Your search keyword '"Tetanus Toxin toxicity"' showing total 227 results

1. Dissociation Between the Epileptogenic Lesion and Primary Seizure Onset Zone in the Tetanus Toxin Model of Temporal Lobe Epilepsy.

Author

Chvojka J, Kudláček J, Liska K, Pant A, Jefferys JG, and Jiruska P

Subjects

Animals, Male, Rats, Rats, Sprague-Dawley, Hippocampus drug effects, Hippocampus pathology, Electroencephalography, Epilepsy, Temporal Lobe chemically induced, Epilepsy, Temporal Lobe physiopathology, Epilepsy, Temporal Lobe pathology, Tetanus Toxin toxicity, Disease Models, Animal, Seizures chemically induced, Seizures physiopathology

Abstract

Despite extensive temporal lobe epilepsy (TLE) research, understanding the specific limbic structures' roles in seizures remains limited. This weakness can be attributed to the complex nature of TLE and the existence of various TLE subsyndromes, including non-lesional TLE. Conventional TLE models like kainate and pilocarpine hinder precise assessment of the role of individual limbic structures in TLE ictogenesis due to widespread limbic damage induced by the initial status epilepticus. In this study, we used a non-lesional TLE model characterized by the absence of initial status and cell damage to determine the spatiotemporal profile of seizure initiation and limbic structure recruitment in TLE. Epilepsy was induced by injecting a minute dose of tetanus toxin into the right dorsal hippocampus in seven animals. Following injection, animals were implanted with bipolar recording electrodes in the amygdala, dorsal hippocampus, ventral hippocampus, piriform, perirhinal, and entorhinal cortices of both hemispheres. The animals were video-EEG monitored for four weeks. In total, 140 seizures (20 seizures per animal) were analyzed. The average duration of each seizure was 53.2+/-3.9 s. Seizure could initiate in any limbic structure. Most seizures initiated in the ipsilateral (41 %) and contralateral (18 %) ventral hippocampi. These two structures displayed a significantly higher probability of seizure initiation than by chance. The involvement of limbic structures in seizure initiation varied between individual animals. Surprisingly, only 7 % of seizures initiated in the injected dorsal hippocampus. The limbic structure recruitment into the seizure activity wasn't random and displayed consistent patterns of early recruitment of hippocampi and entorhinal cortices. Although ventral hippocampus represented the primary seizure onset zone, the study demonstrated the involvement of multiple limbic structures in seizure initiation in a non-lesional TLE model. The study also revealed the dichotomy between the primary epileptogenic lesion and main seizure onset zones and points to the central role of ventral hippocampi in temporal lobe ictogenesis.

Published

2024

2. Collaborative study for the characterisation of the BINACLE Assay for in vitro detection of tetanus toxicity in toxoids - Part 1.

Author

Behrensdorf-Nicol H, Krämer B, Le Tallec D, Sinitskaya N, and Behr-Gross ME

Subjects

Animals, Guinea Pigs, Toxicity Tests standards, Tetanus, Humans, Animal Testing Alternatives standards, Animal Testing Alternatives methods, Tetanus Toxoid standards, Tetanus Toxin toxicity

Abstract

For several decades the European Pharmacopoeia monographs Tetanus vaccine (adsorbed) (0452) and Tetanus vaccine for veterinary use (0697) required that Specific toxicity and Absence of toxin and irreversibility of the toxoidof each bulk of tetanus toxoids had to be tested by an in vivo toxicity test in guinea pigs before it could be included in vaccines for human or veterinary use. In line with the 3Rs concept of replacing, reducing and refining animal experiments, an in vitro method for the detection of active tetanus neurotoxin (TeNT) has been developed at the Paul-Ehrlich-Institut (PEI, Germany). This method, the so-called BINACLE (binding and cleavage) assay, uses the receptor-binding and proteolytic properties of TeNT for the specific detection of active toxin molecules. Successful in-house validation studies as well as a small-scale transferability study had demonstrated that this method may represent a suitable alternative to the compendial in vivo toxicity test. As a follow up, an international collaborative study aimed at verifying the suitability of the BINACLE assay as a potential alternative to the guinea pig toxicity test for tetanus toxoids was organised by the European Directorate for the Quality of Medicines & HealthCare (EDQM) under the aegis of its Biological Standardisation Programme (BSP). Within the framework of this study, coded BSP136, a feasibility phase - also referred to as Phase 1 - was run to select and qualify critical study reagents and samples and to assess the performance of the BINACLE Standard Operating Procedure developed by the project leaders. Then the international collaborative study aimed at evaluating the BINACLE, referred to as BSP136 Phase 2, was started. A total of 19 international laboratories (comprising vaccine manufacturers as well as national control laboratories) were supplied with a detailed assay protocol, critical reagents required for the assay, three samples consisting of three different bulk tetanus toxoids donated by major European vaccine manufacturers and one international standard toxoid. Each of the participants was asked to perform three independent BINACLE assays following the provided protocol. The statistical analysis of the results showed that most of the participating laboratories were able to perform the BINACLE assay according to the provided protocol. However, the results obtained by the participants varied widely, and not all the laboratories were able to achieve a sensitive detection of active TeNT. Multiple factors may have contributed to the elevated variability of the BSP136 study results. From an analysis of these factors, strategies were developed to help increase the standardisation of the BINACLE assay and obtain more consistent results in a follow-up validation study, BSP 136 Phase 3 (Part 2), for which the experimental phase took place in 2023. The present manuscript summarises the outcome of Phases 1 and 2, which constitute Part 1 of the BSP136 project., (© Council of Europe 2024.)

Published

2024

3. Collaborative study for the characterisation of the BINACLE Assay for in vitro detection of tetanus toxicity in toxoids - Part 2.

Author

Behrensdorf-Nicol H, Le Tallec D, Sinitskaya N, Behr-Gross ME, and Göngrich C

Subjects

Animals, Reproducibility of Results, Guinea Pigs, Tetanus, Quality Control, Biological Assay standards, Biological Assay methods, Limit of Detection, Humans, Tetanus Toxoid standards, Tetanus Toxin toxicity

Abstract

Tetanus vaccines for human and veterinary use are produced by formaldehyde-induced inactivation of tetanus neurotoxin (TeNT) purified from Clostridium tetani cultures. Due to the high morbidity caused by exposure to TeNT it is essential that the quality control of tetanus vaccines includes testing for absence of tetanus toxin as prescribed by European Pharmacopoeia monographs 0452 and 0697 . Currently this test is carried out in guinea pigs for each bulk of tetanus toxoid. To test the applicability of the in vitro BINACLE ("binding and cleavage") assay as an alternative method for the quality control of tetanus vaccines, two collaborative studies were run by the European Directorate for the Quality of Medicines & HealthCare under the aegis of the Biological Standardisation Programme. The first collaborative study indicated that the method allows sensitive TeNT detection. However, a clear conclusion could not be drawn due to the high variability of the results. To address the variability, the protocol was optimised and further standardised for the second study. The study results demonstrated good assay precision, both with respect to repeatability and reproducibility. Importantly, the limit of detection was 0.11 ng/mL TeNT in five out of nine laboratories and 0.33 ng/mL in four out of nine laboratories, suggesting that the BINACLE assay can detect TeNT with similar sensitivity as in vivo toxicity tests and can thus be taken into consideration as an alternative method to the current compendial in vivo test., (© Council of Europe 2024.)

Published

2024

4. The C-terminal domain of the heavy chain of tetanus toxin prevents the oxidative and nitrosative stress induced by acute toxicity of 1-methyl-4-phenylpyridinium, a rat model of Parkinson's disease.

Author

Patricio F, Juárez-Torres D, Patricio-Martínez A, Mendieta L, Pérez-Severiano F, Montes S, Aguilera J, and Limón ID

Subjects

1-Methyl-4-phenylpyridinium toxicity, Animals, Nitrosative Stress, Oxidative Stress, Peptide Fragments metabolism, Rats, Parkinson Disease drug therapy, Tetanus Toxin metabolism, Tetanus Toxin toxicity

Abstract

The recombinant carboxyl-terminal domain of the heavy chain of tetanus toxin (Hc-TeTx) exerts neuroprotective and neurorestorative effects on the dopaminergic system of animal models of Parkinson's disease (PD). The present study aimed to determine the effect of the Hc-TeTx fragment on the markers of oxidative stress and nitrosative stress generated by the acute toxicity of 1-methyl-4-phenylpyridinium (MPP + ). For this purpose, the Hc-TeTx fragment was administered once a day in three 20 μg/kg consecutive injections into the grastrocnemius muscle of the rats, with an intra-striatal unilateral injection of 1 μL of MPP + [10 μg/mL] then administered in order to cause a dopaminergic lesion. The results obtained show that the rats treated with Hc-TeTx plus MPP + presented an increase in the expression of tyrosine hydroxylase (TH), a significantly greater decrease in the levels of the markers of oxidative stress, nitrosative stress, and neurodegeneration than that observed for the group injured with only MPP + . Moreover, it was observed that total superoxide dismutase (SOD) and copper/zinc SOD activity increased with the administration of Hc-TeTx. Finally, immunoreactivity levels were observed to decrease for the levels of 3-nitrotyrosine and the glial fibrillary acidic protein in the ipsilateral striatum of the rats treated with Hc-TeTx plus MPP + , in contrast with those lesioned with MPP + alone. Our results demonstrate that the recombinant Hc-TeTx fragment may be a potent antioxidant and, therefore, could be suggested as a therapeutic tool against the dopaminergic neuronal impairment observed in the early stages of PD., (Copyright © 2021 Elsevier B.V. and Japan Neuroscience Society. All rights reserved.)

Published

2022

5. Confocal Endomicroscopy of Neuromuscular Junctions Stained with Physiologically Inert Protein Fragments of Tetanus Toxin.

Author

Roesl C, Evans ER, Dissanayake KN, Boczonadi V, Jones RA, Jordan GR, Ledahawsky L, Allen GCC, Scott M, Thomson A, Wishart TM, Hughes DI, Mead RJ, Shone CC, Slater CR, Gillingwater TH, Skehel PA, and Ribchester RR

Subjects

Animals, Animals, Newborn, Axons drug effects, Axons metabolism, Binding Sites, Fluorescence, Green Fluorescent Proteins metabolism, Humans, Mice, Inbred C57BL, Motor Neurons drug effects, Motor Neurons metabolism, Nerve Tissue drug effects, Nerve Tissue metabolism, Neuromuscular Junction drug effects, Neuromuscular Junction pathology, Synapses drug effects, Synapses metabolism, Synaptic Transmission drug effects, Mice, Microscopy, Confocal, Neuromuscular Junction diagnostic imaging, Tetanus Toxin toxicity

Abstract

Live imaging of neuromuscular junctions (NMJs) in situ has been constrained by the suitability of ligands for inert vital staining of motor nerve terminals. Here, we constructed several truncated derivatives of the tetanus toxin C-fragment (TetC) fused with Emerald Fluorescent Protein (emGFP). Four constructs, namely full length emGFP-TetC (emGFP-865:TetC) or truncations comprising amino acids 1066-1315 (emGFP-1066:TetC), 1093-1315 (emGFP-1093:TetC) and 1109-1315 (emGFP-1109:TetC), produced selective, high-contrast staining of motor nerve terminals in rodent or human muscle explants. Isometric tension and intracellular recordings of endplate potentials from mouse muscles indicated that neither full-length nor truncated emGFP-TetC constructs significantly impaired NMJ function or transmission. Motor nerve terminals stained with emGFP-TetC constructs were readily visualised in situ or in isolated preparations using fibre-optic confocal endomicroscopy (CEM). emGFP-TetC derivatives and CEM also visualised regenerated NMJs. Dual-waveband CEM imaging of preparations co-stained with fluorescent emGFP-TetC constructs and Alexa647-α-bungarotoxin resolved innervated from denervated NMJs in axotomized Wld S mouse muscle and degenerating NMJs in transgenic SOD1G93A mouse muscle. Our findings highlight the region of the TetC fragment required for selective binding and visualisation of motor nerve terminals and show that fluorescent derivatives of TetC are suitable for in situ morphological and physiological characterisation of healthy, injured and diseased NMJs.

