Brian C. Geyer scite author profile

The concept of using cholinesterase bioscavengers for prophylaxis against organophosphorous nerve agents and pesticides has progressed from the bench to clinical trial. However, the supply of the native human proteins is either limited (e.g., plasma-derived butyrylcholinesterase and erythrocytic acetylcholinesterase) or nonexisting (synaptic acetylcholinesterase). Here we identify a unique form of recombinant human butyrylcholinesterase that mimics the native enzyme assembly into tetramers; this form provides extended effective pharmacokinetics that is significantly enhanced by polyethylene glycol conjugation. We further demonstrate that this enzyme (but not a G117H/E197Q organophosphorus acid anhydride hydrolase catalytic variant) can prevent morbidity and mortality associated with organophosphorous nerve agent and pesticide exposure of animal subjects of two model species.countermeasures | nonconventional warfare agents | organophosphorous pesticides | protein engineering | transgenic plants B utyrylcholinesterase (BChE) is the major cholinesterase (ChE) in the serum of humans (1, 2). Although the closely related enzyme acetylcholinesterase (AChE) is well described as the primary synaptic regulator of cholinergic transmission, a definitive physiological role for BChE has not yet been demonstrated (3). BChE is catalytically promiscuous and hydrolyzes not only acetylcholine (ACh), but also longer-chain choline esters (e.g., butyrylcholine, its preferred substrate, and succinylcholine) and a variety of non-choline esters, such as acetylsalicylic acid (aspirin) and cocaine (4, 5). Moreover, BChE binds most environmentally occurring ChE inhibitors as well as man-made organophosphorous (OP) pesticides and nerve agents (NAs) (6, 7-10).The systemic biodistribution and affinity for ChE inhibitors allow endogenous BChE to provide broad-spectrum protection against various toxicants by their sequestration before they reach cholinergic synapses. However, under realistic high-dose exposure scenarios, BChE serum levels are too low to afford adequate protection, resulting in persistent cholinergic excitation due to irreversible inhibition of AChE and subsequent accumulation of ACh. Sublethal manifestations of this state include unregulated exocrine secretion and gastrointestinal hypermotility. Death usually results from unregulated stimulation at neuromuscular junction leading to hemodynamic instability and tetanic contraction of the respiratory muscles (11,12).Current OP poisoning therapy consists of atropine for muscarinic ACh receptor blockade and diazepam for symptomatic management of convulsions (12). Additionally, oxime therapy with 2-pralidoxime (2-PAM) can effectively reactivate some but not all OP-AChE adducts (13)(14)(15). This standard therapeutic approach can reduce mortality, but insufficiently prevents the incapacitation associated with OP toxicity (12, 16).Prophylaxis by administration of exogenous ChEs has proven successful in reducing OP-associated morbidity and mortality, but requires the availability of rel...

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A mucosally targeted subunit vaccine candidate eliciting HIV-1 transcytosis-blocking Abs

Matoba

Magérus

Geyer

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

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A vaccine that would engage the mucosal immune system against a broad range of HIV-1 subtypes and prevent epithelial transmission is highly desirable. Here we report fusing the mucosal targeting B subunit of cholera toxin to the conserved galactosylceramide-binding domain (including the ELDKWA-neutralizing epitope) of the HIV-1 gp41 envelope protein, which mediates the transcytosis of HIV-1 across the mucosal epithelia. Chimeric protein expressed in bacteria or plants assembled into oligomers that were capable of binding galactosyl-ceramide and G M1 gangliosides. Mucosal (intranasal) administration in mice of the purified chimeric protein followed by an i.p. boost resulted in transcytosis-neutralizing serum IgG and mucosal IgA responses and induced immunological memory. Plant production of mucosally targeted immunogens could be particularly useful for immunization programs in developing countries, where desirable product traits include low cost of manufacture, heat stability, and needle-free delivery.

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Transgenic plants as a source for the bioscavenging enzyme, human butyrylcholinesterase

Geyer

Kannan

Cherni

et al. 2010

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SummaryOrganophosphorous pesticides and nerve agents inhibit the enzyme acetylcholinesterase at neuronal synapses and in neuromuscular junctions. The resulting accumulation of acetylcholine overwhelms regulatory mechanisms, potentially leading to seizures and death from respiratory collapse. While current therapies are only capable of reducing mortality, elevation of the serum levels of the related enzyme butyrylcholinesterase (BChE) by application of the purified protein as a bioscavenger of organophosphorous compounds is effective in preventing all symptoms associated with poisoning by these toxins. However, BChE therapy requires large quantities of enzyme that can easily overwhelm current sources. Here, we report genetic optimization, cloning and high-level expression of human BChE in plants. Plant-derived BChE is shown to be biochemically similar to human plasma-derived BChE in terms of catalytic activity and inhibitor binding. We further demonstrate the ability of the plant-derived bioscavenger to protect animals against an organophosphorous pesticide challenge.

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Changes in readthrough acetylcholinesterase expression modulate amyloid-beta pathology

Berson

Knobloch

Hanan

et al. 2007

Brain

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Alzheimer's disease has long been known to involve cholinergic deficits, but the linkage between cholinergic gene expression and the Alzheimer's disease amyloid pathology has remained incompletely understood. One known link involves synaptic acetylcholinesterase (AChE-S), shown to accelerate amyloid fibrils formation. Here, we report that the 'Readthrough' AChE-R splice variant, which differs from AChE-S in its 26 C-terminal residues, inversely exerts neuroprotective effects from amyloid beta (Abeta) induced toxicity. In vitro, highly purified AChE-R dose-dependently suppressed the formation of insoluble Abeta oligomers and fibrils and abolished Abeta toxicity to cultured cells, competing with the prevalent AChE-S protein which facilitates these processes. In vivo, double transgenic APPsw/AChE-R mice showed lower plaque burden, fewer reactive astrocytes and less dendritic damage than single APPsw mice, inverse to reported acceleration of these features in double APPsw/AChE-S mice. In hippocampi from Alzheimer's disease patients (n = 10), dentate gyrus neurons showed significantly elevated AChE-R mRNA and reduced AChE-S mRNA. However, immunoblot analyses revealed drastic reductions in the levels of intact AChE-R protein, suggesting that its selective loss in the Alzheimer's disease brain exacerbates the Abeta-induced damages and revealing a previously unforeseen linkage between cholinergic and amyloidogenic events.

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Brian C. Geyer

Plant-derived human butyrylcholinesterase, but not an organophosphorous-compound hydrolyzing variant thereof, protects rodents against nerve agents

A mucosally targeted subunit vaccine candidate eliciting HIV-1 transcytosis-blocking Abs

Transgenic plants as a source for the bioscavenging enzyme, human butyrylcholinesterase

Changes in readthrough acetylcholinesterase expression modulate amyloid-beta pathology

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