Pharmacokinetic and pharmacodynamic analysis of (2S,3S)-sec-butylpropylacetamide (SPD) in rats and pigs-A CNS-active stereoisomer of SPD.

OBJECTIVES: To advance the development of (2S,3S)-sec-butylpropylacetamide (SPD) as a new treatment for acute repetitive seizures (ARS), by studying its pharmacokinetics (PK) in pigs and its PK-pharmacodynamic (PK-PD) correlation in rats. METHODS: Two (2S,3S)-SPD intramuscular formulations (FA and FB ) were administered to pigs and rats and blood samples were withdrawn at different times after dosing. Major PK parameters were estimated in both species. PD analysis was conducted in rats utilizing the maximal-electroshock seizure threshold (MEST) test. Because ARS treatment requires a rapid action, the MEST test allows comparative evaluation of (2S,3S)-SPD intramuscular injection on rat susceptibility to electroconvulsive shock at various times after dosing. RESULTS: In rats, (2S,3S)-SPD plasma exposure increased proportionally following intramuscular dosing (20, 25 and 40 mg/kg) of FA and FB . Peak plasma concentration (Cmax ) was obtained at 1-2 hours after dosing and ranged between 6.8 and 9.4 mg/L. (2S,3S)-SPD plasma concentration at 10 minutes after dosing (C10 ) ranged between 2.1 and 3.5 mg/mL, and its half-life ranged between 0.9 and 2.3 hours. The highest C10 value, which may indicate rapid activity onset, and the highest Cmax were observed following administration of FA (40 mg/kg): C10  = 3.5 mg/L and Cmax  = 9.5 mg/L. In the MEST test, (2S,3S)-SPD (20 and 60 mg/kg) significantly raised the tonic seizure threshold compared to vehicle at 4, 7, 10, and 20 minutes after dosing, with a 1.6-fold increase at 20 minutes, which coincided with (2S,3S)-SPD brain Cmax . Following intramuscular dosing of (2S,3S)-SPD (12 mg/kg) to pigs of FA and FB , a Cmax value of 0.9 mg/L was obtained 0.42 and 0.75 hours after dosing, respectively. (2S,3S)-SPD C10 was 0.27 mg/L (FA ) and 0.49 mg/L (FB ). (2S,3S)-SPD clearance, volume of distribution, and half-life were 2 L/h/kg, 18-28 L/kg, and 6.1-9.7 hours, respectively. SIGNIFICANCE: (2S,3S)-SPD demonstrated a good PK-PD correlation in the rat MEST test, with a rapid onset. (2S,3S)-SPD first PK study in pigs showed that doses >12 mg/kg are required to achieve in pigs the plasma concentrations associated with activity at the rat MEST test.

sec-Butylpropylacetamide (SPD), a new amide derivative of valproic acid for the treatment of neuropathic and inflammatory pain.

Chronic pain is a multifactorial disease comprised of both inflammatory and neuropathic components that affect ∼20% of the world's population. sec-Butylpropylacetamide (SPD) is a novel amide analogue of valproic acid (VPA) previously shown to possess a broad spectrum of anticonvulsant activity. In this study, we defined the pharmacokinetic parameters of SPD in rat and mouse, and then evaluated its antinociceptive potential in neuropathic and acute inflammatory pain models. In the sciatic nerve ligation (SNL) model of neuropathic pain, SPD was equipotent to gabapentin and more potent than its parent compound VPA. SPD also showed either higher or equal potency to VPA in the formalin, carrageenan, and writhing tests of inflammatory pain. SPD showed no effects on compound action potential properties in a sciatic nerve preparation, suggesting that its mechanism of action is distinct from local anesthetics and membrane stabilizing drugs. SPD's activity in both neuropathic and inflammatory pain warrants its development as a potential broad-spectrum anti-nociceptive drug.

sec-Butylpropylacetamide (SPD) has antimigraine properties.

BACKGROUND: Though migraine is disabling and affects 12%-15% of the population, there are few drugs that have been developed specifically for migraine prevention. Valproic acid (VPA) is a broad-spectrum antiepileptic drug (AED) that is also used for migraine prophylaxis, but its clinical use is limited by its side effect profile. sec-Butylpropylacetamide (SPD) is a novel VPA derivative, designed to be more potent and tolerable than VPA, that has shown efficacy in animal seizure and pain models. METHODS: We evaluated SPD's antimigraine potential in the cortical spreading depression (CSD) and nitroglycerin (NTG) models of migraine. To evaluate SPD's mechanism of action, we performed whole-cell recordings on cultured cortical neurons and neuroblastoma cells. RESULTS: In the CSD model, the SPD-treated group showed a significantly lower median number of CSDs compared to controls. In the NTG-induced mechanical allodynia model, SPD dose-dependently reduced mechanical sensitivity compared to controls. SPD showed both a significant potentiation of GABA-mediated currents and a smaller but significant decrease in NMDA currents in cultured cortical neurons. Kainic acid-evoked currents and voltage-dependent sodium channel currents were not changed by SPD. CONCLUSIONS: These results demonstrate SPD's potential as a promising novel antimigraine compound, and suggest a GABAergic mechanism of action.

Pharmacodynamic and pharmacokinetic analysis of CNS-active constitutional isomers of valnoctamide and sec-butylpropylacetamide--Amide derivatives of valproic acid.

Valnoctamide (VCD) and sec-butylpropylacetamide (SPD) are CNS-active closely related amide derivatives of valproic acid with unique anticonvulsant activity. This study evaluated how small chemical changes affect the pharmacodynamics (PD; anticonvulsant activity and teratogenicity) and pharmacokinetics (PK) of three constitutional isomers of SPD [sec-butylisopropylacetamide (SID) and tert-butylisopropylacetamide (TID)] and of VCD [tert-butylethylacetamide (TED)]. The anticonvulsant activity of SID, TID, and TED was comparatively evaluated in several rodent anticonvulsant models. The PK-PD relationship of SID, TID, and TED was evaluated in rats, and their teratogenicity was evaluated in a mouse strain highly susceptible to teratogen-induced neural tube defects (NTDs). sec-Butylisopropylacetamide and TID have a similar PK profile to SPD which may contribute to their similar anticonvulsant activity. tert-Butylethylacetamide had a better PK profile than VCD (and SPD); however, this did not lead to a superior anticonvulsant activity. sec-Butylisopropylacetamide and TED did not cause NTDs at doses 4-7 times higher than their anticonvulsant ED50 values. In rats, SID, TID (ip), and TED exhibited a broad spectrum of anticonvulsant activity. However, combined anticonvulsant analysis in mice and rats shows SID as the most potent compound with similar activity to that of SPD, demonstrating that substitution of the isobutyl moiety in the SPD or VCD molecule by tert-butyl as well as a propyl-to-isopropyl replacement in the SPD molecule did not majorly affect the anticonvulsant activity.