Time-dependent anticonvulsant activity of melatonin in hamsters

The objective of the present study was to assess whether the anticonvulsant activity of melatonin displays diurnal variability in hamsters. Convulsions were induced by administering 3-mercaptopropionic acid (3-MP). There was a significant diurnal variation in 3-MP-induced convulsions, hamsters being more prone to exhibit seizures during the night than during the day. Melatonin (50 mg/kg i.p.) had a maximal anticonvulsive effect in the early evening (20:00 h). The administration at 20:00 h of the central-type benzodiazepine antagonist, Ro 15-1788, although unable by itself to modify seizure threshold, blunted the anticonvulsant response to melatonin. The results indicate that the time-dependent anticonvulsant activity of melatonin is sensitive to central-type benzodiazepine antagonism.

Cleft palate by picrotoxin or 3-MP and palatal shelf elevation in GABA-deficient mice

gamma-Aminobutyric acid (GABA) is a major inhibitory neurotransmitter in the mammalian central nervous system. Gene targeting of GABA-synthetic glutamic acid decarboxylase (GAD) 67 and GABAA receptor beta(3) subunit induces cleft palate in the mouse. These findings appear to contradict previous pharmacological investigations using benzodiazepines and GABA itself, which indicate that GABA suppresses palatogenesis. Therefore, the effects of picrotoxin and 3-mercaptopropionic acid (3-MP) on palate formation were investigated in the present study. Picrotoxin and 3-MP impair GABA functions by blocking the GABA receptor and synthesis, respectively. Pregnant mice in the critical period [Embryonic Day (E) 11-15] of palatogenesis were administered these substances by subcutaneous injection or continuous infusion at subconvulsive doses, and their fetuses at E17-18 were investigated. A complete cleft in the secondary palate was observed in 15% of 333 embryos in 28 litters. In the remaining fetuses, a complete cleft palate was not observed, but microscopic examination of serial sections revealed partial defects of the palate. Furthermore, rescue from cleft palate in GAD67-deficient mice was attempted by GABA infusion. Horizontal elevation of palatal shelves, which is not observed in nontreated mice, did occur after the infusion in all 14 GABA-infused GAD67-deficient fetuses, although cleft palate still persisted. These results indicate that GABA is required for palatogenesis and is consistent with findings in gene knockout mice.

Acute toxicity of two CdSe/ZnSe quantum dots with different surface coating in Daphnia magna under various light conditions

With an increasing use of quantum dots (QDs) in many applications, their potential hazard is of growing concern. However, little is known about their ecotoxicity, especially in vivo. In the present study, we employed freshwater macroinvertebrate, Daphnia magna, to evaluate toxicity characteristics of cadmium selenide/zinc selenide (CdSe/ZnSe) in relation to surface coatings, e.g., mercaptopropionic acid QD ((MPA)QD), and gum arabic/tri-n-octylphosphine oxide QD ((GA/TOPO)QD), and light conditions, i.e., dark, fluorescent light, environmental level of ultraviolet (UV) light, and sunlight. The results of the present study showed that D. magna was more susceptible to (GA/TOPO)QD exposure compared to (MPA)QD. The surface coating of QD appeared to determine the stability of QDs and hence the toxicity, potentially by size change of or the release of toxic components from QDs. However, (GA/TOPO)QD was still less toxic than the equivalent level of CdCl₂. The toxicity of all the tested compounds increased by changing the light condition from dark to white fluorescence to UV-B light, and to natural sunlight. The effect of light condition on QDs toxicity could also be explained by photostability of the QDs, which would affect size of the particle, release of toxic component ions, and generation of reactive oxygen species. Considering increasing use of QDs in various applications, their environmental fates and corresponding toxic potentials deserve further investigation.