Published

2021

6. Long-term seizure dynamics are determined by the nature of seizures and the mutual interactions between them.

Author

Kudlacek J, Chvojka J, Kumpost V, Hermanovska B, Posusta A, Jefferys JGR, Maturana MI, Novak O, Cook MJ, Otahal J, Hlinka J, and Jiruska P

Subjects

Animals, Electroencephalography methods, Electroencephalography trends, Epilepsy, Temporal Lobe chemically induced, Male, Rats, Rats, Sprague-Dawley, Rats, Wistar, Seizures chemically induced, Tetanus Toxin toxicity, Time Factors, Epilepsy, Temporal Lobe physiopathology, Seizures physiopathology

Abstract

The seemingly random and unpredictable nature of seizures is a major debilitating factor for people with epilepsy. An increasing body of evidence demonstrates that the epileptic brain exhibits long-term fluctuations in seizure susceptibility, and seizure emergence seems to be a consequence of processes operating over multiple temporal scales. A deeper insight into the mechanisms responsible for long-term seizure fluctuations may provide important information for understanding the complex nature of seizure genesis. In this study, we explored the long-term dynamics of seizures in the tetanus toxin model of temporal lobe epilepsy. The results demonstrate the existence of long-term fluctuations in seizure probability, where seizures form clusters in time and are then followed by seizure-free periods. Within each cluster, seizure distribution is non-Poissonian, as demonstrated by the progressively increasing inter-seizure interval (ISI), which marks the approaching cluster termination. The lengthening of ISIs is paralleled by: increasing behavioral seizure severity, the occurrence of convulsive seizures, recruitment of extra-hippocampal structures and the spread of electrographic epileptiform activity outside of the limbic system. The results suggest that repeated non-convulsive seizures obey the 'seizures-beget-seizures' principle, leading to the occurrence of convulsive seizures, which decrease the probability of a subsequent seizure and, thus, increase the following ISI. The cumulative effect of repeated convulsive seizures leads to cluster termination, followed by a long inter-cluster period. We propose that seizures themselves are an endogenous factor that contributes to long-term fluctuations in seizure susceptibility and their mutual interaction determines the future evolution of disease activity., (Crown Copyright © 2021. Published by Elsevier Inc. All rights reserved.)

Published

2021

7. Cardiac effects of repeated focal seizures in rats induced by intrahippocampal tetanus toxin: Bradyarrhythmias, tachycardias, and prolonged interictal QT interval.

Author

Jefferys JGR, Ashby-Lumsden A, and Lovick TA

Subjects

Animals, Electrocardiography, Electrocorticography, Male, Neurotoxins toxicity, Rats, Rats, Wistar, Seizures chemically induced, Seizures physiopathology, Sudden Unexpected Death in Epilepsy etiology, Tetanus Toxin toxicity, Bradycardia etiology, Seizures complications, Tachycardia etiology

Abstract

Objective: To determine electrical changes in the heart in a chronic, nonstatus model of epilepsy., Methods: Electrocorticography (ECoG) and electrocardiography (ECG) of nine animals (five made epileptic by intrahippocampal injection of tetanus neurotoxin (TeNT) and four controls), are monitored continuously by radiotelemetry for up to 7 weeks., Results: Epileptic animals develop a median of 168 seizures, with postictal tachycardias reaching a mean of 487 beats/min and lasting a mean of 661 seconds. Ictal changes in heart rate include tachycardia and in the case of convulsive seizures, bradyarrhythmias resembling Mobitz type 1 second-degree atrioventricular block; notably the P-R interval increased before block. Postictally, the amplitude of T wave increases. Interictally, QT dependence on RR is modest and conventional QT corrections prove ineffective. Interictal QT intervals, measured at a heart rate of 400 bpm, increased from 65 to 75 ms, an increase dependent on seizure incidence over the preceding 10-14 days., Significance: Repeated seizures induce a sustained tachycardia and increase in QT interval of the ECG and evoke arrhythmias including periods of atrioventricular block during Racine type 4 and 5 seizures. These changes in cardiac function may predispose to development in fatal arrhythmias and sudden death in humans with epilepsy., (Wiley Periodicals, Inc. © 2020 International League Against Epilepsy.)

Published

2020

8. Evidence for central antispastic effect of botulinum toxin type A.

Author

Matak I

Subjects

Animals, Botulinum Toxins, Type A pharmacology, Male, Muscle Spasticity chemically induced, Muscle Spasticity pathology, Muscle, Skeletal pathology, Parasympatholytics pharmacology, Rats, Rats, Wistar, Botulinum Toxins, Type A therapeutic use, Muscle Spasticity drug therapy, Muscle, Skeletal drug effects, Parasympatholytics therapeutic use, Tetanus Toxin toxicity

Abstract

Background and Purpose: Botulinum toxin type A (BoNT/A) injections into hyperactive muscles provide effective treatment for spasticity and dystonias, presumably due to its local effects on extrafusal and intrafusal motor fibres. A recent discovery of toxin's retrograde axonal transport to CNS might suggest additional action sites. However, in comparison to cholinergic peripheral terminals, functional consequences of BoNT/A direct central action on abnormally increased muscle tone are presently unknown. To address this question, the central effects of BoNT/A were assessed in experimental local spastic paralysis., Experimental Approach: Local spastic paralysis was induced by injection of tetanus toxin (1.5 ng) into rat gastrocnemius. Subsequently, BoNT/A (5 U·kg -1 ) was applied i.m. into the spastic muscle or intraneurally (i.n.) into the sciatic nerve to mimic the action of axonally transported toxin. Functional role of BoNT/A transcytosis in spinal cord was evaluated by lumbar i.t. application of BoNT/A-neutralizing antitoxin. BoNT/A effects were studied by behavioural motor assessment and cleaved synaptosomal-associated protein 25 (SNAP-25) immunohistochemistry., Key Results: Tetanus toxin evoked muscular spasm (sustained rigid hind paw extension and resistance to passive ankle flexion). Subsequent injections of BoNT/A, i.m. or i.n, reduced tetanus toxin-evoked spastic paralysis. Beneficial effects of i.n. BoNT/A and occurrence of cleaved SNAP-25 in ventral horn were prevented by i.t. antitoxin., Conclusions and Implications: Axonally transported BoNT/A relieves muscle hypertonia induced by tetanus toxin, following the trans-synaptic movement of BoNT/A in the CNS. These results suggest that such direct, centrally mediated reduction of abnormal muscle tone might contribute to the effectiveness of BoNT/A in spasticity and hyperkinetic movement disorders., (© 2019 The British Pharmacological Society.)

Published

2020

9. Tables of Toxicity of Botulinum and Tetanus Neurotoxins.

Author

Rossetto O and Montecucco C

Subjects

Animals, Humans, Lethal Dose 50, Botulinum Toxins toxicity, Neurotoxins toxicity, Tetanus Toxin toxicity

Abstract

Tetanus and botulinum neurotoxins are the most poisonous substances known, so much so as to be considered for a possible terrorist use. At the same time, botulinum neurotoxin type A1 is successfully used to treat a variety of human syndromes characterized by hyperactive cholinergic nerve terminals. The extreme toxicity of these neurotoxins is due to their neurospecificity and to their metalloprotease activity, which results in the deadly paralysis of tetanus and botulism. Recently, many novel botulinum neurotoxins and some botulinum-like toxins have been discovered. This large number of toxins differs in terms of toxicity and biological activity, providing a potential goldmine for novel therapeutics and for new molecular tools to dissect vesicular trafficking, fusion, and exocytosis. The scattered data on toxicity present in the literature require a systematic organization to be usable by scientists and clinicians. We have assembled here the data available in the literature on the toxicity of these toxins in different animal species. The internal comparison of these data provides insights on the biological activity of these toxins., Competing Interests: The authors declare no conflicts of interest.

Published

2019

10. The role of the single interchains disulfide bond in tetanus and botulinum neurotoxins and the development of antitetanus and antibotulism drugs.

Author

Rossetto O, Pirazzini M, Lista F, and Montecucco C

Subjects

Animals, Azoles therapeutic use, Botulinum Toxins, Type A toxicity, Botulism drug therapy, Botulism physiopathology, Disulfides therapeutic use, Disulfides toxicity, Humans, Imidazoles therapeutic use, Isoindoles, Neurotoxins chemistry, Neurotoxins toxicity, Organoselenium Compounds therapeutic use, Oxidation-Reduction drug effects, Protein Domains, Synaptic Vesicles metabolism, Tetanus drug therapy, Tetanus physiopathology, Tetanus Toxin toxicity, Thioredoxin-Disulfide Reductase antagonists & inhibitors, Botulinum Toxins, Type A chemistry, Disulfides chemistry, Tetanus Toxin chemistry, Thioredoxin-Disulfide Reductase metabolism, Thioredoxins metabolism

Abstract

A large number of bacterial toxins consist of active and cell binding protomers linked by an interchain disulfide bridge. The largest family of such disulfide-bridged exotoxins is that of the clostridial neurotoxins that consist of two chains and comprise the tetanus neurotoxins causing tetanus and the botulinum neurotoxins causing botulism. Reduction of the interchain disulfide abolishes toxicity, and we discuss the experiments that revealed the role of this structural element in neuronal intoxication. The redox couple thioredoxin reductase-thioredoxin (TrxR-Trx) was identified as the responsible for reduction of this disulfide occurring on the cytosolic surface of synaptic vesicles. We then discuss the very relevant finding that drugs that inhibit TrxR-Trx also prevent botulism. On this basis, we propose that ebselen and PX-12, two TrxR-Trx specific drugs previously used in clinical trials in humans, satisfy all the requirements for clinical tests aiming at evaluating their capacity to effectively counteract human and animal botulism arising from intestinal toxaemias such as infant botulism., (© 2019 The Authors Cellular Microbiology Published by John Wiley & Sons Ltd.)

Published

2019

11. Inputs from Sequentially Developed Parallel Fibers Are Required for Cerebellar Organization.

Author

Park H, Kim T, Kim J, Yamamoto Y, and Tanaka-Yamamoto K

Subjects

Animals, Axons metabolism, Axons physiology, Cerebellum cytology, Cerebellum drug effects, Excitatory Postsynaptic Potentials physiology, Locomotion drug effects, Locomotion physiology, Mice, Mice, Transgenic, Neocortex cytology, Neocortex drug effects, Neurogenesis drug effects, Neurogenesis physiology, Purkinje Cells cytology, Purkinje Cells drug effects, Purkinje Cells metabolism, Synapses physiology, Synaptic Transmission physiology, Tetanus Toxin toxicity, Time Factors, Axons drug effects, Cerebellum growth & development, Cerebellum physiopathology, Neocortex physiopathology, Purkinje Cells pathology, Synaptic Transmission drug effects

Abstract

Neuronal activity is believed to be important for brain development; however, it remains unclear as to how spatiotemporal distributions of synaptic excitation contribute to neural network formation. Bifurcated axons of cerebellar granule cells, parallel fibers (PFs), are made in an orderly inside-out manner during postnatal development. In this study, we induced a blockade of neurotransmitter release from specific bundles of developing PFs and tested the effects of biased PF inputs on cerebellar development. The blockade of different layers of PFs at different developmental times results in varying degrees of abnormal cerebellar development. Furthermore, cerebellar network abnormalities are not restored when PF inputs are restored in adulthood and, hence, result in motor dysfunction. We thus conclude that spatiotemporally unbiased synaptic transmission from sequentially developed PFs is crucial for cerebellar network formation and motor function, supporting the idea that unbiased excitatory synaptic transmission is crucial for network formation., (Copyright © 2019 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2019

12. Botulinum and Tetanus Neurotoxins.

Author

Dong M, Masuyer G, and Stenmark P

Subjects

Animals, Botulinum Toxins metabolism, Botulinum Toxins toxicity, Humans, Metalloendopeptidases metabolism, Metalloendopeptidases toxicity, Protein Conformation, Protein Engineering, Tetanus Toxin metabolism, Tetanus Toxin toxicity, Botulinum Toxins therapeutic use, Metalloendopeptidases therapeutic use, Tetanus Toxin therapeutic use

Abstract

Botulinum neurotoxins (BoNTs) and tetanus neurotoxin (TeNT) are the most potent toxins known and cause botulism and tetanus, respectively. BoNTs are also widely utilized as therapeutic toxins. They contain three functional domains responsible for receptor-binding, membrane translocation, and proteolytic cleavage of host proteins required for synaptic vesicle exocytosis. These toxins also have distinct features: BoNTs exist within a progenitor toxin complex (PTC), which protects the toxin and facilitates its absorption in the gastrointestinal tract, whereas TeNT is uniquely transported retrogradely within motor neurons. Our increasing knowledge of these toxins has allowed the development of engineered toxins for medical uses. The discovery of new BoNTs and BoNT-like proteins provides additional tools to understand the evolution of the toxins and to engineer toxin-based therapeutics. This review summarizes the progress on our understanding of BoNTs and TeNT, focusing on the PTC, receptor recognition, new BoNT-like toxins, and therapeutic toxin engineering.

