Effective Reduction in High Ethanol Drinking by Semisynthetic Tetracycline Derivatives

Syapin, Peter J.; Martinez, Joseph; Curtis, David C.; Marquardt, Patrick; Allison, Clayton L.; Groot, Jessica A.; Baby, C.; Al-Hasan, Yazan; Segura-Ulate, Ismael; Scheible, Matthew J.; Nicholson, Katy T.; Redondo, Jose Luis; Trotter, David; Edwards, David S.; Bergeson, Susan E.

doi:10.1111/acer.13253

Cited by 17 publications

(33 citation statements)

References 33 publications

(45 reference statements)

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“…The primary purpose of the present study was to examine the ability of tigecycline to decrease EtOH intake in dependent and nondependent male and female mice following repeated cycles of CIE vapor or air exposure, respectively. Consistent with the results in nondependent mice with the “drinking in the dark” model of binge drinking in a companion paper (Syapin et al., ), tigecycline produced a dose‐dependent decrease in 2‐hour EtOH intake without influencing 22‐hour water intake versus saline injection. Interestingly, in the present study, the 80‐ and 100‐mg/kg tigecycline doses produced a similar suppression in EtOH intake in the dependent and nondependent mice versus vehicle injection, and those doses were more efficacious at reducing EtOH intake in the male versus female mice.…”

Section: Discussionsupporting

confidence: 85%

“…As tigecycline has been found in all tissues, including the cerebrospinal fluid and brain (Munyeza et al., ), and is thought to be eliminated in unmodified form primarily in the feces and to some extent in the urine, it is hard to resolve the differences. It is unclear why we found no suppression of EtOH intake on the day after tigecycline injection, while that same approach was effective to reduce acute binge drinking in our related study (Syapin et al., ).…”

Section: Discussioncontrasting

confidence: 53%

“…The purpose of this study was to examine the ability of tigecycline to decrease EtOH intake in dependent and nondependent mice following repeated bouts of CIE vapor or control air exposure, respectively. Both males and females were tested, based on the finding that there were sex differences in the ability of tigecycline to significantly decrease binge EtOH intake (Syapin et al., ). Tigecycline is an FDA‐approved drug used specifically for methicillin‐resistant Staphylococcus aureus (MRSA) infection (Koomanachai et al., ).…”

mentioning

confidence: 99%

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Tigecycline Reduces Ethanol Intake in Dependent and Nondependent Male and Female C57BL/6J Mice

Bergeson

Nipper

Jensen

et al. 2016

Alcoholism Clin & Exp Res

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Background The chronic intermittent ethanol (CIE) paradigm is valuable for screening compounds for efficacy to reduce drinking traits related to alcohol use disorder (AUD), as it measures alcohol consumption and preference under physical dependence conditions. Air control treated animals allow simultaneous testing of similarly treated, non-dependent animals. As a consequence, we used CIE to test the hypothesis that tigecycline, a semi-synthetic tetracycline similar to minocycline and doxycycline, would reduce alcohol consumption regardless of dependence status. Methods Adult C57BL/6J female and male mice were tested for tigecycline efficacy to reduce ethanol consumption using a standard CIE paradigm. The ability of tigecycline to decrease 2-bottle choice of 15% ethanol (15E) versus water intake in dependent (CIE-vapor) and non-dependent (air-treated) male and female mice was tested after four cycles of CIE vapor or air exposure using a within-subjects design and a dose response. Drug doses of 0, 40, 60, 80, 100 mg/kg in saline were administered intraperitoneally (0.01 mL/g body weight) and in random order, with a 1 hr pretreatment time. Baseline 15E intake was re-established prior to administration of subsequent injections, with a maximum of two drug injections tested per week. Results Tigecycline was found to effectively reduce high alcohol consumption in both dependent and non-dependent female and male mice. Conclusions Our data suggest that tigecycline may be a promising drug with novel pharmacotherapeutic characteristics for the treatment of mild to severe AUD in both sexes.

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Section: Discussionsupporting

confidence: 85%

Section: Discussioncontrasting

confidence: 53%

mentioning

confidence: 99%

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Tigecycline Reduces Ethanol Intake in Dependent and Nondependent Male and Female C57BL/6J Mice

Bergeson

Nipper

Jensen

et al. 2016

Alcoholism Clin & Exp Res

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“…Interestingly, the analgesic effects of morphine and oxycodone are potentiated by ibudilast or minocycline, without any change in plasma morphine levels (Hutchinson et al, 2008), suggesting that ibudilast may extend the intended analgesic effects of morphine, while dampening the unwanted rewarding effects. Alcohol consumption is also reduced by minocycline and ibudilast in the two-bottle choice, drinking-in-the-dark, and chronic intermittent access paradigms (Agrawal et al, 2011;Bell et al, 2015;Syapin et al, 2016). Ibudilast's inhibitory effect on alcohol consumption is seen in multiple strains of mice and rats, including strains selectively bred for high alcohol consumption .…”

