Literature DB >> 22229314

Monoclonal antibodies as pharmacokinetic antagonists for the treatment of (+)-methamphetamine addiction.

S Michael Owens1, William T Atchley, Michael D Hambuchen, Eric C Peterson, W Brooks Gentry.   

Abstract

Developing specific medications to treat (+)-methamphetamine (METH) addiction is a difficult challenge because METH has multiple sites of action that are intertwined with normal neurological function. As a result, no small molecule medication for the treatment of METH addiction has made it through the FDA clinical trials process. With the invention of a new generation of proteinbased therapies, it is now possible to consider treating drug addiction by an entirely different approach. This new approach is based on the discovery of very high affinity anti-METH monoclonal antibodies (mAbs), which are non-addictive and antagonize METH effects from the blood stream without entering the brain. Due to a very long biological half-life, anti-METH mAbs would only need to be administered once every 2-4 weeks, aiding in patient compliance. As a relapse prevention medication, anti-METH mAbs could reduce or prevent the rewarding effects of a relapse to METH use and thereby improve a patient's probability of remaining in therapy and recovering from their addiction. In this review, we discuss the discovery process of anti-METH mAbs, with a focus on the preclinical development leading to high affinity anti-METH mAb antagonists.

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Year:  2011        PMID: 22229314      PMCID: PMC3653579          DOI: 10.2174/187152711799219370

Source DB:  PubMed          Journal:  CNS Neurol Disord Drug Targets        ISSN: 1871-5273            Impact factor:   4.388


  44 in total

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Review 8.  Immunotherapy for the treatment of drug abuse.

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  22 in total

1.  Chronic treatment of (+)-methamphetamine-induced locomotor effects in rats using one or a combination of two high affinity anti-methamphetamine monoclonal antibodies.

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2.  Combining Active Immunization with Monoclonal Antibody Therapy To Facilitate Early Initiation of a Long-Acting Anti-Methamphetamine Antibody Response.

Authors:  Michael D Hambuchen; F Ivy Carroll; Daniela Rüedi-Bettschen; Howard P Hendrickson; Leah J Hennings; Bruce E Blough; Lawrence E Brieaddy; Ramakrishna R Pidaparthi; S Michael Owens
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3.  Treatment of rats with an anti-(+)-methamphetamine monoclonal antibody shortens the duration of action of repeated (+)-methamphetamine challenges over a one month period.

Authors:  Michael D Hambuchen; Daniela Rüedi-Bettschen; D Keith Williams; Howard Hendrickson; S Michael Owens
Journal:  Vaccine       Date:  2014-09-22       Impact factor: 3.641

4.  Attenuation of cocaine-induced locomotor activity in male and female mice by active immunization.

Authors:  Therese A Kosten; Xiaoyun Y Shen; Berma M Kinsey; Thomas R Kosten; Frank M Orson
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7.  A mathematical model of a recombinant humanized anti-cocaine monoclonal antibody's effects on cocaine pharmacokinetics in mice.

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8.  Vaccination protects rats from methamphetamine-induced impairment of behavioral responding for food.

Authors:  Daniela Rüedi-Bettschen; Sherri L Wood; Melinda G Gunnell; C Michael West; Rama R Pidaparthi; F Ivy Carroll; Bruce E Blough; S Michael Owens
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9.  Pharmacological effects of two anti-methamphetamine monoclonal antibodies. Supporting data for lead candidate selection for clinical development.

Authors:  Elizabeth M Laurenzana; Misty W Stevens; John C Frank; Michael D Hambuchen; Howard P Hendrickson; Sarah J White; D Keith Williams; S Michael Owens; W Brooks Gentry
Journal:  Hum Vaccin Immunother       Date:  2014-11-01       Impact factor: 3.452

10.  PEGylation of a High-Affinity Anti-(+)Methamphetamine Single Chain Antibody Fragment Extends Functional Half-Life by Reducing Clearance.

Authors:  Emily E Reichard; Nisha Nanaware-Kharade; Guillermo A Gonzalez; Shraddha Thakkar; S Michael Owens; Eric C Peterson
Journal:  Pharm Res       Date:  2016-09-12       Impact factor: 4.200
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