Published

2019

13. Cell-Based Reporter Release Assay to Determine the Potency of Proteolytic Bacterial Neurotoxins.

Author

Pathe-Neuschäfer-Rube A, Neuschäfer-Rube F, Haas G, Langoth-Fehringer N, and Püschel GP

Subjects

Cell Line, Tumor, Genes, Reporter, Humans, Oligonucleotides genetics, Proteolysis, Biological Assay, Botulinum Toxins toxicity, Luciferases genetics, Neurotoxins toxicity, Tetanus Toxin toxicity

Abstract

Despite the implementation of cell-based replacement methods, the mouse lethality assay is still frequently used to determine the activity of botulinum toxin (BoNT) for medical use. One explanation is that due to the use of neoepitope-specific antibodies to detect the cleaved BoNT substrate, the currently devised assays can detect only one specific serotype of the toxin. Recently, we developed a cell-based functional assay, in which BoNT activity is determined by inhibiting the release of a reporter enzyme that is liberated concomitantly with the neurotransmitter from neurosecretory vesicles. In theory, this assay should be suitable to detect the activity of any BoNT serotype. Consistent with this assumption, the current study shows that the stimulus-dependent release of a luciferase from a differentiated human neuroblastoma-based reporter cell line (SIMA-hPOMC1-26-GLuc cells) was inhibited by BoNT-A and-C. Furthermore, this was also inhibited by BoNT-B and tetanus toxin to a lesser extent and at higher concentrations. In order to provide support for the suitability of this technique in practical applications, a dose⁻response curve obtained with a pharmaceutical preparation of BoNT-A closely mirrored the activity determined in the mouse lethality assay. In summary, the newly established cell-based assay may represent a versatile and specific alternative to the mouse lethality assay and other currently established cell-based assays.

Published

2018

14. The travel diaries of tetanus and botulinum neurotoxins.

Author

Surana S, Tosolini AP, Meyer IFG, Fellows AD, Novoselov SS, and Schiavo G

Subjects

Animals, Humans, Botulinum Toxins metabolism, Botulinum Toxins toxicity, Protein Transport physiology, Tetanus Toxin metabolism, Tetanus Toxin toxicity

Abstract

Tetanus (TeNT) and botulinum (BoNT) neurotoxins, the causative agents of tetanus and botulism, respectively, are the most potent toxic molecules known to mankind. This extreme potency is attributed to: i) their specificity for essential components of the neurotransmitter release machinery present at vertebrate synapses, and ii) their high-affinity targeting to motor neurons by binding to polysialogangliosides and protein receptors. Comprising the clostridial neurotoxin family, TeNT and BoNTs engage distinct surface receptors and intracellular sorting pathways in neurons. BoNTs bind to the intraluminal domain of specific synaptic vesicle proteins that are exposed to the extracellular milieu upon exocytosis, and are taken up by synaptic vesicle recycling. A sizeable proportion of BoNT molecules remain at the neuromuscular junction, where their protease moiety is released into the cytoplasm, blocking synaptic transmission and causing flaccid paralysis. In contrast, TeNT undergoes binding to specific components of the basal membrane at the neuromuscular junction, is endocytosed into motor neurons and sorted to axonal signalling endosomes. Following this, TeNT is transported to the soma of motor neurons located in the spinal cord or brainstem, and then transcytosed to inhibitory interneurons, where it blocks synaptic transmission. TeNT-induced impairment of inhibitory input leads to hyperactivity of motor neurons, causing spastic paralysis, which is the hallmark of tetanus. This review examines the molecular mechanisms leading to the entry, sorting and intracellular trafficking of TeNT and BoNTs., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

15. The in vitro detection of botulinum neurotoxin-cleaved endogenous VAMP is epitope-dependent.

Author

Gray B, Cadd V, Elliott M, and Beard M

Subjects

Amino Acid Sequence, Animals, Blotting, Western, Cerebral Cortex cytology, Cerebral Cortex drug effects, Female, Neurons drug effects, Pregnancy, Rats, SNARE Proteins metabolism, Tetanus Toxin toxicity, Vesicle-Associated Membrane Protein 1 drug effects, Vesicle-Associated Membrane Protein 2 drug effects, Vesicle-Associated Membrane Protein 3 drug effects, Botulinum Toxins toxicity, Epitopes drug effects, Neurotoxins toxicity, Vesicle-Associated Membrane Protein 1 immunology, Vesicle-Associated Membrane Protein 2 immunology, Vesicle-Associated Membrane Protein 3 immunology

Abstract

The in vitro potency of botulinum neurotoxin (BoNT) serotypes is often measured by monitoring cleavage of their soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) protein substrates. A frequently used method is Western blot, whereby the full-length protein and cleaved form migrate at different molecular weights. Until now, it has been extremely difficult to detect the cleaved cellular form of the SNARE protein vesicle associated membrane protein 1, 2 or 3 (VAMP1, 2 or 3) by Western blot. These VAMP isoforms are the substrates of BoNT serotypes BoNT/B, D, F and G as well as tetanus neurotoxin. Using custom made anti-VAMP antibodies against epitopes either side of the cleavage sites for BoNT/B, BoNT/D and BoNT/F, we have successfully detected the cleaved C-terminal VAMP fragment in cortical neurons. These new antibodies enable quantitative assessment of the potency of VAMP-cleaving neurotoxins by a gain of signal Western blot assay., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

16. Dynamical properties of LFPs from mice with unilateral injection of TeNT.

Author

Vannini E, Caleo M, Chillemi S, and Di Garbo A

Subjects

Action Potentials drug effects, Animals, Epilepsy chemically induced, Injections, Mice, Mice, Inbred C57BL, Nonlinear Dynamics, Visual Cortex drug effects, Action Potentials physiology, Epilepsy physiopathology, Metalloendopeptidases toxicity, Models, Neurological, Tetanus Toxin toxicity, Visual Cortex physiopathology

Abstract

Local field potential (LFP) recordings were performed from the visual cortex (V1) of a focal epilepsy mouse model. Epilepsy was induced by a unilateral injection of the synaptic blocker tetanus neurotoxin (TeNT). LFP signals were simultaneously recorded from V1 of both hemispheres of each animal under acute and chronic conditions (i.e. during and after the period of TeNT action). All data were analysed by using nonlinear time series methods. Suitable values of the lag time and embedding dimension for phase space reconstruction were estimated by employing well-known methods. The results showed that lag times are sensitive to the presence of TeNT. Interestingly, TeNT promoted an increase in the level of linear and nonlinear correlation of LFP signals. The values of the embedding dimension failed to show any dependence on the presence of the neurotoxin. However, a local nonlinear prediction method showed that the presence of TeNT increases the predictability, quantified by the normalized prediction error, of the neural recordings. From a neurophysiological point of view, the above results suggest that TeNT injected in one hemisphere strongly impacts the local electrical activity of the neural populations in the opposite hemisphere. We hypothesize that this could arise from a qualitative and quantitative alteration of the transmission properties of the callosal fibers., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

17. Single-cell profiling of lineage determining transcription factors in antigen-specific CD4 + T cells reveals unexpected complexity in recall responses during immune reconstitution.

Author

Phetsouphanh C, Xu Y, Munier ML, Zaunders JJ, and Kelleher AD

Subjects

Antiretroviral Therapy, Highly Active, Cell Proliferation, Cytomegalovirus physiology, HIV Infections immunology, Humans, Immunologic Memory, T-Lymphocytes, Regulatory immunology, Tetanus Toxin toxicity, Th1 Cells immunology, gag Gene Products, Human Immunodeficiency Virus metabolism, CD4-Positive T-Lymphocytes immunology, Cell Lineage, Immunity, Single-Cell Analysis methods, Transcription Factors metabolism

Abstract

Recent studies of protein and gene expression at the single-cell level have revealed that the memory T-cell compartment is more heterogeneous than previously acknowledged. Identifying different T helper subsets involved in memory responses at the single-cell level is thus necessary to understand the level of heterogeneity within this population. Antigen-specific CD4 + T cells were measured using the CD25/OX40 assay together with a qualitative multiplex single-cell RT-PCR assay. Transcription profiles and subset proportions within the antigen-specific CD4 + T-cell population were dissected. Cytomegalovirus (CMV)-specific CD4 + T-cell responses skewed toward a Th1 response, whereas Tetanus toxoid responses skewed toward a Th2 type response. Fluctuations in CD4 + T-cell subsets were observed within the HIV-Gag-specific response during ongoing antiretroviral therapy. Strong effector responses (Th1) were observed in early treatment, however with ongoing therapy this effector response significantly decreased in combination with an increase in Tregs and circulating Tfh-like BCL-6 + memory cells. The apparent increase in Tcm in peripheral blood after a several weeks of antiretroviral therapy may be due to Tfh-like cell egress from germinal centers into the periphery.

Published

2017

18. Bacterial Signaling to the Nervous System through Toxins and Metabolites.

Author

Yang NJ and Chiu IM

Subjects

Animals, Bacteroides fragilis pathogenicity, Brain metabolism, Caenorhabditis elegans metabolism, Caenorhabditis elegans microbiology, Central Nervous System metabolism, Central Nervous System microbiology, Clostridium perfringens pathogenicity, Gastrointestinal Tract metabolism, Gastrointestinal Tract microbiology, Humans, Lipopolysaccharides toxicity, Macrolides toxicity, Mycobacterium ulcerans pathogenicity, Neurons metabolism, Staphylococcus aureus pathogenicity, Synaptic Transmission, Tetanus Toxin toxicity, Brain microbiology, Neurons microbiology, Signal Transduction

Abstract

Mammalian hosts interface intimately with commensal and pathogenic bacteria. It is increasingly clear that molecular interactions between the nervous system and microbes contribute to health and disease. Both commensal and pathogenic bacteria are capable of producing molecules that act on neurons and affect essential aspects of host physiology. Here we highlight several classes of physiologically important molecular interactions that occur between bacteria and the nervous system. First, clostridial neurotoxins block neurotransmission to or from neurons by targeting the SNARE complex, causing the characteristic paralyses of botulism and tetanus during bacterial infection. Second, peripheral sensory neurons-olfactory chemosensory neurons and nociceptor sensory neurons-detect bacterial toxins, formyl peptides, and lipopolysaccharides through distinct molecular mechanisms to elicit smell and pain. Bacteria also damage the central nervous system through toxins that target the brain during infection. Finally, the gut microbiota produces molecules that act on enteric neurons to influence gastrointestinal motility, and metabolites that stimulate the "gut-brain axis" to alter neural circuits, autonomic function, and higher-order brain function and behavior. Furthering the mechanistic and molecular understanding of how bacteria affect the nervous system may uncover potential strategies for modulating neural function and treating neurological diseases., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

19. Interneuronal Transfer and Distal Action of Tetanus Toxin and Botulinum Neurotoxins A and D in Central Neurons.

Author

Bomba-Warczak E, Vevea JD, Brittain JM, Figueroa-Bernier A, Tepp WH, Johnson EA, Yeh FL, and Chapman ER

Subjects

Animals, Botulinum Toxins toxicity, Botulinum Toxins, Type A toxicity, Cell Communication, Fluorescent Dyes chemistry, Hippocampus cytology, Hippocampus drug effects, Lab-On-A-Chip Devices, Mice, Neurons cytology, Neurons drug effects, Primary Cell Culture, Protein Transport, Rats, Tetanus Toxin toxicity, Botulinum Toxins metabolism, Botulinum Toxins, Type A metabolism, Hippocampus metabolism, Neurons metabolism, Tetanus Toxin metabolism

Abstract

Recent reports suggest that botulinum neurotoxin (BoNT) A, which is widely used clinically to inhibit neurotransmission, can spread within networks of neurons to have distal effects, but this remains controversial. Moreover, it is not known whether other members of this toxin family are transferred between neurons. Here, we investigate the potential distal effects of BoNT/A, BoNT/D, and tetanus toxin (TeNT), using central neurons grown in microfluidic devices. Toxins acted upon the neurons that mediated initial entry, but all three toxins were also taken up, via an alternative pathway, into non-acidified organelles that mediated retrograde transport to the somato-dendritic compartment. Toxins were then released into the media, where they entered and exerted their effects upon upstream neurons. These findings directly demonstrate that these agents undergo transcytosis and interneuronal transfer in an active form, resulting in long-distance effects., (Copyright © 2016 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2016

20. Partial Raphe Dysfunction in Neurotransmission Is Sufficient to Increase Mortality after Anoxic Exposures in Mice at a Critical Period in Postnatal Development.

