Subunit Stabilization and Polyethylene Glycolation of Cocaine Esterase Improves In Vivo Residence Time

Narasimhan, Diwahar; Collins, Gregory T.; Nance, M.R.; Nichols, J. Wylie; Edwald, Elin; Chan, Jimmy Yu Wai; Ko, Mei‐Chuan; Woods, James H.; Tesmer, John J.G.; Sunahara, Roger K.

doi:10.1124/mol.111.074997

Cited by 18 publications

(19 citation statements)

References 52 publications

(70 reference statements)

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“…Importantly, just as these changes did not alter the enzymatic activity of PEG-CCRQ CocE in vitro , the DM (RQ) and PEG-CCRQ forms of CocE appeared to be equally effective at eliminating cocaine in vivo as both enzymes produced at least 10-fold rightward shifts in the reinforcing effects of cocaine when comparable doses of B3 mg/kg were administered immediately before the start of cocaine self-administration sessions (Collins et al, 2009). Nevertheless, just as the prolonged duration of PEG-CCRQ CocE's protective effects differentiated it from DM CocE in rodent models of acute cocaine toxicity (Collins et al, 2011b;Narasimhan et al, 2011) differences between these enzymes began to emerge when PEG-CCRQ CocE was evaluated against cocaine self-administration using a multiple dose procedure that allowed for the longitudinal evaluation of an animal's sensitivity to the reinforcing effects of cocaine. Unlike the effects of B3 mg/ kg DM CocE, which had completely dissipated by 24 h (Collins et al, 2009), pretreatment with 3.2 mg/kg PEG-CCRQ CocE produced a longer lasting change in cocaine self-administration with a three-fold rightward shift in the dose-response curve observed 24 h later, and baseline-like rates of responding not observed until 48 h after administration.…”

Section: Discussionmentioning

confidence: 99%

Long-Lasting Effects of a PEGylated Mutant Cocaine Esterase (CocE) on the Reinforcing and Discriminative Stimulus Effects of Cocaine in Rats

Collins

Narasimhan

Cunningham

et al. 2011

Neuropsychopharmacol

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Recent mutagenesis studies have identified a mutant G4C/S10C/T172R/G173Q cocaine esterase (CCRQ CocE) with an in vitro duration of action of 440 days. Although the in vivo duration of CCRQ CocE's action was o24 h, modification of this enzyme with polyethylene glycol (PEG) polymers resulted in a CocE (PEG-CCRQ CocE) capable of preventing cocaine-induced lethality for up to 72 h. The current studies were aimed at providing a detailed characterization of the effectiveness, selectivity, and duration of PEG-CCRQ CocE's actions in cocaine self-administration and discrimination assays in rats. Pretreatment with PEG-CCRQ CocE produced dose-dependent rightward shifts in the dose-response curves for cocaine self-administration and discrimination, with the highest dose of PEG-CCRQ CocE capable of producing an initial shift of cocaine's reinforcing and interoceptive effects of 430-fold to the right, with significant inhibition of these effects observed for up to 72 h. Although PEG-CCRQ CocE also produced slight reductions in the rates of methylphenidate-and foodreinforced responding, these effects were short-lived, lasting o24 h. Finally, when taken together with the finding that PEG-CCRQ CocE failed to alter the cocaine-like interoceptive effects of either methylphenidate or d-amphetamine, these results suggest that PEG-CCRQ CocE possesses a high degree of pharmacologic specificity for cocaine and a prolonged in vivo duration of action. In conclusion, these studies provide strong evidence to support the further development of long-lasting, highly efficient CocEs, such as PEG-CCRQ CocE, as a potential therapeutic option for the treatment of cocaine abuse in humans.

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Section: Discussionmentioning

confidence: 99%

Long-Lasting Effects of a PEGylated Mutant Cocaine Esterase (CocE) on the Reinforcing and Discriminative Stimulus Effects of Cocaine in Rats

Collins

Narasimhan

Cunningham

et al. 2011

Neuropsychopharmacol

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“…Natural cocaine esterases have also been modified by site-specific mutagenesis to confer good catalytic activity at body temperature. The most efficient mutant was sterically stabilized with two 40-kD PEG chains to increase its circulation time (56). The esterase exhibited a relatively long-lasting protective efficacy (pretreated 24 to 72 hours prior to drug intake, with 3.2 to 32 mg/kg enzyme) in rats overdosed with lethal doses of cocaine.…”

Section: Enzymatic Scavengersmentioning

confidence: 99%

Nano-antidotes for drug overdose and poisoning

Forster

Leroux

2015

Sci. Transl. Med.

