Preclinical and clinical evidence for suppression of alcohol intake by apremilast
Kolter B. Grigsby, … , Barbara J. Mason, Angela R. Ozburn
Kolter B. Grigsby, … , Barbara J. Mason, Angela R. Ozburn
Published January 19, 2023
Citation Information: J Clin Invest. 2023;133(6):e159103. https://doi.org/10.1172/JCI159103.
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Preclinical and clinical evidence for suppression of alcohol intake by apremilast

Abstract

Treatment options for alcohol use disorders (AUDs) have minimally advanced since 2004, while the annual deaths and economic toll have increased alarmingly. Phosphodiesterase type 4 (PDE4) is associated with alcohol and nicotine dependence. PDE4 inhibitors were identified as a potential AUD treatment using a bioinformatics approach. We prioritized a newer PDE4 inhibitor, apremilast, as ideal for repurposing (i.e., FDA approved for psoriasis, low incidence of adverse events, excellent safety profile) and tested it using multiple animal strains and models, as well as in a human phase IIa study. We found that apremilast reduced binge-like alcohol intake and behavioral measures of alcohol motivation in mouse models of genetic risk for drinking to intoxication. Apremilast also reduced excessive alcohol drinking in models of stress-facilitated drinking and alcohol dependence. Using site-directed drug infusions and electrophysiology, we uncovered that apremilast may act to lessen drinking in mice by increasing neural activity in the nucleus accumbens, a key brain region in the regulation of alcohol intake. Importantly, apremilast (90 mg/d) reduced excessive drinking in non–treatment-seeking individuals with AUD in a double-blind, placebo-controlled study. These results demonstrate that apremilast suppresses excessive alcohol drinking across the spectrum of AUD severity.

Authors

Kolter B. Grigsby, Regina A. Mangieri, Amanda J. Roberts, Marcelo F. Lopez, Evan J. Firsick, Kayla G. Townsley, Alan Beneze, Jessica Bess, Toby K. Eisenstein, Joseph J. Meissler, John M. Light, Jenny Miller, Susan Quello, Farhad Shadan, Michael Skinner, Heather C. Aziz, Pamela Metten, Richard A. Morrisett, John C. Crabbe, Marisa Roberto, Howard C. Becker, Barbara J. Mason, Angela R. Ozburn

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Figure 2

Apremilast reduces binge-like drinking behavior through increasing excitability of D1, but not D2, MSNs.

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Apremilast reduces binge-like drinking behavior through increasing excit...
(A) Relative NAc Pde4a gene expression for female HDID-1 mice (46–48/fluid group); significant effect of fluid type. Ethanol mice express higher levels of PDE4a. EtOH, ethanol. (B) Relative gene expression of NAc Pde4b; significant effect of fluid type. Ethanol mice express higher levels of PDE4b. (C) Ethanol intake (g/kg/2 hours) following intra-NAc apremilast infusions (0 or 2.2 μg/μL/side for male HDID-1 mice (n = 19–20/fluid group/infusion group) shows a significant effect of apremilast. (D) Blood alcohol levels (mg%); significant effect of apremilast. (E) Apremilast suppressed synaptic inhibition of NAc MSNs (n = 6–8/group). Inhibitory synaptic drive = frequency × current of spontaneous inhibitory postsynaptic currents (sIPSCs). § = main effect of treatment [F(1, 25) = 6.53, P < 0.05]. (F) Apremilast promoted synaptic excitation of NAc MSNs (n = 10–16/group). Excitatory synaptic drive = frequency × amplitude of spontaneous excitatory postsynaptic potentials (sEPSPs). §§ = main effect of treatment [F(1, 48) = 11.08, P < 0.01]. *P < 0.05, effect of treatment in D1 MSNs. (G) Apremilast promoted NAc output by lowering the threshold for MSN action potential (AP) firing (n = 19–24/group). § = main effect of treatment [F(1, 82) = 6.26, P < 0.05]. *P < 0.05, effect of treatment in D1 MSNs. V, vehicle (0.002% DMSO); A, apremilast (1 μM). Dashed lines indicate the AP threshold for each example trace. *P < 0.05, **P < 0.05, ***P < 0.001 by 2-tailed Student’s t test (AD). Data in EG were analyzed using 2- or 3-way ANOVA, with cell type (D1 or D2 MSN) and treatment condition (vehicle or apremilast) as between-groups factors. The effect of treatment within each MSN subtype was analyzed using Bonferroni’s multiple-comparison test.