WONOEP appraisal: Biomarkers of epilepsy‐associated comorbidities

Ravizza, Teresa; Onat, Filiz; Brooks‐Kayal, Amy R.; Depaulis, Antoine; Galanopoulou, Aristea S.; Mazarati, Andréy; Numis, Adam L.; Sankar, Raman; Friedman, Alon

doi:10.1111/epi.13652

Cited by 47 publications

(29 citation statements)

References 80 publications

(187 reference statements)

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“…Breathing pattern was investigated at P100 using plethysmography and revealed no difference between heterozygous knock‐in and WT animals for all measured parameters (mean frequency, hyperventilation, apnea, tidal volume, and respiratory rate; n = 10 Kcnq2 +/+ mice and n = 11 K cnq2 Thr274Met/+ mice; Figure ). We also investigated the presence of stereotypies in the two groups using the marble‐burying test because of the unusual rate of stereotypy in patients with epilepsies 12,13. The test quantifies repetitive and perseverating behavior.…”

Section: Resultsmentioning

confidence: 99%

A knock‐in mouse model for KCNQ2‐related epileptic encephalopathy displays spontaneous generalized seizures and cognitive impairment

et al. 2020

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This is an open access article under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made. AbstractObjective: Early onset epileptic encephalopathy with suppression-burst is one of the most severe epilepsy phenotypes in human patients. A significant proportion of cases have a genetic origin, and the most frequently mutated gene is KCNQ2, encoding Kv7.2, a voltage-dependent potassium channel subunit, leading to so-called KCNQ2related epileptic encephalopathy (KCNQ2-REE). To study the pathophysiology of KCNQ2-REE in detail and to provide a relevant preclinical model, we generated and described a knock-in mouse model carrying the recurrent p.(Thr274Met) variant. Methods: We introduced the p.(Thr274Met) variant by homologous recombination in embryonic stem cells, injected into C57Bl/6N blastocysts and implanted in pseudopregnant mice. Mice were then bred with 129Sv Cre-deleter to generate heterozygous mice carrying the p.(Thr274Met), and animals were maintained on the 129Sv genetic background. We studied the development of this new model and performed in vivo electroencephalographic (EEG) recordings, neuroanatomical studies at different time points, and multiple behavioral tests. Results: The Kcnq2 Thr274Met/+ mice are viable and display generalized spontaneous seizures first observed between postnatal day 20 (P20) and P30. In vivo EEG recordings show that the paroxysmal events observed macroscopically are epileptic seizures. The brain of the Kcnq2 Thr274Met/+ animals does not display major structural defects, similar to humans, and their body weight is normal. Kcnq2 Thr274Met/+ mice have a reduced life span, with a peak of unexpected death occurring for 25% of the animals by 3 months of age. Epileptic seizures were generally not observed when animals grew older. Behavioral characterization reveals important deficits in spatial learning and memory in adults but no gross abnormality during early neurosensory development. | 869 MILH et aL.

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Section: Resultsmentioning

confidence: 99%

A knock‐in mouse model for KCNQ2‐related epileptic encephalopathy displays spontaneous generalized seizures and cognitive impairment

et al. 2020

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“…In addition, endothelial cells displayed marked ADK immunoreactivity ( Figure 1H) within the damaged hemosphere. associated with epilepsy are crucial to improve the quality of life in patients with epilepsy [7].…”

Section: Overexpression Of Adk In Rementioning

confidence: 99%

“…Therefore, treatment of comorbidity associated with epilepsy could contribute to the therapeutic effect of epilepsy and improve the quality of life. More than one third of patients with epilepsy are pharmacoresistant [2][3][4], and apart from those who are candidates for resective surgery, most patients will continue to suffer recurrent seizures and comorbidities comprising of neurologic, cognitive and psychiatric symptoms [5][6][7][8]. Therefore, novel solid biomarkers for the prediction, diagnosis, and treatment of epilepsy and comorbidities Review Tianfu Li pathological hallmark in patients with pharmacoresistant epilepsy caused by a wide range of neurodegenerative conditions [14].…”