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The number of intoxications from xenobiotics--natural or synthetic foreign chemicals, or substances given in higher doses than typically present in humans--has risen tremendously in the last decade, placing poisoning as the leading external cause of death in the United States. This epidemic has fostered the development of antidotal nanomedicines, which we call "nano-antidotes," capable of efficiently neutralizing offending compounds in situ. Although prototype nano-antidotes have shown efficacy in proof-of-concept studies, the gap to clinical translation can only be filled if issues such as the clinical relevance of intoxication models and the safety profile of nano-antidotes are properly addressed. As the unmet medical needs in resuscitative care call for better treatments, this Perspective critically reviews the recent progress in antidotal medicine and emerging nanotechnologies.

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“…Although these findings suggest that immunologic responses to repeated administrations of DM CocE are not likely to affect its therapeutic effectiveness, recent attempts to improve the duration and further reduce the immunogenicity of CocE have resulted in a polyethylene glycol-modified mutant form of CocE (PEG-CCRQ CocE) capable of reducing the reinforcing, cardiovascular, convulsant, and lethal effects of cocaine for up to 48 h without eliciting increases in anti-CocE antibodies (Narasimhan et al, 2011;Collins et al, 2012). It is noteworthy that even though self-administration studies in rats (Collins et al, 2009 suggest that human cocaine abusers would be able to surmount the protective effects of CocE (by ingesting approximately 10 times more cocaine), the capacity of CocE to rapidly metabolize large doses of cocaine (Ͼ100 mg/kg i.v.…”

Section: Repeat Dosing With Dm Coce In Primates 211mentioning

confidence: 99%

Repeated Administration of a Mutant Cocaine Esterase: Effects on Plasma Cocaine Levels, Cocaine-Induced Cardiovascular Activity, and Immune Responses in Rhesus Monkeys

Collins¹,

Brim²,

Noon³

et al. 2012

J Pharmacol Exp Ther

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Previous studies have demonstrated the capacity of a longacting mutant form of a naturally occurring bacterial double mutant cocaine esterase (DM CocE) to antagonize the reinforcing, discriminative, convulsant, and lethal effects of cocaine in rodents and reverse the increases in mean arterial pressure (MAP) and heart rate (HR) produced by cocaine in rhesus monkeys. This study was aimed at characterizing the immunologic responses to repeated dosing with DM CocE and determining whether the development of anti-CocE antibodies altered the capacity of DM CocE to reduce plasma cocaine levels and ameliorate the cardiovascular effects of cocaine in rhesus monkeys. Under control conditions, intravenous administration of cocaine (3 mg/kg) resulted in a rapid increase in the plasma concentration of cocaine (n ϭ 2) and long-lasting increases in MAP and HR (n ϭ 3). Administration of DM CocE (0.32 mg/kg i.v.) 10 min after cocaine resulted in a rapid hydrolysis of cocaine with plasma levels below detection limits within 5 to 8 min. Elevations in MAP and HR were significantly reduced within 25 and 50 min of DM CocE administration, respectively. Although slight (10-fold) increases in anti-CocE antibodies were observed after the fourth administration of DM CocE, these antibodies did not alter the capacity of DM CocE to reduce plasma cocaine levels or ameliorate cocaine's cardiovascular effects. Anti-CocE titers were transient and generally dissipated within 8 weeks. Together, these results suggest that highly efficient cocaine esterases, such as DM CocE, may provide a novel and effective therapeutic for the treatment of acute cocaine intoxication in humans.

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Subunit Stabilization and Polyethylene Glycolation of Cocaine Esterase Improves In Vivo Residence Time

Cited by 18 publications

References 52 publications

Long-Lasting Effects of a PEGylated Mutant Cocaine Esterase (CocE) on the Reinforcing and Discriminative Stimulus Effects of Cocaine in Rats

Long-Lasting Effects of a PEGylated Mutant Cocaine Esterase (CocE) on the Reinforcing and Discriminative Stimulus Effects of Cocaine in Rats

Nano-antidotes for drug overdose and poisoning

Repeated Administration of a Mutant Cocaine Esterase: Effects on Plasma Cocaine Levels, Cocaine-Induced Cardiovascular Activity, and Immune Responses in Rhesus Monkeys

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