Paul F. Gillespie scite author profile

Paul F. Gillespie

5Publications

12Citation Statements Received

71Citation Statements Given

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127

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University of Scranton

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Disulfide Stress Targets Modulators of Excitotoxicity in Otherwise Healthy Brains

2016

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Oxidative stress is a long-hypothesized cause of diverse neurological and psychiatric disorders but the pathways by which physiological redox perturbations may detour healthy brain development and aging are unknown. We reported recently (Foley et al., Neurochem Res 39:2030-2039, 2014) that two-electron oxidations, to disulfides, of protein vicinal thiols can vary markedly in association with more modest oxidations of the glutathione redox couple in brains from healthy adolescent rats whereas levels of protein S-glutathionylation were low and unchanged. Here, we demonstrate that the selective oxidations of protein vicinal thiols, occurring only in the more oxidized brains under study, were linked specifically to a peroxide stress as evidenced by increased oxidations, to disulfides, of the presumed catalytic vicinal thiols of peroxiredoxins 1 and 2. Moreover, we identify the catalytic subunit(s) of Na, K-ATPase, tubulins, glyceraldehyde-3-phosphate dehydrogenase, and protein phosphatase 1, all of which can modulate glutamate neurotransmission and the vulnerability of neurons to excitotoxicity, as non-peroxidase proteins exhibiting prominent oxidations of vicinal thiols. The two-electron pathway, demonstrated here, linking physiological redox perturbations in otherwise healthy brains to protein determinants of excitotoxicity, suggests an alternative to free radical pathways by which oxidative stress may impact brain development and aging.

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Understanding the Spike Protein in COVID-19 Vaccine in Recombinant Vesicular Stomatitis Virus (rVSV) Using Automated Capillary Western Blots

Gillespie¹,

Wang²,

Hofmann³

et al. 2023

ACS Omega

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Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is the viral agent that is responsible for the coronavirus disease-2019 (COVID-19) pandemic. One of the live virus vaccine candidates Merck and Co., Inc. was developing to help combat the pandemic was V590. V590 was a live-attenuated, replication-competent, recombinant vesicular stomatitis virus (rVSV) in which the envelope VSV glycoprotein (G protein) gene was replaced with the gene for the SARS-CoV-2 spike protein (S protein), the protein responsible for viral binding and fusion to the cell membrane. To assist with product and process development, a quantitative Simple Western (SW) assay was successfully developed and phase-appropriately qualified to quantitate the concentration of S protein expressed in V590 samples. A strong correlation was established between potency and S-protein concentration, which suggested that the S-protein SW assay could be used as a proxy for virus productivity optimization with faster data turnaround time (3 h vs 3 days). In addition, unlike potency, the SW assay was able to provide a qualitative profile assessment of the forms of S protein (S protein, S1 subunit, and S multimer) to ensure appropriate levels of S protein were maintained throughout process and product development. Finally, V590 stressed stability studies suggested that time and temperature contributed to the instability of S protein demonstrated by cleavage into its subunits, S1 and S2, and aggregation into S multimer. Both of which could potentially have a deleterious effect on the vaccine immunogenicity.

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Protein Vicinal Thiol Oxidations in the Healthy Brain: Not So Radical Links between Physiological Oxidative Stress and Neural Cell Activities

et al. 2014

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Reversible oxidations of protein thiols have emerged as alternatives to free radical-mediated oxidative damage with which to consider the impacts of oxidative stress on cellular activities but the scope and pathways of such oxidations in tissues, including the brain, have yet to be fully defined. We report here a characterization of reversible oxidations of glutathione and protein thiols in extracts from rat brains, from two sources, which had been (1) frozen quickly after euthanasia to preserve in vivo redox states and (2) subjected to alkylation upon tissue disruption to trap reduced thiols. Brains were defined, relatively, as Reduced and Moderately Oxidized based on measured ratios of reduced (GSH) to oxidized (GSSG) glutathione. Levels of protein disulfides formed by the cross-linking of closely-spaced (vicinal) protein thiols, but not protein S-glutathionylation, were higher in extracts from the Moderately Oxidized brains compared to the Reduced brains. Moreover, the oxidized vicinal thiol proteome contains proteins that impact cellular energetics, signaling, neurotransmission, and cytoskeletal dynamics among others. These findings argue that kinetically-competent pathways for reversible, two-electron oxidations, of protein vicinal thiols can be activated in healthy brains in response to physiological oxidative stresses. We propose that such oxidations may link oxidative stress to adaptive, but also potentially deleterious, changes in neural cell activities in otherwise healthy brains.

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Foxfire 7

Kroll-Smith¹,

Gillespie²

1983

Journal for the Scientific Study of Religion

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Quantitation of Coxsackievirus A21 Viral Proteins in Mixtures of Empty and Full Capsids Using Capillary Western

Gillespie¹,

Rustandi²,

Swartz

et al. 2023

Human Gene Therapy

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Paul F. Gillespie

Disulfide Stress Targets Modulators of Excitotoxicity in Otherwise Healthy Brains

Understanding the Spike Protein in COVID-19 Vaccine in Recombinant Vesicular Stomatitis Virus (rVSV) Using Automated Capillary Western Blots

Protein Vicinal Thiol Oxidations in the Healthy Brain: Not So Radical Links between Physiological Oxidative Stress and Neural Cell Activities

Foxfire 7

Quantitation of Coxsackievirus A21 Viral Proteins in Mixtures of Empty and Full Capsids Using Capillary Western

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