Author

Barrett KT, Dosumu-Johnson RT, Daubenspeck JA, Brust RD, Kreouzis V, Kim JC, Li A, Dymecki SM, and Nattie EE

Subjects

Aging psychology, Animals, Animals, Newborn, Gene Silencing, Heart Rate, Humans, Infant, Newborn, Mice, Mice, Transgenic, Raphe Nuclei drug effects, Respiratory Mechanics, Serotonin Plasma Membrane Transport Proteins genetics, Serotonin Plasma Membrane Transport Proteins metabolism, Sudden Infant Death, Tetanus Toxin toxicity, Transcription Factors genetics, Transcription Factors metabolism, Tryptophan Hydroxylase genetics, Tryptophan Hydroxylase metabolism, Critical Period, Psychological, Hypoxia mortality, Hypoxia physiopathology, Raphe Nuclei physiopathology, Synaptic Transmission drug effects

Abstract

Sudden infant death syndrome (SIDS) cases often have abnormalities of the brainstem raphe serotonergic (5-HT) system. We hypothesize that raphe dysfunction contributes to a failure to autoresuscitate from multiple hypoxic events, leading to SIDS. We studied autoresuscitation in two transgenic mouse models in which exocytic neurotransmitter release was impaired via conditional expression of the light chain from tetanus toxin (tox) in raphe neurons expressing serotonergic bacterial artificial chromosome drivers Pet1 or Slc6a4. These used recombinase drivers targeted different portions of medullary raphe serotonergic, tryptophan hydroxylase 2 (Tph2)(+) neurons by postnatal day (P) 5 through P12: approximately one-third in triple transgenic Pet1::Flpe, hβactin::cre, RC::PFtox mice; approximately three-fourths inSlc6a4::cre, RC::Ptox mice; with the first model capturing a near equal number of Pet1(+),Tph2(+) versus Pet1(+),Tph2(low or negative) raphe cells. At P5, P8, and P12, "silenced" mice and controls were exposed to five, ∼37 s bouts of anoxia. Mortality was 5-10 times greater in "silenced" pups compared with controls at P5 and P8 (p = 0.001) but not P12, with cumulative survival not differing between experimental transgenic models. "Silenced" pups that eventually died took longer to initiate gasping (p = 0.0001), recover heart rate (p = 0.0001), and recover eupneic breathing (p = 0.011) during the initial anoxic challenges. Variability indices for baseline breathing distinguished "silenced" from controls but did not predict mortality. We conclude that dysfunction of even a portion of the raphe, as observed in many SIDS cases, can impair ability to autoresuscitate at critical periods in postnatal development and that baseline indices of breathing variability can identify mice at risk., Significance Statement: Many sudden infant death syndrome (SIDS) cases exhibit a partial (∼26%) brainstem serotonin deficiency. Using recombinase drivers, we targeted different fractions of serotonergic and raphe neurons in mice for tetanus toxin light chain expression, which prevented vesicular neurotransmitter release. In one model, approximately one-third of medullary Tph2(+) neurons are silenced by postnatal (P) days 5 and 12, along with some Pet1(+),Tph2(low or negative) raphe cells; in the other, approximately three-fourths of medullary Tph2(+) neurons, also with some Tph2(low or negative) cells. Both models demonstrated excessive mortality to anoxia (a postulated SIDS stressor) at P5 and P8. We demonstrated fatal vulnerability to anoxic stress at a specific time in postnatal life induced by a partial defect in raphe function. This models features of SIDS., (Copyright © 2016 the authors 0270-6474/16/363944-11$15.00/0.)

Published

2016

21. Botulinum and Tetanus Neurotoxin-Induced Blockade of Synaptic Transmission in Networked Cultures of Human and Rodent Neurons.

Author

Beske PH, Bradford AB, Grynovicki JO, Glotfelty EJ, Hoffman KM, Hubbard KS, Tuznik KM, and McNutt PM

Subjects

Animals, Cells, Cultured, Dizocilpine Maleate pharmacology, Dose-Response Relationship, Drug, Embryonic Stem Cells drug effects, Embryonic Stem Cells physiology, Excitatory Postsynaptic Potentials drug effects, Humans, Mice, Neurons physiology, Rats, SNARE Proteins metabolism, Synaptosomal-Associated Protein 25 analysis, Botulinum Toxins toxicity, Metalloendopeptidases toxicity, Neurons drug effects, Synaptic Transmission drug effects, Tetanus Toxin toxicity

Abstract

Clinical manifestations of tetanus and botulism result from an intricate series of interactions between clostridial neurotoxins (CNTs) and nerve terminal proteins that ultimately cause proteolytic cleavage of SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) proteins and functional blockade of neurotransmitter release. Although detection of cleaved SNARE proteins is routinely used as a molecular readout of CNT intoxication in cultured cells, impaired synaptic function is the pathophysiological basis of clinical disease. Work in our laboratory has suggested that the blockade of synaptic neurotransmission in networked neuron cultures offers a phenotypic readout of CNT intoxication that more closely replicates the functional endpoint of clinical disease. Here, we explore the value of measuring spontaneous neurotransmission frequencies as novel and functionally relevant readouts of CNT intoxication. The generalizability of this approach was confirmed in primary neuron cultures as well as human and mouse stem cell-derived neurons exposed to botulinum neurotoxin serotypes A-G and tetanus neurotoxin. The sensitivity and specificity of synaptic activity as a reporter of intoxication was evaluated in assays representing the principal clinical and research purposes of in vivo studies. Our findings confirm that synaptic activity offers a novel and functionally relevant readout for the in vitro characterizations of CNTs. They further suggest that the analysis of synaptic activity in neuronal cell cultures can serve as a surrogate for neuromuscular paralysis in the mouse lethal assay, and therefore is expected to significantly reduce the need for terminal animal use in toxin studies and facilitate identification of candidate therapeutics in cell-based screening assays., (Published by Oxford University Press on behalf of the Society of Toxicology 2015. This work is written by US Government employees and is in the public domain in the US.)

Published

2016

22. Asynchronous Distributed Multielectrode Microstimulation Reduces Seizures in the Dorsal Tetanus Toxin Model of Temporal Lobe Epilepsy.

Author

Desai SA, Rolston JD, McCracken CE, Potter SM, and Gross RE

Subjects

Animals, Epilepsy, Temporal Lobe etiology, Male, Rats, Rats, Sprague-Dawley, Seizures etiology, Tetanus Toxin toxicity, Theta Rhythm, Deep Brain Stimulation, Epilepsy, Temporal Lobe therapy, Hippocampus physiopathology, Seizures therapy

Abstract

Background: Electrical brain stimulation has shown promise for reducing seizures in drug-resistant epilepsy, but the electrical stimulation parameter space remains largely unexplored. New stimulation parameters, electrode types, and stimulation targets may be more effective in controlling seizures compared to currently available options., Hypothesis: We hypothesized that a novel electrical stimulation approach involving distributed multielectrode microstimulation at the epileptic focus would reduce seizure frequency in the tetanus toxin model of temporal lobe epilepsy., Methods: We explored a distributed multielectrode microstimulation (DMM) approach in which electrical stimulation was delivered through 15 33-µm-diameter electrodes implanted at the epileptic focus (dorsal hippocampus) in the rat tetanus toxin model of temporal lobe epilepsy., Results: We show that hippocampal theta (6-12 Hz brain oscillations) is decreased in this animal model during awake behaving conditions compared to control animals (p < 10(-4)). DMM with biphasic, theta-range (6-12 Hz/electrode) pulses delivered asynchronously on the 15 microelectrodes was effective in reducing seizures by 46% (p < 0.05). When theta pulses or sinusoidal stimulation was delivered synchronously and continuously on the 15 microelectrodes, or through a single macroelectrode, no effects on seizure frequency were observed. High frequency stimulation (>16.66 Hz/per electrode), in contrast, had a tendency to increase seizure frequency., Conclusions: These results indicate that DMM could be a new effective approach to therapeutic brain stimulation for reducing seizures in epilepsy., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

23. Increased cyclooxygenase-2 and nuclear factor-κB/p65 expression in mouse hippocampi after systemic administration of tetanus toxin.

Author

Yan BC, Jeon YH, Park JH, Kim IH, Cho JH, Ahn JH, Chen BH, Tae HJ, Lee JC, Ahn JY, Kim DW, Cho JH, Won MH, and Hong S

Subjects

Animals, Brain drug effects, Brain metabolism, Brain pathology, Cyclooxygenase 2 genetics, Cyclooxygenase 2 physiology, Dentate Gyrus metabolism, Dentate Gyrus pathology, Hippocampus metabolism, Hippocampus pathology, Inflammation chemically induced, Inflammation metabolism, Inflammation pathology, Male, Mice, Mice, Inbred ICR, NF-kappa B genetics, NF-kappa B physiology, Transcription Factor RelA metabolism, Cyclooxygenase 2 metabolism, Dentate Gyrus drug effects, Hippocampus drug effects, NF-kappa B metabolism, Tetanus Toxin toxicity

Abstract

Brain inflammation has a crucial role in various diseases of the central nervous system. The hippocampus in the mammalian brain exerts an important memory function, which is sensitive to various insults, including inflammation induced by exo/endotoxin stimuli. Tetanus toxin (TeT) is an exotoxin with the capacity for neuronal binding and internalization. The present study investigated changes in inflammatory mediators in the mouse hippocampus proper (CA1‑3 regions) and dentate gyrus (DG) after TeT treatment. The experimental mice were intraperitoneally injected with TeT at a low dosage (100 ng/kg), while the control mice were injected with the same volume of saline. At 6, 12 and 24 h after TeT treatment, changes in the hippocampal levels of inflammatory mediators cyclooxygenase‑2 (COX‑2) and nuclear factor kappa‑B (NF‑κB/p65) were assessed using immunohistochemical and western blot analysis. In the control group, moderate COX‑2 immunoreactivity was observed in the stratum pyramidal (SP) of the CA2‑3 region, while almost no expression was identified in the CA1 region and the DG. COX‑2 immunoreactivity was increased by TeT in the SP and granule cell layer (GCL) of the DG in a time‑dependent manner. At 24 h post‑treatment, COX‑2 immunoreactivity in the SP of the CA1 region and in the GCL of the DG was high, and COX‑2 immunoreactivity in the SP of the CA2/3 region was highest. Furthermore, the present study observed that NF‑κB/p65 immunoreactivity was obviously increased in the SP and GCL at 6, 12 and 24 h after TeT treatment. In conclusion, the present study demonstrated that systemic treatment with TeT significantly increased the expression of COX-2 and NF-κB/p65 in the mouse hippocampus, suggesting that increased COX‑2 and NF-κB/65 expression may be associated with inflammation in the brain induced by exotoxins.

Published

2015

24. [Shiga toxin and tetanus toxin as a potential biologic weapon].

Author

Toczyska I and Płusa T

Subjects

Animals, Clostridium tetani, Diarrhea chemically induced, Diarrhea microbiology, Diarrhea therapy, Escherichia coli, Fluid Therapy, Food Contamination, Hemolytic-Uremic Syndrome chemically induced, Hemolytic-Uremic Syndrome diagnosis, Hemolytic-Uremic Syndrome therapy, Humans, Purpura, Thrombotic Thrombocytopenic chemically induced, Purpura, Thrombotic Thrombocytopenic diagnosis, Purpura, Thrombotic Thrombocytopenic therapy, Tetanus diagnosis, Tetanus therapy, Biological Warfare Agents, Bioterrorism, Shiga Toxin toxicity, Tetanus chemically induced, Tetanus Toxin toxicity

Abstract

Toxins produced by the bacteria are of particular interest as potential cargo combat possible for use in a terrorist attack or war. Shiga toxin is usually produced by shiga toxigenic strains of Escherichia coli (STEC - shigatoxigenic Escherichia coli). To infection occurs mostly after eating contaminated beef. Clinical syndromes associated with Shiga toxin diarrhea, hemorrhagic colitis, hemolytic uremic syndrome (HUS - hemolytic uremic syndrome) or thrombotic thrombocytopenic purpura. Treatment is symptomatic. In HUS, in which mortality during an epidemic reaches 20%, extending the kidney injury dialysis may be necessary. Exposure to tetanus toxin produced by Clostridium tetani, resulting in the most generalized tetanus, characterized by increased muscle tension and painful contractions of individual muscle groups. In the treatment beyond symptomatic behavior (among others spasticity medications, anticonvulsants, muscle relaxants) is used tetanus antitoxin and antibiotics (metronidazole choice). A common complication is acute respiratory failure - then it is necessary to implement mechanical ventilation., (© 2015 MEDPRESS.)

Published

2015

25. [Professor Zoltán Alföldy at the helm of the Hungarian Institute of Microbiology for 25 years (1950-1974)].