Motor and electrocorticographic epileptic activity induced by 3-mercaptopropionic acid in immature rats

The convulsant action of 3-mercaptopropionic acid (3-MPA), a known inhibitor of glutamate decarboxylase activity, was studied in 7-, 12-, 18- and 25-day-old rats and in adult animals. 3-MPA elicited predominantly clonic, minimal seizures as well as generalized tonic-clonic (major) seizures at all developmental stages studied. The CD50 for major seizures did not change during development; CD50 for minimal seizures was significantly lower in 18-day-old rats than in older animals. Latency to the onset of seizures was shortest in 18-day-old rats and extremely long in 12- and, especially, in 7-day-old rats. This long latency might signify either changing molecular properties of glutamate decarboxylase during development or slow turnover of GABA at early postnatal stages. Electrocorticographic recordings demonstrated sharp EEG components in the frontal region as a first sign of 3-MPA action, and seizure patterns exhibited similar developmental changes as found with other seizure models (a decrease in duration of individual graphoelements and an increase in synchronization among various cortical regions). This indicates the primary importance of brain maturation in the expression of epileptic EEG phenomena. The correlation between EEG and motor phenomena was poor in the youngest animals and it ameliorated with age, but it never became perfectly coincidental.

Reduced dendrite growth and altered glutamic acid decarboxylase (GAD) 65- and 67-kDa isoform protein expression from mouse cortical GABAergic neurons following excitotoxic injury in vitro

The vulnerability of brain cells to neurologic insults varies greatly, depending on their neuronal subpopulation. However, cells surviving pathological insults such as ischemia or brain trauma may undergo structural changes, e.g., altered process growth, that could compromise brain function. In this study, we examined the effect of glutamate excitotoxicity on dendrite growth from surviving cortical GABAergic neurons in vitro. Glutamate exposure did not affect GABAergic neuron viability, however, it significantly reduced dendrite growth from GABAergic neurons. This effect was blocked by the AMPA receptor antagonists NBQX and CFM-2, and mimicked by AMPA, but not NMDA. Glutamate excitotoxicity also caused an NMDA receptor-mediated decrease in the GABA synthesizing enzyme glutamic acid decarboxylase (GAD65/67) immunoreactivity from GABAergic neurons, measured using immunocytochemical and Western blot techniques. GAD is necessary for GABA synthesis; however, reduction of GABA by 3-mercaptopropionic acid (3-MPA), which inhibits GABA synthesis, did not alter dendrite growth. These results suggest that GABAergic cortical neurons are relatively resistant to excitotoxic-induced cell death, but they can display morphological and biochemical alterations which may impair their function.

Neuronal lesions in mercaptopropionic acid-induced status epilepticus

Neuropathological studies of rats were made after seizures of different durations. Seizures were produced by mercaptopropionic acid in paralyzed, ventilated rats that were perfusion-fixed immediately (acute) or after 2-7 days of recovery (chronic). Analysis of chronic rats, which had only 20-min seizures, showed that damage occurred to several structures including: the substantia nigra pars reticulata, the hypothalamus, the diagonal band of Broca, and the globus pallidus; the damage was worse with longer seizures. In rats perfused acutely no changes were detected in paraffin sections in the aforementioned structures if the length of seizures was 45 min or less. It was concluded that: (1) mercaptopropionic acid-induced seizures cause permanent lesions to specific brain areas, with the most pronounced effect in the substantia nigra pars reticulata; (2) the lesions result from the seizures, and they are roughly proportional to the seizures duration; and (3) permanent lesions may begin within 20 min but require longer times to become visible on light microscopy.

Comment on the: Molecular mechanism of CAT and SOD activity change under MPA-CdTe quantum dots induced oxidative stress in the mouse primary hepatocytes (Spectrochim Acta A Mol Biomol Spectrosc. 2019 Sep 5; 220:117104)

The paper by the authors Hau and Liu (Spectrochim Acta A Mol Biomol Spectrosc. 2019 Sep 5;220:117104) showed the effects of mercaptopropionic acid- CdTe quantum dots to the antioxidant enzymes catalase and superoxide dismutase molecules and then demonstrates the subsequent quantum dots toxic effects at a cellular level, and they proposed a mechanism of QD induced apoptosis and cell death involving oxidative stress, revealing their potential risk in the biomedical applications. QD concentrations were not determined according to the Cd concentrations in the QD that could be measured via ICP-MS. In conclusion, since cell viability above 80% as non-toxic based on ISO 10993-5, CdTe QDs cannot be considered as toxic. Also, according to the literature only CAT and SOD enzyme activities are not enough to claim oxidative stress formation.