Section: Introductionmentioning

confidence: 99%

Adenosine Kinase, a Common Pathologic Biomarker for Human Pharmacoresistant Epilepsy

chen¹,

He²,

Li³

2018

Neuropsychiatry

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Adenosine kinase (ADK) is the chief adenosine removing enzyme in the brain. Experimental research has highlighted that ADK is a diagnostic and a therapeutic marker for epilepsy. Clinical research from patients with pharmacoresistant epilepsy also indicated that maladaptive changes of ADK lead to recurrent seizures in human chronic epilepsy, including Rasmussen encephalitis, focal cortical dysplasia, mesial temporal lobe epilepsy and Sturge-Weber syndrome. In addition, a subpopulation of remaining neurons demonstrated a revertant fetal expression pattern within the lesions are increasing, indicating that the early stage of developmental microenvironment alteration may impair the temporal transient expression pattern of neuronal ADK from fetal to postnatal brains. Increasing levels of ADK expression and adenosine deficiency caused by high levels of ADK played a crucial role in pharmacoresistant epilepsy and epilepsy associated comorbidities. Dysfunction of adenosine system may be a common pathologic hallmark of human pharmacoresistant epilepsy, which suggested the specific targets in the treatment of epilepsy, comorbidities associated with epilepsy in the patients. Future studies will undoubtedly seek to find the novel therapies targeting on ADK and to uncover the mechanism responsible for these future epilepsy therapies.

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“…Besides severity assessment, the data generated in the different epilepsy animal models can be used to gain further insight into psychiatric comorbidities of epilepsy and the respective face validity of different animal models. Studies have demonstrated the existence of psychiatric comorbidities in patients, with matching behavioral alterations seen in rodent epilepsy models . However, previous findings were not always consistent and robust, so that a comprehensive analysis of behavioral alterations in different epilepsy models under identical conditions is of particular interest.…”

Section: Introductionmentioning

confidence: 99%

“…Studies have demonstrated the existence of psychiatric comorbidities in patients, with matching behavioral alterations seen in rodent epilepsy models. [13][14][15] However, previous findings were not always consistent and robust, [16][17][18] so that a comprehensive analysis of behavioral alterations in different epilepsy models under identical conditions is of particular interest.…”

Section: Introductionmentioning

confidence: 99%

Toward evidence‐based severity assessment in rat models with repeated seizures: III. Electrical post‐status epilepticus model

et al. 2019

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Objective Ethical approval of experiments in chronic epilepsy models requires a careful balancing of the expected gain‐in‐knowledge with the level of distress. Thus recommendations for evidence‐based severity assessment and classification are urgently needed for preclinical epilepsy research. Methods Therefore, we have completed a comprehensive analysis of alterations in behavioral, biochemical, and physiological parameters in a rat electrical post‐status epilepticus model. Selected parameters were repeatedly analyzed during different experimental phases to obtain information about the level of distress throughout the course of the model. Results Behavioral patterns comprised an increase in activity along with a reduction in risk assessment behavior, active social interaction, saccharin preference as well as nonessential, but evolutionary‐determined behavior such as nest building and burrowing. Among the biochemical parameters, fecal corticosterone metabolites proved to be increased in different phases of the experiment. In the early post‐insult phase, this increase was reflected by elevated serum corticosterone concentrations. Telemetric recordings demonstrated increases in home cage activity and heart rate in selected experimental phases but argued against relevant changes in heart rate variability. Comparison between animals with tethered or telemetric recordings including a principal component analysis revealed differences between both groups. Significance The present findings further confirm that burrowing behavior and saccharin preference might serve as valid parameters for severity assessment in chronic epilepsy models. Considering the course of alterations providing evidence for a more pronounced level of distress in the early phase following status epilepticus (SE), we suggest a classification of the electrical post‐SE model as severe. This suggestion may serve as a guidance for laboratory‐specific evaluations. Comparison between data from animals with tethered and telemetric recordings indicated an impact of the mode of recordings. However, further research is necessary to analyze the validity of telemetry as a putative refinement measure.

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WONOEP appraisal: Biomarkers of epilepsy‐associated comorbidities

Cited by 47 publications

References 80 publications

A knock‐in mouse model for KCNQ2‐related epileptic encephalopathy displays spontaneous generalized seizures and cognitive impairment

A knock‐in mouse model for KCNQ2‐related epileptic encephalopathy displays spontaneous generalized seizures and cognitive impairment

Adenosine Kinase, a Common Pathologic Biomarker for Human Pharmacoresistant Epilepsy

Toward evidence‐based severity assessment in rat models with repeated seizures: III. Electrical post‐status epilepticus model

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