Section: Glial Mechanisms Underlying Behavioral Changes After Drug Exmentioning

confidence: 99%

Glial mechanisms underlying substance use disorders

Linker

Cross

Leslie

2018

Eur J of Neuroscience

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Addiction is a devastating disorder that produces persistent maladaptive changes to the central nervous system, including glial cells. Although there is an extensive body of literature examining the neuronal mechanisms of substance use disorders, effective therapies remain elusive. Glia, particularly microglia and astrocytes, have an emerging and meaningful role in a variety of processes beyond inflammation and immune surveillance, and may represent a promising therapeutic target. Indeed, glia actively modulate neurotransmission, synaptic connectivity and neural circuit function, and are critically poised to contribute to addictive‐like brain states and behaviors. In this review, we argue that glia influence the cellular, molecular, and synaptic changes that occur in neurons following drug exposure, and that this cellular relationship is critically modified following drug exposure. We discuss direct actions of abused drugs on glial function through immune receptors, such as Toll‐like receptor 4, as well as other mechanisms. We highlight how drugs of abuse affect glia‐neural communication, and the profound effects that glial‐derived factors have on neuronal excitability, structure, and function. Recent research demonstrates that glia have brain region‐specific functions, and glia in different brain regions have distinct contributions to drug‐associated behaviors. We will also evaluate the evidence demonstrating that glial activation is essential for drug reward and drug‐induced dopamine release, and highlight clinical evidence showing that glial mechanisms contribute to drug abuse liability. In this review, we synthesize the extensive evidence that glia have a unique, pivotal, and underappreciated role in the development and maintenance of addiction.

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“…Administration of putative microglia inhibitors, such as ibudilast and minocycline, reduce alcohol drinking in a 2-h and 24-h two-bottle choice paradigm, a drinking-in-the-dark procedure and a chronic intermittent access procedures using several established high alcohol-consuming rodent lines (Agrawal et al, 2011; Bell et al, 2013; Syapin et al, 2016). Similarly, stimulation PPARγ that is expressed in microglia also reduce alcohol drinking in a 3-h and 24-h two-bottle choice paradigm and a drinking-in-the-dark procedure, potentially through the anti-inflammatory properties of PPARγ agonists (Blednov et al, 2015; Ferguson et al, 2014; Stopponi et al, 2013).…”

Section: Drugs Of Abuse and Glial Cell Activitymentioning

confidence: 99%

Glial and neuroinflammatory targets for treating substance use disorders

Bachtell

Jones

Heinzerling

et al. 2017

Drug and Alcohol Dependence

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Background The plenary session at the 2016 Behavior, Biology and Chemistry: Translational Research in Addiction Conference focused on glia as potential players in the development, persistence and treatment of substance use disorders. Glia partake in various functions that are important for healthy brain activity. Drugs of abuse alter glial cell activity producing several perturbations in brain function that are thought to contribute to behavioral changes associated with substance use disorders. Consequently, drug-induced changes in glia-driven processes in the brain represent potential targets for pharmacotherapeutics treating substance use disorders. Methods Four speakers presented preclinical and clinical research illustrating the effects that glial modulators have on abuse-related behavioral effects of psychostimulants and opioids. This review highlights some of these findings and expands its focus to include other research focused on drug-induced glia abnormalities and glia-focused treatment approaches in substance use disorders. Results Preclinical findings show that drugs of abuse induce neuroinflammatory signals and disrupt glutamate homeostasis through their interaction with microglia and astrocytes. Preclinical and clinical studies testing the effects of glial modulators show general effectiveness in reducing behaviors associated with substance use disorders. Conclusions The contribution of drug-induced glial activity continues to emerge as an intriguing target for substance use disorder treatments. Clinical investigations of glial modulators have yielded promising results on substance use measures and indicate that they are generally safe and well-tolerated. However, results have not been entirely positive and more questions remain for continued exploration in the development and testing of glial-directed treatments for substance use disorders.

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Effective Reduction in High Ethanol Drinking by Semisynthetic Tetracycline Derivatives

Cited by 17 publications

References 33 publications

Tigecycline Reduces Ethanol Intake in Dependent and Nondependent Male and Female C57BL/6J Mice

Tigecycline Reduces Ethanol Intake in Dependent and Nondependent Male and Female C57BL/6J Mice

Glial mechanisms underlying substance use disorders

Glial and neuroinflammatory targets for treating substance use disorders

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