Aminooxyacetic acid induced accumulation of GABA in the rat brain. Interaction with GABA receptors and distribution in compartments

The effect of aminooxyacetic acid (AOAA, 90 mg/kg i.v.) on bicuculline, picrotoxin and 3-mercaptopropionic acid (3-MPA) induced convulsions and on GABA concentrations in cerebellum, whole brain and a synaptosomal fraction of whole brain was investigated. At various intervals after AOAA the rats were either injected with one of the convulsive drugs or sacrificed for analysis of the GABA concentration. AOAA caused a rapid initial (0-30 min) and a later slower increase of GABA in cerebellum and whole brain. In the synaptosomal fraction the GABA accumulation was delayed and less pronounced when compared to the whole brain. The bicuculline induced convulsions were markedly potentiated during the first hour but completely blocked from 2-6 h after AOAA. Picrotoxin showed a somewhat different pattern to bicuculline in the interactions with AOAA. The initial strong potentiation was not observed but the later phase of protection was present. In the interactions with 3-MPA, the effect of AOAA was always protective. The time to onset of convulsions was gradually increased during the first 30 min after AOAA. This protective effect remained practically unchanged up to 6 h after AOAA. However, once started, the convulsions were generally of the same duration and intensity. The results can be interpreted as GABA accumulating after AOAA stimulates GABA receptors to a degree more or less proportional to the whole brain GABA concentration and further that GABA synthetized in neurons is liberated, stimulates inhibitory bicuculline sensitive (predominant) and excitatory bicuculline insensitive receptors and is captured to a large extent by non-neuronal cells.

Diurnal variation in the proconvulsant effect of 3-mercaptopropionic acid and the anticonvulsant effect of androsterone in the Syrian hamster

GABA is the principal neurotransmitter of the mammalian circadian system, and its activity is subject to diurnal and circadian variations, with maximal values in hypothalamic turnover, content and binding during the night. In this study we have examined rhythms in the proconvulsant effect of inhibition of glutamate decarboxylase (GAD) in hamsters (Mesocricetus auratus) as well as the anticonvulsant effect of androsterone, a neurosteroid that positively modulates the GABA(A) receptor. Administration of 10-60 mg/Kg of 3-mercaptopropionic acid (3-MPA, a GAD inhibitor) induced convulsions that were analyzed by an ad-hoc severity scale, with a lower sensitivity threshold at 24:00 h. Moreover, the latency for first and maximal convulsive response times was significantly lower at night. A similar temporal profile (maximal effect at midnight) was found for picrotoxin-induced seizures. Androsterone (40 mg/Kg) completely inhibited 3-MPA-induced tonic/clonic seizures at 12:00 h, while it had a partial inhibitory effect at 24:00 h. These results support the importance of temporal regulation of GABAergic modulation in the central nervous system.

Environmental hazard and risk assessment of thiochemicals. Application of integrated testing and intelligent assessment strategies (ITS) to fulfil the REACH requirements for aquatic toxicity

REACH requires information on hazardous properties of substances to be generated avoiding animal testing where possible. It is the objective of the present case study with thiochemicals to extract as much information as possible from available experimental data with fish, daphnia and algae and to fill data gaps for analogues to be registered under REACH in 2018. Based on considerations of chemical similarity and common mode of action (MOA) the data gaps regarding the aquatic toxicity of the thiochemicals were largely closed by trend analysis ("category approach") and read-across within the same group, for example, thioglycolates or mercaptopropionates. Among 16 thiochemicals to be registered by 2018 there are only 2 substances with sufficient data. 36 data gaps for 14 thiochemicals were identified. Most of the required data (>60%) could be estimated by in silico methods. Only 14 tests (6 algae, 6 daphnia, 1 limit fish test and 1 acute fish test) were proposed. When the results of these tests are available it has to be discussed whether 2 further fish (limit) tests are required. For two substances (exposure-based) waiving was suggested. The relatively high toxicity of the thiochemicals is manifested in low predicted no-effect concentrations (PNECs). Only preliminary predicted environmental concentrations (PECs) could be derived for the thiochemicals for which a risk assessment has to be performed (production rate >10 t/y). The preliminary PEC/PNEC ratios indicate no risk for the aquatic compartment at the production site. PECs due to down-stream use must not exceed the estimated PNECs.

3-Mercaptopropionic acid administration into the caudate-putamen of the rat provokes dyskinesia

The unilateral administration of 3-mercaptopropionic acid (MPA) through an implanted guide cannula into the caudate-putamen produced dyskinesia in the rat. Striatal GABA and dopamine were decreased and the dopamine metabolites 3,4-dihydroxyphenylacetic and homovanillic acid were increased on the MPA-injected side at 2-10 min after the onset of dyskinesia. The dyskinetic movements were blocked by GABA or alpha-aminooxaloacetic acid but not by glycine or haloperidol.