Author

Nász I

Subjects

Awards and Prizes, Education, Medical organization & administration, History, 20th Century, Humans, Hungary, Internal Medicine history, Microbiology education, Microbiology organization & administration, Pertussis Vaccine history, Physicians history, Public Health, Schools, Medical history, Tetanus Toxin history, Tetanus Toxin toxicity, Academies and Institutes history, Drug Contamination, Education, Medical history, Faculty, Medical history, Leadership, Microbiology history, Research history, Textbooks as Topic history

Published

2015

26. Altered expression of the voltage-gated calcium channel subunit α₂δ-1: a comparison between two experimental models of epilepsy and a sensory nerve ligation model of neuropathic pain.

Author

Nieto-Rostro M, Sandhu G, Bauer CS, Jiruska P, Jefferys JG, and Dolphin AC

Subjects

Animals, CD11b Antigen metabolism, Calcium Channels, L-Type, Cell Death, Disease Models, Animal, Epilepsy chemically induced, Epilepsy complications, Gene Expression Regulation drug effects, Gliosis etiology, Kainic Acid toxicity, Ligation adverse effects, Male, Microtubule-Associated Proteins metabolism, Neuralgia complications, Neuralgia etiology, Neurotoxins toxicity, Phosphopyruvate Hydratase metabolism, Rats, Rats, Sprague-Dawley, Tetanus Toxin toxicity, Calcium Channels metabolism, Epilepsy pathology, Ganglia, Spinal metabolism, Gene Expression Regulation physiology, Hippocampus metabolism, Neuralgia pathology

Abstract

The auxiliary α2δ-1 subunit of voltage-gated calcium channels is up-regulated in dorsal root ganglion neurons following peripheral somatosensory nerve damage, in several animal models of neuropathic pain. The α2δ-1 protein has a mainly presynaptic localization, where it is associated with the calcium channels involved in neurotransmitter release. Relevant to the present study, α2δ-1 has been shown to be the therapeutic target of the gabapentinoid drugs in their alleviation of neuropathic pain. These drugs are also used in the treatment of certain epilepsies. In this study we therefore examined whether the level or distribution of α2δ-1 was altered in the hippocampus following experimental induction of epileptic seizures in rats, using both the kainic acid model of human temporal lobe epilepsy, in which status epilepticus is induced, and the tetanus toxin model in which status epilepticus is not involved. The main finding of this study is that we did not identify somatic overexpression of α2δ-1 in hippocampal neurons in either of the epilepsy models, unlike the upregulation of α2δ-1 that occurs following peripheral nerve damage to both somatosensory and motor neurons. However, we did observe local reorganization of α2δ-1 immunostaining in the hippocampus only in the kainic acid model, where it was associated with areas of neuronal cell loss, as indicated by absence of NeuN immunostaining, dendritic loss, as identified by areas where microtubule-associated protein-2 immunostaining was missing, and reactive gliosis, determined by regions of strong OX42 staining., (Crown Copyright © 2014. Published by Elsevier Ltd. All rights reserved.)

Published

2014

27. Tetanus neurotoxin utilizes two sequential membrane interactions for channel formation.

Author

Burns JR and Baldwin MR

Subjects

Animals, Cell Membrane drug effects, Cell Membrane metabolism, Cells, Cultured, Gangliosides metabolism, Hydrogen-Ion Concentration, Ion Channels drug effects, Ion Channels metabolism, Liposomes metabolism, Metalloendopeptidases genetics, Models, Neurological, Mutagenesis, Site-Directed, Potassium metabolism, Protein Structure, Secondary, Rats, Receptors, Cell Surface metabolism, Recombinant Proteins genetics, Recombinant Proteins metabolism, Recombinant Proteins toxicity, Tetanus Toxin genetics, Metalloendopeptidases metabolism, Metalloendopeptidases toxicity, Neurons drug effects, Neurons metabolism, Tetanus Toxin metabolism, Tetanus Toxin toxicity

Abstract

Tetanus neurotoxin (TeNT) causes neuroparalytic disease by entering the neuronal soma to block the release of neurotransmitters. However, the mechanism by which TeNT translocates its enzymatic domain (light chain) across endosomal membranes remains unclear. We found that TeNT and a truncated protein devoid of the receptor binding domain (TeNT-LHN) associated with membranes enriched in acidic phospholipids in a pH-dependent manner. Thus, in contrast to diphtheria toxin, the formation of a membrane-competent state of TeNT requires the membrane interface and is modulated by the bilayer composition. Channel formation is further enhanced by tethering of TeNT to the membrane through ganglioside co-receptors prior to acidification. Thus, TeNT channel formation can be resolved into two sequential steps: 1) interaction of the receptor binding domain (heavy chain receptor binding domain) with ganglioside co-receptors orients the translocation domain (heavy chain translocation domain) as the lumen of the endosome is acidified and 2) low pH, in conjunction with acidic lipids within the membrane drives the conformational changes in TeNT necessary for channel formation., (© 2014 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2014

28. Rapid eye movement sleep and hippocampal theta oscillations precede seizure onset in the tetanus toxin model of temporal lobe epilepsy.

Author

Sedigh-Sarvestani M, Thuku GI, Sunderam S, Parkar A, Weinstein SL, Schiff SJ, and Gluckman BJ

Subjects

Animals, Disease Models, Animal, Epilepsy, Temporal Lobe chemically induced, Male, Neurotoxins toxicity, Rats, Rats, Long-Evans, Tetanus Toxin toxicity, Arousal physiology, Epilepsy, Temporal Lobe physiopathology, Hippocampus physiopathology, Sleep, REM physiology, Theta Rhythm physiology

Abstract

Improved understanding of the interaction between state of vigilance (SOV) and seizure onset has therapeutic potential. Six rats received injections of tetanus toxin (TeTX) in the ventral hippocampus that resulted in chronic spontaneous seizures. The distribution of SOV before 486 seizures was analyzed for a total of 19 d of recording. Rapid eye movement sleep (REM) and exploratory wake, both of which express prominent hippocampal theta rhythm, preceded 47 and 34%, for a total of 81%, of all seizures. Nonrapid eye movement sleep (NREM) and nonexploratory wake, neither of which expresses prominent theta, preceded 6.8 and 13% of seizures. We demonstrate that identification of SOV yields significant differentiation of seizure susceptibilities, with the instantaneous seizure rate during REM nearly 10 times higher than baseline and the rate for NREM less than half of baseline. Survival analysis indicated a shorter duration of preseizure REM bouts, with a maximum transition to seizure at ∼90 s after the onset of REM. This study provides the first analysis of a correlation between SOV and seizure onset in the TeTX model of temporal lobe epilepsy, as well as the first demonstration that hippocampal theta rhythms associated with natural behavioral states can serve a seizure-promoting role. Our findings are in contrast with previous studies suggesting that the correlations between SOV and seizures are primarily governed by circadian oscillations and the notion that hippocampal theta rhythms inhibit seizures. The documentation of significant SOV-dependent seizure susceptibilities indicates the potential utility of SOV and its time course in seizure prediction and control.

Published

2014

29. Binding and cleavage (BINACLE) assay for the functional in vitro detection of tetanus toxin: applicability as alternative method for the safety testing of tetanus toxoids during vaccine production.

Author

Behrensdorf-Nicol HA, Bonifas U, Hanschmann KM, Krämer B, and Weißer K

Subjects

Sensitivity and Specificity, Tetanus Toxoid standards, Technology, Pharmaceutical methods, Tetanus Toxin metabolism, Tetanus Toxin toxicity, Tetanus Toxoid adverse effects, Tetanus Toxoid isolation & purification, Toxoids metabolism, Toxoids toxicity

Abstract

Tetanus toxoids (i.e. chemically inactivated preparations of tetanus neurotoxin) are used for the production of tetanus vaccines. In order to exclude the risk of residual toxicity or of a "reversion to toxicity", each batch of tetanus toxoid is subject to strict safety testing. Up to now, these prescribed safety tests have to be performed as in vivo toxicity tests in guinea pigs. However, as animal tests are generally slow, costly and ethically disputable, a replacement by an in vitro method would be desirable. A suitable alternative method would have to be able to sensitively detect already low concentrations of active tetanus neurotoxin in matrices containing large amounts of inactivated toxoid molecules. We have developed a method which detects active tetanus neurotoxin molecules based on their specific receptor-binding capacity as well as their proteolytic activity. By taking into account two relevant functional characteristics, this combined "BINding And CLEavage" (BINACLE) assay more reliably discriminates between toxic and detoxified molecules than other in vitro assays which solely rely on one single toxin function (e.g. endopeptidase assays). Data from an in-house validation show that the BINACLE assay is able to detect active tetanus neurotoxin with a detection limit comparable to the in vivo test. The sensitive detection of active toxin which has been spiked into toxoid samples from different manufacturers could also be demonstrated. Specificity and precision of the method have been shown to be satisfactory. The presented data indicate that for toxoid batches from some of the most relevant European vaccine manufacturers, the BINACLE assay may represent a potential alternative to the prescribed animal safety tests. In addition, this novel method may also provide a convenient tool for monitoring batch-to-batch consistency during toxoid production., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

30. Exchanging the minimal cell binding fragments of tetanus neurotoxin in botulinum neurotoxin A and B impacts their toxicity at the neuromuscular junction and central neurons.

Author

Höltje M, Schulze S, Strotmeier J, Mahrhold S, Richter K, Binz T, Bigalke H, Ahnert-Hilger G, and Rummel A

Subjects

Animals, Cell Membrane drug effects, Cell Membrane metabolism, Circular Dichroism, Escherichia coli metabolism, Hippocampus drug effects, Hippocampus metabolism, Mice, Neuromuscular Junction metabolism, Neurons metabolism, Protein Binding, Protein Transport, Recombinant Proteins genetics, Recombinant Proteins metabolism, Botulinum Toxins toxicity, Botulinum Toxins, Type A toxicity, Metalloendopeptidases toxicity, Neuromuscular Junction drug effects, Neurons drug effects, Tetanus Toxin toxicity

Abstract

The modular four domain structure of clostridial neurotoxins supports the idea to reassemble individual domains from tetanus and botulinum neurotoxins to generate novel molecules with altered pharmacological properties. To treat disorders of the central nervous system drug transporter molecules based on catalytically inactive clostridial neurotoxins circumventing the passage of the blood-brain-barrier are desired. Such molecules can be produced based on the highly effective botulinum neurotoxin serotype A incorporating the retrograde axonal sorting property of tetanus neurotoxin which is supposed to be encoded within its C-terminal cell binding domain HC. The corresponding exchange of the tetanus neurotoxin HC-fragment in botulinum neurotoxin A yielded the novel hybrid molecule AATT which displayed decreased potency at the neuromuscular junction like tetanus neurotoxin but exerted equal activity in cortical neurons compared to botulinum neurotoxin A wild-type. Minimizing the tetanus neurotoxin cell binding domain to its N- or C-terminal half drastically reduced the potencies of AATA and AAAT in cortical neurons indicating that the structural motif mediating sorting of tetanus neurotoxin is predominantly encoded within the entire HC-fragment. However, the reciprocal exchange resulted in TTAA which showed a similar potency as tetanus neurotoxin at the neuromuscular junction indicating that the tetanus neurotoxin portion prevents a high potency as observed for botulinum neurotoxins. In conclusion, clostridial neurotoxin based inactivated drug transporter for targeting central neurons should contain the cell binding domain of tetanus neurotoxin to exert its tropism for the central nervous system., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

31. [Preclinical studies of an adsorbed diphtheria-tetanus-pertussis vaccine (ADTP-vaccine) with acellular pertussis component].

