1.Exploring the Validity of Valproic Acid Animal Model of Autism.
Darine Froy N MABUNGA ; Edson Luck T GONZALES ; Ji Woon KIM ; Ki Chan KIM ; Chan Young SHIN
Experimental Neurobiology 2015;24(4):285-300
The valproic acid (VPA) animal model of autism spectrum disorder (ASD) is one of the most widely used animal model in the field. Like any other disease models, it can't model the totality of the features seen in autism. Then, is it valid to model autism? This model demonstrates many of the structural and behavioral features that can be observed in individuals with autism. These similarities enable the model to define relevant pathways of developmental dysregulation resulting from environmental manipulation. The uncovering of these complex pathways resulted to the growing pool of potential therapeutic candidates addressing the core symptoms of ASD. Here, we summarize the validity points of VPA that may or may not qualify it as a valid animal model of ASD.
Animals*
;
Autistic Disorder*
;
Child
;
Models, Animal*
;
Valproic Acid*
;
Autism Spectrum Disorder
2.Erratum: Valproic Acid Induces Telomerase Reverse Transcriptase Expression during Cortical Development.
Ki Chan KIM ; Chang Soon CHOI ; Edson Luck T GONZALES ; Darine Froy N MABUNGA ; Sung Hoon LEE ; Se Jin JEON ; Ram HWANGBO ; Minha HONG ; Jong Hoon RYU ; Seol Heui HAN ; Geon Ho BAHN ; Chan Young SHIN
Experimental Neurobiology 2017;26(6):399-399
In the ‘Acknowledgements’ section on page 263 of the original article, the grant number was incorrectly stated.
3.Treatment of GABA from Fermented Rice Germ Ameliorates Caffeine-Induced Sleep Disturbance in Mice.
Darine Froy N MABUNGA ; Edson Luck T GONZALES ; Hee Jin KIM ; Se Young CHOUNG
Biomolecules & Therapeutics 2015;23(3):268-274
gamma-Aminobutyric acid (GABA), a major inhibitory neurotransmitter in the mammalian central nervous system, is involved in sleep physiology. Caffeine is widely used psychoactive substance known to induce wakefulness and insomnia to its consumers. This study was performed to examine whether GABA extracts from fermented rice germ ameliorates caffeine-induced sleep disturbance in mice, without affecting spontaneous locomotor activity and motor coordination. Indeed, caffeine (10 mg/kg, i.p.) delayed sleep onset and reduced sleep duration of mice. Conversely, rice germ ferment extracts-GABA treatment (10, 30, or 100 mg/kg, p.o.), especially at 100 mg/kg, normalized the sleep disturbance induced by caffeine. In locomotor tests, rice germ ferment extracts-GABA slightly but not significantly reduced the caffeine-induced increase in locomotor activity without affecting motor coordination. Additionally, rice germ ferment extracts-GABA per se did not affect the spontaneous locomotor activity and motor coordination of mice. In conclusion, rice germ ferment extracts-GABA supplementation can counter the sleep disturbance induced by caffeine, without affecting the general locomotor activities of mice.
Animals
;
Anxiety
;
Caffeine
;
Central Nervous System
;
gamma-Aminobutyric Acid*
;
Mice*
;
Motor Activity
;
Neurotransmitter Agents
;
Physiology
;
Sleep Initiation and Maintenance Disorders
;
Wakefulness
4.Sex-specific Behavioral Features of Rodent Models of Autism Spectrum Disorder.
Se Jin JEON ; Edson Luck GONZALES ; Darine Froy N MABUNGA ; Schley T VALENCIA ; Do Gyeong KIM ; Yujeong KIM ; Keremkleroo Jym L ADIL ; Dongpil SHIN ; Donghyun PARK ; Chan Young SHIN
Experimental Neurobiology 2018;27(5):321-343
Sex is an important factor in understanding the clinical presentation, management, and developmental trajectory of children with neuropsychiatric disorders. While much is known about the clinical and neurobehavioral profiles of males with neuropsychiatric disorders, surprisingly little is known about females in this respect. Animal models may provide detailed mechanistic information about sex differences in autism spectrum disorder (ASD) in terms of manifestation, disease progression, and development of therapeutic options. This review aims to widen our understanding of the role of sex in autism spectrum disorder, by summarizing and comparing behavioral characteristics of animal models. Our current understanding of how differences emerge in boys and girls with neuropsychiatric disorders is limited: Information derived from animal studies will stimulate future research on the role of biological maturation rates, sex hormones, sex-selective protective (or aggravating) factors and psychosocial factors, which are essential to devise sex precision medicine and to improve diagnostic accuracy. Moreover, there is a strong need of novel strategies to elucidate the major mechanisms leading to sex-specific autism features, as well as novel models or methods to examine these sex differences.