[Effect of preliminary administration of phenobarbital on the toxicity of GABA-lytics in mice]

The toxicity of picrotoxin bicuculline, but not of 3-mercaptopropionic acid decreased in mice pretreated during three days with phenobarbital and benzonal. The antidotal effectiveness of diazepam by picrotoxin and bicuculline exposure increased significantly. It has been suggested, that the modulation of detoxication systems may be the cause of increased tolerance against GABA-antagonists.

Toxicity study of the angiotensin converting enzyme inhibitor rentiapril in rats

A three-months toxicity study of an angiotensin converting enzyme (ACE) inhibitor, rentiapril (CAS 80830-42-8), was performed in Sprague-Dawley rats by oral administration. The dose levels of 0, 30, 125, 500 and 1000 mg/kg were tested in both sexes, in which each experimental group comprised 10 rats. Another ACE inhibitor, captopril, was used as a reference compound. Rentiapril at the highest dose of 1000 mg/kg caused low food consumption and death of some animals with signs of bloody feces and anemia. In males and females receiving 500 and 1000 mg/kg, there were low body weight gain, increases in water intake, urine volume and serum BUN level, and decreases in levels of various erythrocytic parameters. Kidney weight was increased dose-dependently in both sexes. Histopathologically, renal changes in the 500 and 1000 mg/kg groups consisted of proximal tubular degeneration, juxtaglomerular cell hyperplasia and interstitial cell infiltration. Similar, but mild, changes in proximal tubules were present in the female 125 mg/kg group. Dead animals from the highest dose groups further showed gastrointestinal hemorrhagic erosion and/or ulcer, decreased bone marrow erythropoiesis and hepatocytic vacuolar degeneration. There was no pathological alteration in rats from other rentiapril-treated groups, as well as in controls. These results indicate that the no-effect dose of rentiapril in rats by three months oral administration is 30 mg/kg in female and 125 mg/kg in male, and suggest that, like other ACE-inhibitors, this compound also has a toxic potential to affect renal tissues.

[The effect of triorthocresyl phosphate on the toxicity of GABA-lytics for mice]

The toxicity of the picrotoxin bicuculline, but not of 3-mercaptopropionic acid increased in mice pretreated with triorthocresyl phosphate (TOCP). TOCP decreased the affinity of brain GABA receptors of intact mice for [3H] GABA. The binding of [3H]-t-butylcycloorthobenzoate was unchanged. The increased toxicity of GABA-antagonists may be associated with inhibition of blood carboxylesterases. The possibility of direct influence of TOCP and its metabolites on the GABA/benzodiazepine receptor complex cannot be excluded.

Dose-related proconvulsant and anticonvulsant activity of isatin, a putative biological factor, in rats

Isatin (indole-2, 3-dione) is an endogenous compound with anxiogenic properties, which occur within a narrow dose range (15-20 mg/kg, i.p.). Dose increment beyond 50 mg/kg, i.p. leads to the loss of anxiogenesis. Since a link has been postulated between anxiogenic and convulsant activity, the effect of a range of doses of isatin (20-80 mg/kg, i.p.) was investigated on subconvulsant and convulsant doses of two seizure-inducing agents, namely, pentylenetetrazole (PTZ) and 3-mercapto-propionic acid (3MPA) in rats. Isatin was found to induce a dose-related effect on PTZ and 3MPA convulsions. The lower dose (20 mg/kg, i.p.) potentiated PTZ and 3MPA convulsions, a median dose (40 mg/kg, i.p.) had insignificant effect, whereas higher doses (60 and 80 mg/kg, i.p.) of isatin exhibited significant anticonvulsant effect against both PTZ and 3MPA induced clonic convulsions. The investigation, thus, supports the contention that anxiogenic agents increase the susceptibility to chemical seizures. The proconvulsant effect of isatin, may be due to its inhibitory effect on central atrial natriuretic peptide receptors and stimulation of 5-hydroxytryptamine3 (5-HT3) rather than its monoamine oxidase (MAO) B inhibitory action. The anticonvulsant effect on higher doses of isatin, on the contrary, may be induced by its metabolites, including 5-hydroxyisatin.