(4S)-4-amino-5,6-heptadienoic acid (MDL 72483): a potent anticonvulsant GABA-T inhibitor

Iron-Catalyzed Contrasteric Functionalization of Allenic C(sp2)-H Bonds: Synthesis of α-Aminoalkyl 1,1-Disubstituted Allenes

An iron-catalyzed C-H functionalization of simple monosubstituted allenes is reported. An efficient protocol for this process was made possible by the use of a newly developed electron-rich and sterically hindered cationic cyclopentadienyliron dicarbonyl complex as the catalyst and N-sulfonyl hemiaminal ether reagents as precursors to iminium ion electrophiles. Under optimized conditions, the use of a mild, functional-group-tolerant base enabled the conversion of a range of monoalkyl allenes to their allenylic sulfonamido 1,1-disubstituted derivatives, a previously unreported and contrasteric regiochemical outcome for the C-H functionalization of electronically unbiased and directing-group-free allenes.

Phenylethylidenehydrazine, a novel GABA-transaminase inhibitor, reduces epileptiform activity in rat hippocampal slices

Phenylethylidenehydrazine (PEH), an analog of the monoamine oxidase inhibitor, beta-phenylethylhydrazine (phenelzine), inhibits the gamma-aminobutyric acid (GABA) catabolic enzyme GABA-transaminase and increases brain levels of GABA. GABA is the predominant fast inhibitory transmitter counteracting glutamatergic excitation, and increased neural GABA could influence a wide range of synaptic and circuit properties under both physiologic and pathophysiologic conditions. To examine the scope of these effects, we applied PEH (or vehicle) to rat hippocampal slices and measured basal glutamatergic transmission, synaptic plasticity, and epileptiform activity using extracellular field and whole cell patch clamp recordings. In vitro pre-treatment with PEH (100 microM) increased the GABA content of hippocampal slices by approximately 60% over vehicle-treated controls, but it had no effect on basal field excitatory postsynaptic potentials, tonic GABA currents, paired-pulse facilitation, or long-term potentiation. In contrast, pre-incubation with PEH caused a dose- and time-dependent reduction in epileptiform burst frequency induced by superfusion with Mg2+-free or high-K+ artificial cerebrospinal fluid. Thus, the inhibitory effects of PEH are state-dependent: hyper-excitation during epileptiform bursting was reduced, whereas synaptic transmission and plasticity were unaffected.

Failure of ischemic neuroprotection by potentiators of gamma-aminobutyric acid

INTRODUCTION

Potentiators of inhibitory neurotransmission may provide a neuroprotective effect on cerebral tissue exposed to ischemia, without inducing toxic side effects. Topiramate and vigabatrin enhance the action of gamma-aminobutyric acid (GABA), and each has side effect profiles known to be well tolerated through their clinical use as anticonvulsant medications. We assessed the potential benefit through GABA activation by these drugs on infarct size and functional recovery following focal cerebral ischemia in mice.

METHODS

Silicon-coated suture was advanced through the internal carotid artery of 89 halothane-anesthetized mice to temporarily occlude the right middle cerebral artery for either 45 minutes (topiramate), or 120 minutes (vigabatrin). Animals were treated either at the time of reperfusion with topiramate (100 mg/kg, 40 mg/kg, or saline control), or two hours before arterial occlusion with vigabatrin, (1000 mg/kg, 500 mg/kg, or saline control). Neurological outcome was measured 24 hours after ischemia using a 28-point functional examination score. Infarct volume was estimated by summing area maps of stained slices of infarcted hemispheres.

RESULTS

Functional examination scores at 24 hours were similar between the high dose topiramate group, the low dose topiramate group, and the control group. Similarly, no differences were noted between examination scores of high dose vigabatrin, low dose vigabatrin, and control. Consistent sized right hemisphere infarcts were noted within each group on histological examination. Mean infarct volumes did not differ between groups treated with high dose topiramate, low dose topiramate, or control. Infarct volumes of animals treated with saline control were slightly larger than that of high dose vigabatrin and low dose vigabatrin groups, but the difference did not reach significance.

CONCLUSION

Treatment with these two potentiators of GABA did not result in significant differences in outcome following focal cerebral ischemia, by either functional or histological measures. These results do not support a substantial neuroprotective role of GABA following ischemia in this mouse suture model.

