quantitative. Here, we combined protein immunocapture, tryptic digestion and isotope dilution liquid chromatography-mass spectrometry (LC-MS/MS), to develop a highly selective and sensitive method for detection and accurate quantification of total-PA (PA83 + PA63) and PA83. Two tryptic peptides in the 63 kDa region measure total-PA and three in the 20 kDa region measure PA83 alone. Detection limits range from 1.3-2.9 ng mL-1 PA in 100 muL of plasma. Spiked recovery experiments with combinations of PA83, PA63, LF and EF in plasma showed that PA63 and PA83 were quantified accurately against the PA83 standard and that LF and EF did not interfere with accuracy. Applied to a study of inhalation anthrax in rhesus macaques, total-PA suggested triphasic kinetics, similar to that previously observed for LF and EF. This study is the first to report circulating PA83 in inhalation anthrax, typically at less than 4% of the levels of PA63, providing the first evidence that activated PA63 is the primary form of PA throughout infection. |
Quantification of Influenza Neuraminidase Activity by Ultra-High Performance Liquid Chromatography and Isotope Dilution Mass Spectrometry
Solano MI , Woolfitt AR , Williams TL , Pierce CL , Gubareva LV , Mishin V , Barr JR . Anal Chem 2017 89 (5) 3130-3137 Mounting evidence suggests that neuraminidase's functionality extends beyond its classical role in influenza virus infection and that antineuraminidase antibodies offer protective immunity. Therefore, a renewed interest in the development of neuraminidase (NA)-specific methods to characterize the glycoprotein and evaluate potential advantages for NA standardization in influenza vaccines has emerged. NA displays sialidase activity by cleaving off the terminal N-acetylneuraminic acid on α-2,3 or α-2,6 sialic acid containing receptors of host cells. The type and distribution of these sialic acid containing receptors is considered to be an important factor in transmission efficiency of influenza viruses between and among host species. Changes in hemagglutinin (HA) binding and NA specificity in reassortant viruses may be related to the emergence of new and potentially dangerous strains of influenza. Current methods to investigate neuraminidase activity use small derivatized sugars that are poor models for natural glycoprotein receptors and do not provide information on the linkage specificity. Here, a novel approach for rapid and accurate quantification of influenza neuraminidase activity is achieved utilizing ultra-high performance liquid chromatography (UPLC) and isotope dilution mass spectrometry (IDMS). Direct LC-MS/MS quantification of NA-released sialic acid provides precise measurement of influenza neuraminidase activity over a range of substrates. The method provides exceptional sensitivity and specificity with a limit of detection of 0.38 μM for sialic acid and the capacity to obtain accurate measurements of specific enzyme activity preference toward α-2,3-sialyllactose linkages, α-2,6-sialyllactose linkages, or whole glycosylated proteins such as fetuin. |
Immunocapture isotope dilution mass spectrometry in response to a pandemic influenza threat
Pierce CL , Williams TL , Santana WI , Levine M , Chen LM , Cooper HC , Solano MI , Woolfitt AR , Marasco WA , Fang H , Donis RO , Barr JR . Vaccine 2017 35 (37) 5011-5018 As a result of recent advances in mass spectrometry-based protein quantitation methods, these techniques are now poised to play a critical role in rapid formulation of pandemic influenza vaccines. Analytical techniques that have been developed and validated on seasonal influenza strains can be used to increase the quality and decrease the time required to deliver protective pandemic vaccines to the global population. The emergence of a potentially pandemic avian influenza A (H7N9) virus in March of 2013, prompted the US public health authorities and the vaccine industry to initiate production of a pre-pandemic vaccine for preparedness purposes. To this end, we evaluated the feasibility of using immunocapture isotope dilution mass spectrometry (IC-IDMS) to evaluate the suitability of the underlying monoclonal and polyclonal antibodies (mAbs and pAbs) for their capacity to isolate the H7 hemagglutinin (HA) in this new vaccine for quantification by IDMS. A broad range of H7 capture efficiencies was observed among mAbs tested by IC-IDMS with FR-545, 46/6, and G3 A533 exhibiting the highest cross-reactivity capabilities to H7 of A/Shanghai/2/2013. MAb FR-545 was selected for continued assessment, evaluated by IC-IDMS for mAb reactivity against H7 in the H7N9 candidate vaccine virus and compared with/to reactivity to the reference polyclonal antiserum in allantoic fluid, purified whole virus, lyophilized whole virus and final detergent-split monovalent vaccine preparations for vaccine development. IC-IDMS assessment of FR-545 alongside IC-IDMS using the reference polyclonal antiserum to A/Shanghai/2/2013 and with the regulatory SRID method showed strong correlation and mAb IC-IDMS could have played an important role in the event a potential surrogate potency test was required to be rapidly implemented. |
Studies on botulinum neurotoxins type/C1 and mosaic/DC using endopep-MS and proteomics
Moura H , Terilli RR , Woolfitt AR , Gallegos-Candela M , McWilliams LG , Solano MI , Pirkle JL , Barr JR . FEMS Immunol Med Microbiol 2010 61 (3) 288-300 Botulinum neurotoxins (BoNTs) are very potent toxins and category A biological threat agents. BoNT serotypes/C1 and/D affect birds and mammals and can be potentially lethal to humans. We have previously described the usefulness of the Endopep-MS method to detect the activity of BoNT A through G. This report was followed by the application of the method to clinical samples. The activity of the BoNT serotypes associated with human disease (/A,/B,/E, and/F) was successfully detected. However, BoNT/C and/D require different conditions for fast substrate cleavage and a comprehensive description of a method to study BoNT/C and/D has not yet been reported. This work describes a new, optimized version of the Endopep-MS method to detect BoNTs/C1 and/DC either spiked directly in 20 muL of reaction buffer or spiked in a larger volume of buffer and further extracted using antibody-coated magnetic beads. It was found that the incubation temperature at 42 degrees C was more effective for both toxin serotypes, but each toxin serotype has an optimum cleavage pH. Additionally, we describe for the first time a proteomics study using a fast trypsin digestion method and label-free quantification of these toxin serotypes. |
Optimization of digestion parameters for protein quantification
Norrgran J , Williams TL , Woolfitt AR , Solano MI , Pirkle JL , Barr JR . Anal Biochem 2009 393 (1) 48-55 We present a rapid and efficient in-solution enzymatic digestion protocol suitable for mass spectrometry-based absolute protein quantification techniques. The digestion method employs RapiGest SF (an acid-labile surfactant), an excess amount of modified trypsin (enzyme-to-substrate ratio of 2.5:1), and an incubation time of 2 h. No reduction/alkylation reagents are used. Digestion parameters were varied systematically to monitor their effect on rate and completeness of digestion. To demonstrate the general applicability of the method, the optimization was done using a viral hemagglutinin (HA) as a model protein and then applied to ricin, a potent protein toxin extracted from the castor bean (Ricinus communis). The parameters that were optimized included incubation time, concentration of RapiGest SF, enzyme-to-substrate ratio, and incubation temperature. The optimization was done by comparing the yields from two protein-specific peptides originating from two different sites of the HA protein. The analysis was performed by liquid chromatography-tandem mass spectrometry in multiple reaction monitoring mode using isotopically labeled peptide standards for quantification. |
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