Author

Zaĭtsev EM, Britsina MV, Bazhanova IG, Mertsalova NU, Ozeretskovskaia MN, Ermolova EV, Plekhanova NG, Mikhaĭlova NA, Kolyshkin VA, and Zverev VV

Subjects

Adjuvants, Immunologic pharmacology, Aluminum Hydroxide adverse effects, Animals, Antigens, Bacterial adverse effects, Antigens, Bacterial immunology, Diphtheria Toxin immunology, Diphtheria-Tetanus-acellular Pertussis Vaccines adverse effects, Diphtheria-Tetanus-acellular Pertussis Vaccines immunology, Drug Evaluation, Preclinical, Female, Guinea Pigs, Humans, Male, Meningoencephalitis immunology, Mice, Tetanus Toxin immunology, Adjuvants, Immunologic adverse effects, Aluminum Hydroxide pharmacology, Antigens, Bacterial pharmacology, Bordetella pertussis, Diphtheria Toxin toxicity, Diphtheria-Tetanus-acellular Pertussis Vaccines pharmacology, Meningoencephalitis prevention & control, Tetanus Toxin toxicity

Abstract

Aim: Evaluate standardness of antigenic composition of pertussis component, completeness of sorption of pertussis, diphtheria and tetanus components, specific activity and safety of experimental series ofADTP-vaccine with acellular pertussis component (ADTaP-vaccine)., Materials and Methods: The content of separate antigens (pertussis toxin, filamentous hemagglutinin and agglutinogens 1, 2, 3) in samples of acellular pertussis component of ADTaP-vaccine and completeness of sorption of pertussis component of ADTaP-vaccine were evaluated by using enzyme immunoassay. Completeness of sorption of diphtheria and tetanus components were determined in flocculation reaction and antitoxin-binding reactions, respectively. Protective activity ofADTaP-vaccine was studied in model ofmeningoencephalitis development in mice infected with Bordetella pertussis (strain 18323) neurotropic virulent culture, protective activity oftetanus component - by survival of mice after administration of tetanus toxin, protective activity of diphtheria component - by survival of guinea pigs after administration of diphtheria toxin. Safety of preparations was evaluated in tests of acute and chronic toxicity with carrying out pathomorphologic studies including immature animals., Results: All the studied experimental series ofADTaP-vaccine were standard by content of separate antigens of pertussis microbe. All the ADTaP-vaccine components were completely sorbed on aluminium hydroxide gel. By protective activity ADTaP preparations satisfied the WHO requirements. The preparations were non-toxic in acute and chronic toxicity and did not induce pathomorphologic changes including immature animals., Conclusion: Experimental samples of ADTaP-vaccine by specific activity and safety satisfied WHO requirements.

Published

2013

32. Dentate gyrus progenitor cell proliferation after the onset of spontaneous seizures in the tetanus toxin model of temporal lobe epilepsy.

Author

Jiruska P, Shtaya AB, Bodansky DM, Chang WC, Gray WP, and Jefferys JG

Subjects

Animals, Cell Proliferation, Dentate Gyrus physiopathology, Disease Models, Animal, Doublecortin Protein, Electrophysiology, Epilepsy, Temporal Lobe chemically induced, Epilepsy, Temporal Lobe physiopathology, Immunohistochemistry, Male, Neurotoxins toxicity, Rats, Rats, Sprague-Dawley, Seizures chemically induced, Tetanus Toxin toxicity, Dentate Gyrus cytology, Neural Stem Cells cytology, Neurogenesis physiology, Seizures physiopathology

Abstract

Temporal lobe epilepsy alters adult neurogenesis. Existing experimental evidence is mainly from chronic models induced by an initial prolonged status epilepticus associated with substantial cell death. In these models, neurogenesis increases after status epilepticus. To test whether status epilepticus is necessary for this increase, we examined precursor cell proliferation and neurogenesis after the onset of spontaneous seizures in a model of temporal lobe epilepsy induced by unilateral intrahippocampal injection of tetanus toxin, which does not cause status or, in most cases, detectable neuronal loss. We found a 4.5 times increase in BrdU labeling (estimating precursor cells proliferating during the 2nd week after injection of toxin and surviving at least up to 7days) in dentate gyri of both injected and contralateral hippocampi of epileptic rats. Radiotelemetry revealed that the rats experienced 112±24 seizures, lasting 88±11s each, over a period of 8.6±1.3days from the first electrographic seizure. On the first day of seizures, their duration was a median of 103s, and the median interictal period was 23min, confirming the absence of experimentally defined status epilepticus. The total increase in cell proliferation/survival was due to significant population expansions of: radial glial-like precursor cells (type I; 7.2×), non-radial type II/III neural precursors in the dentate gyrus stem cell niche (5.6×), and doublecortin-expressing neuroblasts (5.1×). We conclude that repeated spontaneous brief temporal lobe seizures are sufficient to promote increased hippocampal neurogenesis in the absence of status epilepticus., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

33. Tetanus neurotoxin.

Author

Rossetto O, Scorzeto M, Megighian A, and Montecucco C

Subjects

Animals, Clostridium tetani genetics, Genome, Bacterial, Metalloendopeptidases chemistry, Metalloendopeptidases isolation & purification, Neurotransmitter Agents metabolism, Peripheral Nerves drug effects, Peripheral Nerves metabolism, Presynaptic Terminals drug effects, Presynaptic Terminals metabolism, Protein Structure, Tertiary, Structure-Activity Relationship, Tetanus Toxin chemistry, Tetanus Toxin isolation & purification, Clostridium tetani metabolism, Metalloendopeptidases toxicity, Tetanus Toxin toxicity

Published

2013

34. The ocular conjunctiva as a mucosal immunization route: a profile of the immune response to the model antigen tetanus toxoid.

Author

Barisani-Asenbauer T, Inic-Kanada A, Belij S, Marinkovic E, Stojicevic I, Montanaro J, Stein E, Bintner N, and Stojanovic M

Subjects

Adjuvants, Immunologic, Animals, Antibodies, Bacterial blood, Antibodies, Bacterial immunology, Antibody Formation drug effects, Antibody Formation immunology, B-Lymphocytes cytology, B-Lymphocytes drug effects, B-Lymphocytes immunology, Bordetella pertussis immunology, Cell Proliferation drug effects, Conjunctiva pathology, Cytokines metabolism, Female, Immunity, Mucosal drug effects, Immunoglobulin A, Secretory blood, Immunoglobulin A, Secretory metabolism, Immunoglobulin G blood, Lymph Nodes cytology, Lymph Nodes drug effects, Lymph Nodes immunology, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Subcutaneous Tissue drug effects, Subcutaneous Tissue immunology, Submandibular Gland cytology, Tears immunology, Tetanus Toxin toxicity, Th1 Cells cytology, Th1 Cells drug effects, Th1 Cells immunology, Antigens, Bacterial immunology, Conjunctiva immunology, Immunity, Mucosal immunology, Immunization, Tetanus Toxoid immunology

Abstract

Background: In a quest for a needle-free vaccine administration strategy, we evaluated the ocular conjunctiva as an alternative mucosal immunization route by profiling and comparing the local and systemic immune responses to the subcutaneous or conjunctival administration of tetanus toxoid (TTd), a model antigen., Materials and Methods: BALB/c and C57BL/6 mice were immunized either subcutaneously with TTd alone or via the conjunctiva with TTd alone, TTd mixed with 2% glycerol or TTd with merthiolate-inactivated whole-cell B. pertussis (wBP) as adjuvants. Mice were immunized on days 0, 7 and 14 via both routes, and an evaluation of the local and systemic immune responses was performed two weeks after the last immunization. Four weeks after the last immunization, the mice were challenged with a lethal dose (2 × LD50) of tetanus toxin., Results: The conjunctival application of TTd in BALB/c mice induced TTd-specific secretory IgA production and skewed the TTd-specific immune response toward a Th1/Th17 profile, as determined by the stimulation of IFNγ and IL-17A secretion and/or the concurrent pronounced reduction of IL-4 secretion, irrespective of the adjuvant. In conjunctivaly immunized C57BL/6 mice, only TTd administered with wBP promoted the establishment of a mixed Th1/Th17 TTd-specific immune response, whereas TTd alone or TTd in conjunction with glycerol initiated a dominant Th1 response against TTd. Immunization via the conjunctiva with TTd plus wBP adjuvant resulted in a 33% survival rate of challenged mice compared to a 0% survival rate in non-immunized animals (p<0.05)., Conclusion: Conjunctival immunization with TTd alone or with various adjuvants induced TTd-specific local and systemic immune responses, predominantly of the Th1 type. The strongest immune responses developed in mice that received TTd together with wBP, which implies that this alternative route might tailor the immune response to fight intracellular bacteria or viruses more effectively.

Published

2013

35. The thioredoxin reductase-thioredoxin system is involved in the entry of tetanus and botulinum neurotoxins in the cytosol of nerve terminals.

Author

Pirazzini M, Bordin F, Rossetto O, Shone CC, Binz T, and Montecucco C

Subjects

Animals, Auranofin pharmacology, Biological Transport, Active, Botulinum Toxins antagonists & inhibitors, Botulinum Toxins toxicity, Cells, Cultured, Cytosol metabolism, Endocytosis, Enzyme Inhibitors pharmacology, Male, Metalloendopeptidases antagonists & inhibitors, Metalloendopeptidases metabolism, Mice, Presynaptic Terminals drug effects, Rats, SNARE Proteins metabolism, Tetanus Toxin antagonists & inhibitors, Tetanus Toxin toxicity, Thioredoxin-Disulfide Reductase antagonists & inhibitors, Botulinum Toxins metabolism, Presynaptic Terminals metabolism, Tetanus Toxin metabolism, Thioredoxin-Disulfide Reductase metabolism, Thioredoxins metabolism

Abstract

Tetanus and botulinum neurotoxins cause paralysis by cleaving SNARE proteins within the cytosol of nerve terminals. They are endocytosed inside acidic vesicles and the pH gradient across the membrane drives the translocation of their metalloprotease L domain in the cytosol. This domain is linked to the rest of the molecule by a single interchain disulfide bridge that has to be reduced on the cytosolic side of the membrane to free its enzymatic activity. By using specific inhibitors of the various cytosolic protein disulfides reducing systems, we show here that the NADPH-thioredoxin reductase-thioredoxin redox system is the main responsible for this disulfide reduction. In addition, we indicate auranofin, as a possible basis for the design of novel inhibitors of these neurotoxins., (Copyright © 2012 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.)

Published

2013

36. Time course and temperature dependence of the membrane translocation of tetanus and botulinum neurotoxins C and D in neurons.

Author

Pirazzini M, Rossetto O, Bertasio C, Bordin F, Shone CC, Binz T, and Montecucco C

Subjects

Animals, Botulinum Toxins toxicity, Cells, Cultured, Hydrogen-Ion Concentration, Metalloendopeptidases toxicity, Neurons drug effects, Neurons metabolism, Protein Biosynthesis, Rats, Synaptosomal-Associated Protein 25 metabolism, Temperature, Tetanus Toxin toxicity, Time Factors, Botulinum Toxins metabolism, Cell Membrane enzymology, Metalloendopeptidases metabolism, Tetanus Toxin metabolism

Abstract

Tetanus and botulinum neurotoxins act inside nerve terminals and, therefore, they have to translocate across a membrane to reach their targets. This translocation is driven by a pH gradient, acidic on the cis side and neutral on the cytosol. Recently, a protocol to induce translocation from the plasma membrane was established. Here, we have used this approach to study the temperature dependence and time course of the entry of the L chain of tetanus neurotoxin and of botulinum neurotoxins type C and D across the plasma membrane of cerebellar granular neurons. The time course of translocation of the L chain varies for the three neurotoxins, but it remains in the range of minutes at 37 °C, whilst it takes much longer at 20 °C. BoNT/C does not enter neurons at 20 °C. Translocation also depends on the dimension of the pH gradient. These data are discussed with respect to the contribution of the membrane translocation step to the total time to paralysis and to the low toxicity of these neurotoxins in cold-blood vertebrates., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

37. Levetiracetam-loaded biodegradable polymer implants in the tetanus toxin model of temporal lobe epilepsy in rats.

Author

Halliday AJ, Campbell TE, Nelson TS, McLean KJ, Wallace GG, and Cook MJ

Subjects

Animals, Disease Models, Animal, Drug Delivery Systems methods, Electroencephalography, Epilepsy, Temporal Lobe chemically induced, Levetiracetam, Male, Neurotoxins toxicity, Piracetam administration & dosage, Polylactic Acid-Polyglycolic Acid Copolymer, Rats, Rats, Sprague-Dawley, Tetanus Toxin toxicity, Time Factors, Absorbable Implants, Anticonvulsants administration & dosage, Epilepsy, Temporal Lobe drug therapy, Lactic Acid administration & dosage, Piracetam analogs & derivatives, Polyglycolic Acid administration & dosage

Abstract

Approximately one-third of people with epilepsy receive insufficient benefit from currently available anticonvulsant medication, and some evidence suggests that this may be due to a lack of effective penetration into brain parenchyma. The current study investigated the ability of biodegradable polymer implants loaded with levetiracetam to ameliorate seizures following implantation above the motor cortex in the tetanus toxin model of temporal lobe epilepsy in rats. The implants led to significantly shorter seizures and a trend towards fewer seizures for up to 1 week. The results of this study indicate that drug-eluting polymer implants represent a promising evolving treatment option for intractable epilepsy. Future research is warranted to investigate issues of device longevity and implantation site., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

38. Focal neocortical epilepsy affects hippocampal volume, shape, and structural integrity: a longitudinal MRI and immunohistochemistry study in a rat model.