Evidence that long-lasting potentiation of amygdala efferents in the right hemisphere underlies pharmacological stressor (FG-7142) induced lasting increases in anxiety-like behaviour: role of GABA tone in initiation of brain and behavioural changes

The hypothesis that long-lasting potentiation (LLP) in amygdala efferents to the periacqueductal gray (PAG) of the right hemisphere mediates initiation of lasting increases in defensive response to rats induced by FG-7142 was supported in this study. GABA transmission was potentiated with Vigabatrin (gamma vinyl GABA, GVG), a suicide inhibitor of GABA transaminase. It was predicted that increasing GABA transmission would interfere with LLP and behavioural changes. The hypothesis was confirmed, for the most part. GVG given 1 day prior to FG-7142 prevented increased defensive response to rats as well as LLP in right amygdala efferent transmission to the PAG. It did not prevent LLP in the left amygdalo-PAG pathway, although LLP duration was shortened. Nor did it prevent LLP in the right amygdalo-ventromedial hypothalamic (VMH) pathway, and LLP in this pathway was associated with a slightly increased response to vocal threat, but not to rats. GVG given without FG-7142 had no behavioural effects, although it did potentiate transmission in the left amygdalo-PAG pathway. The effects of increasing GABA transmission are consistent with the hypothesis that FG-7142 changes behaviour by inducing a failure of GABA transmission, which in turn facilitates NMDA transmission and NMDA dependent limbic LLP. Finally, the hypothesis that altering GABA tone would change the efficacy of Flumazenil from a neutral antagonist to an inverse agonist was tested on limbic transmission. The hypothesis was confirmed in the left amygdalo-VMH pathway, but no other. It was concluded that mechanisms other than a change in GABA tone account for the drug-dependent reversal of LLP in the right amygdalo-PAG by Flumazenil. The findings of the present study suggest that response to FG-7142 may be a useful model of the effects of traumatic stressors on limbic system function in anxiety.

Enzymes in the synthesis of chiral drugs

The majority of synthetic chiral drugs are now marketed as racemates. This situation is rapidly changing due to the recent advances in asymmetric chemical synthesis and biocatalytic methods. This article reviews the use of enzymes in the synthesis and modification of optically pure drugs. Special attention is focused on the synthesis of new pharmaceuticals which may require efficient procedures for large-scale synthesis in the future.

Antagonism of phencyclidine-induced hyperactivity in mice by elevated brain GABA concentrations

Vigabatrin and (S)-4-allenylGABA (MDL 72483), two anticonvulsant GABA-T inhibitors, partially antagonize phencyclidine (PCP)-induced hyperactivity in mice at doses that do not affect spontaneous motor activity. The PCP antagonism is related to whole-brain GABA concentrations. The results indicate the potential use of GABA-T inhibitors in the therapy of PCP intoxications and perhaps also in the treatment of certain forms of endogenous psychoses.

Alterations of GABA metabolism and seizure susceptibility in the substantia nigra of the kindled rat acclimating to changes in osmotic state

Seizure susceptibility and GABA metabolism were altered in the substantia nigra [SN] of adult male Sprague Dawley rats when these animals were acclimating to an altered plasma osmolality. Changes in GABA metabolism were measured in vivo in SN of the freely moving rat. Suitable precautions were taken to avoid any post-mortem flux of glutamate to GABA and to correct for the underestimation of GABA build up in SN due to the finite diffusion rate of gamma-vinyl GABA [GVG] after stereotaxic injection of small amounts into one side of the brain. Control experiments provided evidence that changes in osmolality, within a normal physiological range, did not affect significantly gamma-aminobutyric acid transaminase [GABA-T]. Also kindling via the medial septum [MS], in the absence of electrical stimulation did not alter GABA metabolism in SN, thus providing a stable baseline for studies of osmotic effects. Hyperosmolality was associated with a rise in seizure thresholds, with a marked reduction of the rate of GABA synthesis in SN, and with a substantial increase in turnover time of the GABA pool. Hypoosmolality, of a degree known to be associated with mild cerebral edema and swelling localized to astrocytes, markedly reduced seizure threshold, and reduced GABA pool size in SN, but did not alter the rate of GABA synthesis significantly. These results demonstrate by new and independent means the relationship between GABA metabolism in the SN and seizure susceptibility in vivo.