Browsing by Author "Pincus, Seth H."

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Biophysical Evaluation of Rhesus Macaque Fc Gamma Receptors Reveals Similar IgG Fc Glycoform Preferences to Human Receptors
(Frontiers Media SA, 2021-10) Crowley, Andrew R.; Osei-Owusu, Nana Yaw; Dekkers, Gillian; Gao, Wenda; Wuhrer, Manfred; Magnani, Diogo M.; Reimann, Keith A.; Pincus, Seth H.; Vidarsson, Gestur; Ackerman, Margaret E.
Rhesus macaques are a common non-human primate model used in the evaluation of human monoclonal antibodies, molecules whose effector functions depend on a conserved N-linked glycan in the Fc region. This carbohydrate is a target of glycoengineering efforts aimed at altering antibody effector function by modulating the affinity of Fcγ receptors. For example, a reduction in the overall core fucose content is one such strategy that can increase antibody-mediated cellular cytotoxicity by increasing Fc-FcγRIIIa affinity. While the position of the Fc glycan is conserved in macaques, differences in the frequency of glycoforms and the use of an alternate monosaccharide in sialylated glycan species add a degree of uncertainty to the testing of glycoengineered human antibodies in rhesus macaques. Using a panel of 16 human IgG1 glycovariants, we measured the affinities of macaque FcγRs for differing glycoforms via surface plasmon resonance. Our results suggest that macaques are a tractable species in which to test the effects of antibody glycoengineering.
Bispecific Anti-HIV Immunoadhesins That Bind Gp120 and Gp41 Have Broad and Potent HIV-Neutralizing Activity
(MDPI AG, 2021-07) Pincus, Seth H.; Craig, Ryan B.; Weachter, Lauren; LaBranche, Celia C.; Nabi, Rafiq; Watt, Connie; Raymond, Mark; Peters, Tami; Song, Kejing; Maresh, Grace A.; Montefiori, David C.; Kozlowski, Pamela A.
We have constructed bispecific immunoglobulin-like immunoadhesins that bind to both the HIV-envelope glycoproteins: gp120 and gp41. These immunoadhesins have N terminal domains of human CD4 engrafted onto the N-terminus of the heavy chain of human anti-gp41 mAb 7B2. Binding of these constructs to recombinant Env and their antiviral activities were compared to that of the parental mAbs and CD4, as well as to control mAbs. The CD4/7B2 constructs bind to both gp41 and gp140, as well as to native Env expressed on the surface of infected cells. These constructs deliver cytotoxic immunoconjugates to HIV-infected cells, but not as well as a mixture of 7B2 and sCD4, and opsonize for antibody-mediated phagocytosis. Most surprisingly, given that 7B2 neutralizes weakly, if at all, is that the chimeric CD4/7B2 immunoadhesins exhibit broad and potent neutralization of HIV, comparable to that of well-known neutralizing mAbs. These data add to the growing evidence that enhanced neutralizing activity can be obtained with bifunctional mAbs/immunoadhesins. The enhanced neutralization activity of the CD4/7B2 chimeras may result from cross-linking of the two Env subunits with subsequent inhibition of the pre-fusion conformational events that are necessary for entry.
Distinct Metabolic States Are Observed in Hypoglycemia Induced in Mice by Ricin Toxin or by Fasting
(MDPI AG, 2022-11) Kempa, Jacob; O’Shea-Stone, Galen; Moss, Corinne E.; Peters, Tami; Marcotte, Tamera K.; Tripet, Brian; Eilers, Brian; Bothner, Brian; Copié, Valérie; Pincus, Seth H.