Author

Otte WM, Bielefeld P, Dijkhuizen RM, and Braun KP

Subjects

Animals, Calcium-Binding Proteins metabolism, Cell Count, Disease Models, Animal, Electroencephalography, Epilepsies, Partial chemically induced, Functional Laterality, Glial Fibrillary Acidic Protein metabolism, Imaging, Three-Dimensional, Longitudinal Studies, Magnetic Resonance Imaging, Male, Microfilament Proteins metabolism, Myelin Proteolipid Protein metabolism, Neuroglia metabolism, Neurons metabolism, Neurotoxins toxicity, Rats, Rats, Sprague-Dawley, Statistics, Nonparametric, Tetanus Toxin toxicity, Time Factors, Vimentin metabolism, Epilepsies, Partial metabolism, Epilepsies, Partial pathology, Hippocampus metabolism, Hippocampus pathology, Neuroglia pathology, Neurons pathology

Abstract

Purpose: Extratemporal epilepsy often coincides with cognitive decline, which may be associated with hippocampal dysfunction. Severe hippocampal sclerosis can be detected with conventional neuroimaging in some patients with chronic extrahippocampal epilepsy (so-called dual pathology). However, subtle structural hippocampal changes may already develop at a much earlier phase, and in a larger number of patients. Our goal was to longitudinally characterize the development of bilateral hippocampal pathology in an experimental neocortical focal epilepsy model., Methods: Focal unilateral neocortical epilepsy was induced by microinjection of tetanus toxin in the primary motor cortex in adult male Sprague-Dawley rats. Another group of age-matched rats served as controls. In both groups, structural magnetic resonance imaging (MRI) was performed at 1, 3, 7, and 10 weeks of follow-up. Bilateral hippocampi were outlined and macroscopically analyzed using a state-of-the-art point-based morphometry model. Hippocampal microstructural changes at the end of follow-up, 10 weeks after epilepsy induction, were assessed with postmortem standard cresyl-violet, Fluoro-Jade, proteolipid protein 1, vimentin, glial fibrillary acidic protein, and ionized calcium binding adaptor molecule 1 stainings., Key Findings: All rats in the injected group developed seizures. The ipsilateral hippocampal volume was on average 8.76 (mean) ± 3.32% (standard deviation) smaller in the epileptic animals as compared to controls (p = 0.01) during the 10 weeks of follow-up. The contralateral hippocampus showed a similar reduction of 8.49 (mean) ± 3.27% (standard deviation) in total volume (p = 0.02). Clear hippocampal shape differences were found between the two groups. The most affected areas after epilepsy induction were the bilateral dorso-mediorostral, dorsolateral, and ventrolateral areas of the hippocampi. Normal developmental shape changes of the hippocampus, as detected in control rats, were largely absent in the ipsilateral hippocampus of epileptic rats. Quantitative histologic analysis revealed significant neuronal loss in the hippocampus, most pronounced in the hilar subregion, globally impaired myelination, reactive astrocytosis, and activated microglia. We found a weak but significant correlation between the number of neurons and hippocampal volume (r = 0.25, p = 0.0025)., Significance: We found evidence of hippocampal pathology in both hemispheres following experimental focal neocortical epilepsy. The observed development of bilateral hippocampal pathology, with onset in the early stages of focal neocortical epilepsy, may be a significant factor in comorbidities, such as cognitive dysfunction, found in patients with extratemporal localization-related epilepsy., (Wiley Periodicals, Inc. © 2012 International League Against Epilepsy.)

Published

2012

39. Tetanus neurotoxin-induced epilepsy in mouse visual cortex.

Author

Mainardi M, Pietrasanta M, Vannini E, Rossetto O, and Caleo M

Subjects

Action Potentials drug effects, Action Potentials physiology, Animals, Calcium-Binding Proteins metabolism, Disease Models, Animal, Gene Expression Regulation drug effects, Mice, Mice, Inbred C57BL, Microfilament Proteins metabolism, Phosphopyruvate Hydratase metabolism, Time Factors, Vesicle-Associated Membrane Protein 2 metabolism, Visual Cortex drug effects, Visual Cortex metabolism, Epilepsy chemically induced, Epilepsy pathology, Neurotoxins toxicity, Tetanus Toxin toxicity, Visual Cortex physiopathology

Abstract

Tetanus neurotoxin (TeNT) is a metalloprotease that cleaves the synaptic protein VAMP/synaptobrevin, leading to focal epilepsy. Although this model is widely used in rats, the time course and spatial specificity of TeNT proteolytic action have not been precisely defined. Here we have studied the biochemical, electrographic, and anatomic characteristics of TeNT-induced epilepsy in mouse visual cortex (V1). We found that VAMP cleavage peaked at 10 days, was reduced at 21 days, and completely extinguished 45 days following TeNT delivery. VAMP proteolysis was restricted to the injected V1 and ipsilateral thalamus, whereas it was undetectable in other cortical areas. Electrographic epileptiform activity was evident both during and after the time window of TeNT effects, indicating development of chronic epilepsy. Anatomic analyses found no evidence for long-term tissue damage, such as neuronal loss or microglia activation. These data show that TeNT reliably induces nonlesional epilepsy in mouse cortex. Due to the excellent physiologic knowledge of the visual cortex and the availability of mouse transgenic strains, this model will be useful for examining the network and cellular alterations underlying hyperexcitability within an epileptic focus., (Wiley Periodicals, Inc. © 2012 International League Against Epilepsy.)

Published

2012

40. Gliosis in the mouse hippocampus without neuronal death after systemic administration of high dosage of tetanus toxin.

Author

Park SM, Yan BC, Park JH, Choi JH, Yoo KY, Lee CH, Baek YY, Kim YM, Kang IJ, and Won MH

Subjects

Animals, Cell Death drug effects, Cell Death physiology, Gliosis pathology, Hippocampus pathology, Injections, Intraperitoneal, Male, Mice, Mice, Inbred ICR, Microglia drug effects, Microglia pathology, Neurons pathology, Gliosis chemically induced, Hippocampus drug effects, Neurons drug effects, Tetanus Toxin administration & dosage, Tetanus Toxin toxicity

Abstract

Tetanus toxin (TeT), an exotoxin, has been studied to cause tetanus in mammalian brains, and it can block the release of some neurotransmitters and affect seizure propagation. In the present study, we investigated neuronal damage/death and glial changes in the mouse hippocampus after systemic administration (intraperitoneal injection) of TeT 10 and 100 ng/kg. In both the 10 and 100 ng/kg TeT-treated groups, no neuronal death occurred in any subregions of the mouse hippocampus until 24 h post-treatment; however, there were changes in glia in the hippocampus depending on time course and dosage. The morphology of GFAP-immunoreactive astrocytes and Iba-1-immunoreactive microglia was apparently changed in the 100 ng/kg TeT treated-group compared to the 10 ng/kg TeT treated-group. In the 100 ng/kg TeT treated-group, they were increased in size and their immunoreactivity was distinctively increased from 12 h post-treatment. We also found that their protein levels were increased in the hippocampus at 12 h post-treatment of 100 ng/kg TeT. In conclusion, these results indicate that the systemic administration of 100 ng/kg TeT induced a distinctive microglia changes in the mouse hippocampus without any neuronal death/damage.

Published

2012

41. Accurate quantification of tetanus neurotoxin-induced focal spasticity in mice using complex running wheels.

Author

Kutschenko A, Reinert MC, Klinker F, Paulus W, Hesse S, and Liebetanz D

Subjects

Analysis of Variance, Animals, Behavior, Animal drug effects, Biomechanical Phenomena, Dose-Response Relationship, Drug, Hindlimb physiology, Male, Mice, Mice, Inbred C57BL, Motor Neurons drug effects, Muscle Tonus drug effects, Muscle Tonus physiology, Muscle, Skeletal drug effects, Muscle, Skeletal physiopathology, Paralysis chemically induced, Paralysis physiopathology, Metalloendopeptidases toxicity, Muscle Spasticity chemically induced, Muscle Spasticity physiopathology, Running physiology, Tetanus Toxin toxicity

Abstract

Tetanus neurotoxin (TeNT) enhances activity of motoneurons by blocking spinal inhibitory interneurons. Based on this pathomechanism, we propose that low-dosage intramuscular injections of TeNT could serve as a specific treatment for central paretic muscles. However in vivo TeNT research is restricted because of the fear of triggering widespread muscle spasms. In addition, no reliable test to measure the in vivo toxicity of low-dosage TeNT is available. We introduce a novel wheel running-based paradigm with mice to quantify functional effects and thus the toxicity of low-dosage TeNT in vivo. We accustomed three groups of wildtype mice (n=14) to using a complex running wheel with irregularly spaced crossbars. Each group received an injection with a different low-dosage of TeNT (0.15 ng, 0.1 ng or 0.05 ng TeNT) into both tibialis anterior muscles. The maximum running velocity and accumulative running time of the groups were recorded during the following weeks. Three days after TeNT injections, the mice exhibited an increase in muscle tone of the injected tibialis anterior muscles but no generalized symptoms. However, we found that normal running in the complex wheel set-up was disturbed such that the maximum running velocity and running time of the mice decreased with the size of the dose. This effect peaked on the fifth and sixth nights after injection and returned to baseline level again within the next two weeks. With this novel in vivo automated paradigm we can accurately and objectively quantify the duration and degree of TeNT-induced focal increase in muscle tone., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

42. A conformational change of C fragment of tetanus neurotoxin reduces its ganglioside-binding activity but does not destroy its immunogenicity.

Author

Yu R, Yi S, Yu C, Fang T, Liu S, Yu T, Song X, Fu L, Hou L, and Chen W

Subjects

Animals, Antitoxins blood, Cell Line, Disulfides, Immunoglobulin G blood, Metalloendopeptidases chemistry, Metalloendopeptidases metabolism, Mice, Mice, Inbred BALB C, Protein Conformation, Rats, Survival Analysis, Tetanus prevention & control, Tetanus Toxin chemistry, Tetanus Toxin metabolism, Tetanus Toxoid chemistry, Tetanus Toxoid metabolism, Toxoids chemistry, Toxoids metabolism, Gangliosides metabolism, Metalloendopeptidases immunology, Metalloendopeptidases toxicity, Tetanus Toxin immunology, Tetanus Toxin toxicity, Tetanus Toxoid adverse effects, Tetanus Toxoid immunology, Toxoids immunology, Toxoids toxicity

Abstract

The C fragment of tetanus neurotoxin (TeNT-Hc) with different conformations was observed due to the four cysteine residues within it which could form different intramolecular disulfide bonds. In this study, we prepared and compared three types of monomeric TeNT-Hc with different conformational components: free sulfhydryls (50 kDa), bound sulfhydryls (44 kDa), and a mixture of the two conformational proteins (half 50 kDa and half 44 kDa). TeNT-Hc with bound sulfhydryls reduced its binding activity to ganglioside G(T1b) and neuronal PC-12 cells compared to what was seen for TeNT-Hc with free sulfhydryls. However, there was no significant difference among their immunogenicities in mice, including induction of antitetanus toxoid IgG titers, antibody types, and protective capacities against tetanus neurotoxin challenge. Our results showed that the conformational changes of TeNT-Hc resulting from disulfide bond formation reduced its ganglioside-binding activity but did not destroy its immunogenicity, and the protein still retained continuous B cell and T cell epitopes; that is, the presence of the ganglioside-binding site within TeNT-Hc may be not essential for the induction of a fully protective antitetanus response. TeNT-Hc with bound sulfhydryls may be developed into an ideal human vaccine with a lower potential for side effects.

Published

2011

43. Compositional optimization and safety assessment of a hydrogel patch as a transcutaneous immunization device.

Author

Matsuo K, Ishii Y, Quan YS, Kamiyama F, Asada H, Mukai Y, Okada N, and Nakagawa S

Subjects

Administration, Cutaneous, Animals, Antigens toxicity, Diphtheria Toxin administration & dosage, Diphtheria Toxin toxicity, Female, Humans, Hydrogel, Polyethylene Glycol Dimethacrylate toxicity, In Vitro Techniques, Male, Ovalbumin administration & dosage, Ovalbumin toxicity, Rats, Rats, Hairless, Rats, Wistar, Skin drug effects, Skin Tests, Tetanus Toxin administration & dosage, Tetanus Toxin toxicity, Antigens administration & dosage, Hydrogel, Polyethylene Glycol Dimethacrylate administration & dosage, Transdermal Patch adverse effects, Vaccination methods

Abstract

The development of a simple, easy-to-use, and non-invasive vaccination system is in high demand. For transcutaneous immunization (TCI), we previously developed a hydrogel patch formulation that accelerates the penetration of an antigen (Ag) through the stratum corneum (SC) and effectively elicits Ag-specific immune responses. The present studies were performed to optimize the composition and assess the safety of the patch formulation. A hydrogel patch with a water content ratio of 5% more effectively induced an immune response compared to patches with a different composition, suggesting that the moisture content of the hydrogel patch formulation has optimal ratio for SC hydration to promote Ag penetration through the SC. TCI using a hydrogel patch induced few local and systemic adverse reactions. Based on these results, we are now advancing translational research to evaluate the safety and efficacy of our novel TCI system in humans.

