The absorption of gabapentin (Neurontin) is dose-dependent and variable between patients. Rapid clearance of the drug necessitates dosing three or more times per day to maintain therapeutic levels. These deficiencies appear to result from the low capacity, limited intestinal distribution, and variable expression of the solute transporter responsible for gabapentin absorption. Saturation of this transporter at doses used clinically leads to unpredictable drug exposure and potentially ineffective therapy in some patients. XP13512 [(Ϯ)-1-([(␣-isobutanoyloxyethoxy)carbonyl]aminomethyl)-1-cyclohexane acetic acid] is a novel prodrug of gabapentin designed to be absorbed by highcapacity nutrient transporters located throughout the intestine. XP13512 was efficiently absorbed and rapidly converted to gabapentin after oral dosing in rats and monkeys. Exposure to gabapentin was proportional to prodrug dose, whereas exposure to intact XP13512 was low. In rats, Ͼ95% of an oral dose of 14 C-XP13512 was excreted in urine in 24 h as gabapentin. In monkeys, oral bioavailability of gabapentin from XP13512 capsules was 84.2% compared with 25.4% after a similar oral Neurontin dose. Compared with intracolonic gabapentin, intracolonic XP13512 gave a 17-fold higher gabapentin exposure in rats and 34-fold higher in monkeys. XP13512 may therefore be incorporated into a sustained release formulation to provide extended gabapentin exposure. XP13512 demonstrated improved gabapentin bioavailability, increased dose proportionality, and enhanced colonic absorption. In clinical use, XP13512 may improve the treatment of neuropathic pain, epilepsy, and numerous other conditions by increasing efficacy, reducing interpatient variability, and decreasing frequency of dosing.Gabapentin (Fig. 1) (Kelly, 1998). Its efficacy in neuropathic pain and epilepsy may involve binding of the drug to the ␣ 2 ␦ subunit of a voltage-dependent calcium channel (Gee et al., 1996;Marais et al., 2001).The clinical pharmacokinetics of gabapentin have been studied in healthy volunteers and patients with epilepsy (McLean, 1995;Gidal et al., 1998Gidal et al., , 2000Boyd et al., 1999). Gabapentin bioavailability is dose-dependent, decreasing from an average of about 60% at a 300-mg dose to about 35% or less at doses used to treat neuropathic pain. The underlyArticle, publication date, and citation information can be found at http://jpet.aspetjournals.org. doi:10.1124/jpet.104.067959. ABBREVIATIONS: XP13512, (Ϯ)-1-([(␣-isobutanoyloxyethoxy)carbonyl]aminomethyl)-1-cyclohexane acetic acid; SMVT, sodium-dependent multivitamin transporter; MCT-1, monocarboxylate transporter type 1; HPLC, high-pressure liquid chromatography; GP, gabapentin; LC/MS/MS, liquid chromatography-tandem mass spectrometry; CSF, cerebrospinal fluid; t 1/2 , elimination half-life; T max , time to maximum concentration; AUC (0-inf) , area under the concentration versus time curve extrapolated to infinity; AUC, area under the curve.
Baclofen is a racemic GABA B receptor agonist that has a number of significant pharmacokinetic limitations, including a narrow window of absorption in the upper small intestine and rapid clearance from the blood. Arbaclofen placarbil is a novel transported prodrug of the pharmacologically active R-isomer of baclofen designed to be absorbed throughout the intestine by both passive and active mechanisms via the monocarboxylate type 1 transporter. Arbaclofen placarbil is rapidly converted to R-baclofen in human and animal tissues in vitro. This conversion seems to be primarily catalyzed in human tissues by human carboxylesterase-2, a major carboxylesterase expressed at high levels in various tissues including human intestinal cells. Arbaclofen placarbil was efficiently absorbed and rapidly converted to R-baclofen after oral dosing in rats, dogs, and monkeys. Exposure to R-baclofen was proportional to arbaclofen placarbil dose, whereas exposure to intact prodrug was low. Arbaclofen placarbil demonstrated enhanced colonic absorption, i.e., 5-fold higher R-baclofen exposure in rats and 12-fold higher in monkeys compared with intracolonic administration of R-baclofen. Sustained release formulations of arbaclofen placarbil demonstrated sustained R-baclofen exposure in dogs with bioavailability up to 68%. In clinical use, arbaclofen placarbil may improve the treatment of patients with gastroesophageal reflux disease, spasticity, and numerous other conditions by prolonging exposure and decreasing the fluctuations in plasma levels of R-baclofen.
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