Guaiacol as a drug candidate for treating adult polyglucosan body disease
Or Kakhlon, … , Wyatt W. Yue, H. Orhan Akman
Or Kakhlon, … , Wyatt W. Yue, H. Orhan Akman
Published September 6, 2018
Citation Information: JCI Insight. 2018;3(17):e99694. https://doi.org/10.1172/jci.insight.99694.
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Research Article Metabolism Therapeutics

Guaiacol as a drug candidate for treating adult polyglucosan body disease

Abstract

Adult polyglucosan body disease (APBD) is a late-onset disease caused by intracellular accumulation of polyglucosan bodies, formed due to glycogen-branching enzyme (GBE) deficiency. To find a treatment for APBD, we screened 1,700 FDA-approved compounds in fibroblasts derived from APBD-modeling GBE1-knockin mice. Capitalizing on fluorescent periodic acid–Schiff reagent, which interacts with polyglucosans in the cell, this screen discovered that the flavoring agent guaiacol can lower polyglucosans, a result also confirmed in APBD patient fibroblasts. Biochemical assays showed that guaiacol lowers basal and glucose 6-phosphate–stimulated glycogen synthase (GYS) activity. Guaiacol also increased inactivating GYS1 phosphorylation and phosphorylation of the master activator of catabolism, AMP-dependent protein kinase. Guaiacol treatment in the APBD mouse model rescued grip strength and shorter lifespan. These treatments had no adverse effects except making the mice slightly hyperglycemic, possibly due to the reduced liver glycogen levels. In addition, treatment corrected penile prolapse in aged GBE1-knockin mice. Guaiacol’s curative effects can be explained by its reduction of polyglucosans in peripheral nerve, liver, and heart, despite a short half-life of up to 60 minutes in most tissues. Our results form the basis to use guaiacol as a treatment and prepare for the clinical trials in APBD.

Authors

Or Kakhlon, Igor Ferreira, Leonardo J. Solmesky, Netaly Khazanov, Alexander Lossos, Rafael Alvarez, Deniz Yetil, Sergey Pampou, Miguel Weil, Hanoch Senderowitz, Pablo Escriba, Wyatt W. Yue, H. Orhan Akman

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Figure 2

Guaiacol decreases polyglucosan and glycogen synthesis.

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Guaiacol decreases polyglucosan and glycogen synthesis. (A) Diastase-tre...
(A) Diastase-treated periodic acid–Schiff–stained (PAS-stained) mouse embryonic fibroblast (MEF) cultures. (B) Guaiacol (10 μM) treatment decreased PAS-stained polyglucosan bodies in the cytosol, indicated by yellow arrow heads in A and B. (C) Decrease of glycogen content in MEFs (n = 3) grown in cobalt-supplemented media after 3 days of guaiacol treatment at concentrations indicated on the horizontal axis. Nonlinear regression analysis predicted IC50 of 6.8 μM (F test, P < 0.0001). (D) Box-and-whisker plots depicting the effect of concentration on diastase-resistant, cell-associated, median PAS fluorescence intensity in APBD patient fibroblasts treated for 24 hours with the indicated compounds at the indicated concentrations. Arrowheads indicate median PAS intensity. The yellow boxes delineate upper and lower quartiles from the median, and upper and lower whiskers, respectively, show maximal and minimal PAS intensity values. Red dots denote outliers with values at least 1.5 × (interquartile range [75th percentile − 25th percentile]) above or below the box. Nonlinear regression analysis predicted IC50 of 0.9 μM for guaiacol (F test, P < 0.0001).