Peter Nizner scite author profile

Peter Nizner

2Publications

22Citation Statements Received

154Citation Statements Given

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154

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MSD (United States)

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Definitive Metabolite Identification Coupled with Automated Ligand Identification System (ALIS) Technology: A Novel Approach to Uncover Structure–Activity Relationships and Guide Drug Design in a Factor IXa Inhibitor Program

et al. 2016

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A potent and selective Factor IXa (FIXa) inhibitor was subjected to a series of liver microsomal incubations, which generated a number of metabolites. Using automated ligand identification system-affinity selection (ALIS-AS) methodology, metabolites in the incubation mixture were prioritized by their binding affinities to the FIXa protein. Microgram quantities of the metabolites of interest were then isolated through microisolation analytical capabilities, and structurally characterized using MicroCryoProbe heteronuclear 2D NMR techniques. The isolated metabolites recovered from the NMR experiments were then submitted directly to an in vitro FIXa enzymatic assay. The order of the metabolites' binding affinity to the Factor IXa protein from the ALIS assay was completely consistent with the enzymatic assay results. This work showcases an innovative and efficient approach to uncover structure-activity relationships (SARs) and guide drug design via microisolation-structural characterization and ALIS capabilities.

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Deficiency in Cytosolic Malic Enzyme Does Not Increase Acetaminophen‐Induced Hepato‐Toxicity

Mumick

Nizner

et al. 2008

Basic Clin Pharma Tox

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Cytosolic malic enzyme (ME-1) is a nicotinamide adenine dinucleotide phosphate (NADP)-dependent enzyme that generates NADPH. The activity of this enzyme, the reversible oxidative decarboxylation of malate to yield pyruvate, links glycolytic pathway to citric acid cycle. The high level of ME-1 expression in liver, and its involvement in NADPH production, suggests reduced ME-1 activity might compromise hepatic production of reduced glutathione (GSH) by the NADPH-dependent enzyme glutathione reductase, and hence affect xenobiotic detoxification. The role of ME-1 in liver detoxification was evaluated in Mod1 deficient mice ( mod1 -/-) by evaluating their sensitivity to acetaminophen-induced liver injury. The results show that mod1 -/-mice are not more sensitive to acetaminophen hepato-toxicity. Although GSH levels were initially depleted more in the mod1 -/-liver than in wild-type controls, the GSH levels recovered quickly. In conclusion, our data indicate that ME-1 deficiency does not adversely affect GSH-dependent detoxification.

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Peter Nizner

Definitive Metabolite Identification Coupled with Automated Ligand Identification System (ALIS) Technology: A Novel Approach to Uncover Structure–Activity Relationships and Guide Drug Design in a Factor IXa Inhibitor Program

Deficiency in Cytosolic Malic Enzyme Does Not Increase Acetaminophen‐Induced Hepato‐Toxicity

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