Hypoglycemia may be induced by a variety of physiologic and pathologic stimuli and can result in life-threatening consequences if untreated. However, hypoglycemia may also play a role in the purported health benefits of intermittent fasting and caloric restriction. Previously, we demonstrated that systemic administration of ricin toxin induced fatal hypoglycemia in mice. Here, we examine the metabolic landscape of the hypoglycemic state induced in the liver of mice by two different stimuli: systemic ricin administration and fasting. Each stimulus produced the same decrease in blood glucose and weight loss. The polar metabolome was studied using 1H NMR, quantifying 59 specific metabolites, and untargeted LC-MS on approximately 5000 features. Results were analyzed by multivariate analyses, using both principal component analysis (PCA) and partial least squares-discriminant analysis (PLS-DA), to identify global metabolic patterns, and by univariate analyses (ANOVA) to assess individual metabolites. The results demonstrated that while there were some similarities in the responses to the two stimuli including decreased glucose, ADP, and glutathione, they elicited distinct metabolic states. The metabolite showing the greatest difference was O-phosphocholine, elevated in ricin-treated animals and known to be affected by the pro-inflammatory cytokine TNF-α. Another difference was the alternative fuel source utilized, with fasting-induced hypoglycemia primarily ketotic, while the response to ricin-induced hypoglycemia involves protein and amino acid catabolism.
Parenteral Exposure of Mice to Ricin Toxin Induces Fatal Hypoglycemia by Cytokine-Mediated Suppression of Hepatic Glucose-6-Phosphatase Expression
(MDPI AG, 2022-11) Pincus, Seth H.; Kyro, Alexi; Maresh, Grace A.; Peters, Tami; Kempa, Jacob; Marcotte, Tamera K.; Gao, Zhanguo; Ye, Jianping; Copié, Valérie; Song, Kejing
Ricin toxin is an agent of biodefense concern and we have been developing countermeasures for ricin threats. In doing so, we sought biomarkers of ricin toxicosis and found that in mice parenteral injection of ricin toxin causes profound hypoglycemia, in the absence of other clinical laboratory abnormalities. We now seek to identify the mechanisms underlying this hypoglycemia. Within the first hours following injection, while still normoglycemic, lymphopenia and pro-inflammatory cytokine secretion were observed, particularly tumor necrosis factor (TNF)-α. The cytokine response evolved over the next day into a complex storm of both pro- and anti-inflammatory cytokines. Evaluation of pancreatic function and histology demonstrated marked islet hypertrophy involving predominantly β-cells, but only mildly elevated levels of insulin secretion, and diminished hepatic insulin signaling. Drops in blood glucose were observed even after destruction of β-cells with streptozotocin. In the liver, we observed a rapid and persistent decrease in the expression of glucose-6-phosphatase (G6Pase) RNA and protein levels, accompanied by a drop in glucose-6-phosphate and increase in glycogen. TNF-α has previously been reported to suppress G6Pase expression. In humans, a genetic deficiency of G6Pase results in glycogen storage disease, type-I (GSD-1), a hallmark of which is potentially fatal hypoglycemia.
Soluble CD4 and low molecular weight CD4-mimetic compounds sensitize cells to be killed by anti-HIV cytotoxic immunoconjugates
(American Society for Microbiology, 2023-09) Pincus, Seth H.; Stackhouse, Megan; Watt, Connie; Ober, Kelli; Cole, Frances M.; Chen, Hung-Ching; Smith III, Amos B.; Peters, Tami
The reservoir of HIV-infected cells that persist in the face of effective anti-retroviral therapy (ART) is the barrier to curing HIV infection. These long-lived CD4+ cells carry a functional provirus that can become activated upon immune stimulation. When ART is stopped, this leads to a rapid rebound in viremia. A variety of approaches are proposed to eliminate these cells, many dependent upon the expression of virus proteins. We are examining the use of cytotoxic immunoconjugates targeting the HIV envelope protein (Env) as a method to eradicate cells producing virus and have demonstrated that soluble CD4 enhances the cytotoxic effect of gp41-targeted immunoconjugates. Mechanisms include increased antigen exposure and greater internalization of the immunoconjugate. Here we have tested different protein forms of CD4 and the small molecule CD4-mimetic BNM-III-170 for their effects on cells expressing cell-surface Env. Effects studied include sensitization to immunoconjugate killing, cell surface antigen expression, viability, and virus secretion. The CD4 proteins and BNM-III-170 produced comparable effects in these Env-expressing cell lines, each sensitizing cells to cytotoxicity by anti-gp41 immunoconjugates. The results provide further evidence that low molecular weight CD4 mimetics produce biologic effects similar to those caused by soluble CD4 itself and suggest additional therapeutic uses for these molecules.