Published

2011

44. Spontaneous and evoked high-frequency oscillations in the tetanus toxin model of epilepsy.

Author

Rolston JD, Laxpati NG, Gutekunst CA, Potter SM, and Gross RE

Subjects

Animals, Electric Stimulation, Electrodes, Implanted, Epilepsy physiopathology, Fourier Analysis, Hippocampus physiopathology, Male, Microelectrodes, Rats, Rats, Sprague-Dawley, Signal Processing, Computer-Assisted, Disease Models, Animal, Electroencephalography drug effects, Epilepsy chemically induced, Evoked Potentials drug effects, Tetanus Toxin toxicity

Abstract

Purpose: High-frequency oscillations (HFOs) are an emerging biomarker for epileptic tissue. Yet the mechanism by which HFOs are produced is unknown, and their rarity makes them difficult to study. Our objective was to examine the occurrence of HFOs in relation to action potentials (APs) and the effect of microstimulation in the tetanus toxin (TT) model of epilepsy, a nonlesional model with a short latency to spontaneous seizures., Methods: Rats were injected with TT into dorsal hippocampus and implanted with a 16-channel (8 × 2) multielectrode array, one row each in CA3 and CA1. After onset of spontaneous seizures (3-9 days), recordings were begun of APs and local field potentials, analyzed for the occurrence of interictal spikes and HFOs. Recordings were made during microstimulation of each electrode using customized, open-source software., Results: Population bursts of APs during interictal spikes were phase-locked with HFOs, which were observable almost exclusively with high-amplitude interictal spikes. Furthermore, HFOs could reliably be produced by microstimulation of the hippocampus, providing evidence that these oscillations can be controlled temporally by external means., Discussion: We show for the first time the occurrence of HFOs in the TT epilepsy model, an attractive preparation for their experimental investigation and, importantly, one with a different etiology than that of status models, providing further evidence of the generality of HFOs. The ability to provoke HFOs with microstimulation may prove useful for better understanding of HFOs by directly evoking them in the lab, and designing high-throughput techniques for presurgical localization of the epileptic focus., (Wiley Periodicals, Inc. © 2010 International League Against Epilepsy.)

Published

2010

45. Increased seizure susceptibility and up-regulation of nNOS expression in hippocampus following recurrent early-life seizures in rats.

Author

Kim DK

Subjects

Animals, Animals, Newborn, Disease Models, Animal, Disease Susceptibility, Electrodes, Implanted, Electroencephalography, Immunoblotting, Nitric Oxide Synthase Type I analysis, Rats, Rats, Wistar, Recurrence, Seizures chemically induced, Tetanus Toxin toxicity, Time Factors, Up-Regulation, Hippocampus enzymology, Nitric Oxide Synthase Type I metabolism, Seizures enzymology

Abstract

This study aimed to determine the long-term change of seizure susceptibility and the role of nNOS on brain development following recurrent early-life seizures in rats. Video-EEG recordings were conducted between postnatal days 50 and 60. Alterations in seizure susceptibility were assayed on day 22 or 50 using the flurothyl method. Changes in nNOS expression were determined by quantitative immunoblotting on day 50. On average, rats had 8.4+/-2.7 seizures during 10 daily 1 hr behavioral monitoring sessions. As adults (days 50-60), all rats displayed interictal spikes in the hippocampus and/or overlying cortex. Brief electrographic seizures were recorded in only one of five animals. Rats appeared to progress from a period of marked seizure susceptibility (day 22) to one of lessened seizure susceptibility (day 50). Up-regulation of nNOS expression following early-life recurrent seizures was observed on day 50. In conclusion, these data suggested that recurrent early-life seizures had the long-term effects on seizure susceptibility late in life and up-regulatory nNOS expression on the hippocampus during brain development, and nNOS appeared to contribute to the persistent changes in seizure susceptibility, and epileptogenesis.

Published

2010

46. In vitro determination of tetanus toxicity by an endopeptidase assay linked to a ganglioside-binding step.

Author

Behrensdorf-Nicol HA, Bonifas U, Kegel B, Silberbach K, Krämer B, and Weisser K

Subjects

Animals, Dose-Response Relationship, Drug, Indicators and Reagents, Mice, R-SNARE Proteins metabolism, Tetanus Toxoid toxicity, Endopeptidases metabolism, Gangliosides metabolism, Tetanus Toxin toxicity

Abstract

Assays for the detection of tetanus neurotoxin (TeNT) are relevant for research applications as well as for the safety testing of tetanus vaccines. So far, these assays are usually performed as toxicity tests in guinea pigs or mice. The alternative methods described to date were mostly based on the detection of the toxin's proteolytic activity. However, these endopeptidase assays turned out to be unreliable because they only measure the enzymatic activity as sole determinant of tetanus toxicity, while not taking into account other parameters like the toxin's capacity to bind to target cells. In order to better reflect the in vivo situation of a tetanus infection, we have linked an endopeptidase assay to a ganglioside-binding step. The resulting method, which offers a unique combination of two functionally linked assays, detects those TeNT molecules only which possess both a functional binding domain as well as an active enzymatic domain. Our results demonstrate that this assay is able to reliably detect TeNT, and therefore might provide a basis for the replacement of the animal tests for detection of tetanus toxicity. Moreover, the assay concept could also be useful for in vitro toxicity measurements of other toxins with similar subunit structures., (Copyright (c) 2010 Elsevier Ltd. All rights reserved.)

Published

2010

47. Subcellular localization of the carbohydrate Lewis(x) adhesion structure in hippocampus cell cultures.

Author

Brito C, Danglot L, Galli T, and Costa J

Subjects

Animals, Cell Adhesion physiology, Cell Compartmentation physiology, Cell Differentiation physiology, Cells, Cultured, Glycoproteins biosynthesis, Glycoproteins chemistry, Glycoproteins metabolism, Hippocampus embryology, Hippocampus metabolism, Lewis Blood Group Antigens biosynthesis, Lewis Blood Group Antigens chemistry, Lewis X Antigen biosynthesis, Lewis X Antigen chemistry, Neurites chemistry, Neurites metabolism, Neurites ultrastructure, R-SNARE Proteins biosynthesis, R-SNARE Proteins chemistry, R-SNARE Proteins metabolism, Rats, Rats, Sprague-Dawley, Sialyl Lewis X Antigen, Subcellular Fractions chemistry, Subcellular Fractions metabolism, Tetanus Toxin metabolism, Tetanus Toxin toxicity, Hippocampus chemistry, Hippocampus cytology, Lewis Blood Group Antigens metabolism, Lewis X Antigen metabolism

Abstract

The Lewis(x) (Le(x)) epitope (Gal(beta1-4)[Fuc(alpha1-3)]GlcNAc-R) has been associated with the development of the central nervous system of diverse species including human and rodents. In this work, Le(x) has been found in the tetanus neurotoxin insensitive vesicle-associated membrane protein (TI-VAMP) compartment of rat hippocampus neurons in culture, at 7 days in vitro (DIV), when neurite extension is abundant. The TI-VAMP compartment is known to be associated with neurite outgrowth. Le(x) was found predominantly in neurites but also in somata and in growth cones. Abundant Le(x)-carrier glycoproteins specific to neurons have been identified at this stage of differentiation. At a later stage of differentiation, at 14 DIV, Le(x) appeared in extrasynaptic sites of GABAergic neurons, and in synaptic sites of glutamatergic neurons.

Published

2009

48. Residual enzymatic activity of the tetanus toxin light chain present in tetanus toxoid batches used for vaccine production.

Author

Behrensdorf-Nicol HA, Kegel B, Bonifas U, Silberbach K, Klimek J, Weiber K, and Krämer B

Subjects

Animals, Blotting, Western, Spectrophotometry, Tetanus Toxin metabolism, Tetanus Toxin toxicity, Peptide Hydrolases metabolism, Peptide Hydrolases toxicity, Tetanus Toxoid metabolism, Tetanus Toxoid toxicity

Abstract

The light chain of tetanus neurotoxin (TeNT) is a zinc-dependent metalloprotease which specifically cleaves the synaptic vesicle protein synaptobrevin. This crucial mechanism of tetanus toxicity leads to a blockade of inhibitory neurotransmitter release. We recently reported the development of a highly sensitive endopeptidase assay for the specific in vitro detection of active TeNT based on this proteolytic feature. Using this method, we could show that formaldehyde-inactivated TeNT preparations (toxoids), which are used for the production of tetanus vaccines, contain a high residual synaptobrevin-cleaving activity. Such an activity was detected in numerous tetanus toxoid batches obtained from several vaccine manufacturers which did not display any in vivo toxicity in the obligatory animal tests. The enzymatic activity could be attributed to the presence of free TeNT light chains whose function had not been restrained by the formaldehyde treatment, but which lack the functional heavy chain necessary for entering neurons in vivo. To our knowledge, this is the first report describing a residual proteolytic activity in tetanus toxoids.

Published

2008

49. Current concepts in the management of Clostridium tetani infection.

Author

Brook I

Subjects

Adult, Clostridium tetani metabolism, Humans, Immunization, Infant, Infant, Newborn, Metalloendopeptidases immunology, Metalloendopeptidases toxicity, Tetanus microbiology, Tetanus physiopathology, Tetanus Toxin immunology, Tetanus Toxin toxicity, Tetanus Toxoid administration & dosage, Clostridium tetani pathogenicity, Tetanus prevention & control, Tetanus therapy

Abstract

This review summarizes the microbiology, management and prevention of tetanus. Tetanus is an acute toxemic illness caused by Clostridium tetani infection at a laceration or break in the skin. It can also occur as a complication of burns, puerperal infections, umbilical stumps (tetanus neonatorum) and surgical-site infection. Tetanus is an intoxication, manifested mostly by neuromuscular dysfunction, caused by tetanal exotoxin (tetanospasmin), a potent exotoxin produced by C. tetani. It starts with tonic spasms of the skeletal muscles and is followed by paroxysmal contractions. The muscle stiffness initially involves the jaw (lockjaw) and neck and later becomes generalized. Treatment goals include interrupting the production of toxin, neutralizating the unbound toxin, controlling muscle spasms, managing dysautonomia and appropriate supportive management. Specific therapy includes intramuscular administration of tetanus immunoglobulin to neutralize circulating toxin before it binds to neuronal cell membranes. The disease can be prevented by immunization with tetanal toxoid and appropriate wound care.

Published

2008

50. Mesial temporal lobe epilepsy: pathogenesis, induced rodent models and lesions.

Author

Sharma AK, Reams RY, Jordan WH, Miller MA, Thacker HL, and Snyder PW

Subjects

Animals, Electric Stimulation, Epilepsy, Temporal Lobe pathology, Fever complications, Hippocampus pathology, Hypoxia complications, Kainic Acid toxicity, Kindling, Neurologic, Pilocarpine toxicity, Rats, Recurrence, Seizures classification, Tetanus Toxin toxicity, Disease Models, Animal, Epilepsy, Temporal Lobe etiology

Abstract

Mesial temporal lobe epilepsy (MTLE), the most common epilepsy in adults, is generally intractable and is suspected to be the result of recurrent excitation or inhibition circuitry. Recurrent excitation and the development of seizures have been associated with aberrant mossy fiber sprouting in the hippocampus. Of the animal models developed to investigate the pathogenesis of MTLE, post-status epilepticus models have received the greatest acceptance because they are characterized by a latency period, the development of spontaneous motor seizures, and a spectrum of lesions like those of MTLE. Among post-status epilepticus models, induction of systemic kainic acid or pilocarpine-induced epilepsy is less labor-intensive than electrical-stimulation models and these models mirror the clinicopathologic features of MTLE more closely than do kindling, tetanus toxin, hyperthermia, post-traumatic, and perinatal hypoxia/ischemia models. Unfortunately, spontaneous motor seizures do not develop in kindling or adult hyperthermia models and are not a consistent finding in tetanus toxin-induced or perinatal hypoxia/ischemia models. This review presents the mechanistic hypotheses for seizure induction, means of model induction, and associated pathology, especially as compared to MTLE patients. Animal models are valuable tools not only to study the pathogenesis of MTLE, but also to evaluate potential antiepileptogenic drugs.

Published

2007