Animals
;
Autism Spectrum Disorder*
;
Autistic Disorder*
;
Child
;
Disease Progression
;
Female
;
Gonadal Steroid Hormones
;
Humans
;
Male
;
Models, Animal
;
Precision Medicine
;
Psychology
;
Rodentia*
;
Sex Characteristics
5.Effects of Intraperitoneal N-methyl-D-aspartate (NMDA) Administration on Nociceptive/Repetitive Behaviors in Juvenile Mice
Seonmin KIM ; Do Gyeong KIM ; Edson luck GONZALES ; Darine Froy N MABUNGA ; Dongpil SHIN ; Se Jin JEON ; Chan Young SHIN ; TaeJin AHN ; Kyoung Ja KWON
Biomolecules & Therapeutics 2019;27(2):168-177
Dysregulation of excitatory neurotransmission has been implicated in the pathogenesis of neuropsychiatric disorders. Pharmacological inhibition of N-methyl-D-aspartate (NMDA) receptors is widely used to model neurobehavioral pathologies and underlying mechanisms. There is ample evidence that overstimulation of NMDA-dependent neurotransmission may induce neurobehavioral abnormalities, such as repetitive behaviors and hypersensitization to nociception and cognitive disruption, pharmacological modeling using NMDA has been limited due to the induction of neurotoxicity and blood brain barrier breakdown, especially in young animals. In this study, we examined the effects of intraperitoneal NMDA-administration on nociceptive and repetitive behaviors in ICR mice. Intraperitoneal injection of NMDA induced repetitive grooming and tail biting/licking behaviors in a dose- and age-dependent manner. Nociceptive and repetitive behaviors were more prominent in juvenile mice than adult mice. We did not observe extensive blood brain barrier breakdown or neuronal cell death after peritoneal injection of NMDA, indicating limited neurotoxic effects despite a significant increase in NMDA concentration in the cerebrospinal fluid. These findings suggest that the observed behavioral changes were not mediated by general NMDA toxicity. In the hot plate test, we found that the latency of paw licking and jumping decreased in the NMDA-exposed mice especially in the 75 mg/kg group, suggesting increased nociceptive sensitivity in NMDA-treated animals. Repetitive behaviors and increased pain sensitivity are often comorbid in psychiatric disorders (e.g., autism spectrum disorder). Therefore, the behavioral characteristics of intraperitoneal NMDA-administered mice described herein may be valuable for studying the mechanisms underlying relevant disorders and screening candidate therapeutic molecules.
Adult
;
Animals
;
Autistic Disorder
;
Blood-Brain Barrier
;
Cell Death
;
Cerebrospinal Fluid
;
Grooming
;
Humans
;
Injections, Intraperitoneal
;
Mass Screening
;
Mice
;
Mice, Inbred ICR
;
N-Methylaspartate
;
Neurons
;
Nociception
;
Pathology
;
Synaptic Transmission
;
Tail
6.Recapitulation of Neuropsychiatric Behavioral Features in Mice Using Acute Low-dose MK-801 Administration
Darine Froy N MABUNGA ; Donghyun PARK ; Onjeon RYU ; Schley T VALENCIA ; Keremkleroo Jym L ADIL ; Seonmin KIM ; Kyoung Ja KWON ; Chan Young SHIN ; Se Jin JEON
Experimental Neurobiology 2019;28(6):697-708
Despite some innate limitations, animal models are a potent investigative tool when used to model specific symptoms of a disorder. For example, MK-801, an N-methyl-D-aspartate receptor antagonist, is used as a pharmacological tool to induce symptoms found in some neuropsychiatric disorders. However, a close examination of literature suggests that the application window of MK-801 doses is relatively narrow between individual behavioral paradigms, necessitating careful characterization of the evoked behavioral aberrations and the doses used to induce them. Moreover, variation in behaviors depending on the animal strain, gender of the subject, and the timing of administration is observed, making it difficult to compare the behavioral characteristics reported in different studies. We aim to characterize the behavioral aberrations induced by different doses of MK-801 in CD-1 mice and create a ready reference for future studies. We used CD-1 mice to recapitulate behavioral impairments resulting from acute administration of MK-801. In 0.1 mg kg⁻¹, we observed diminished spontaneous alteration during the Y-maze test, while 0.12 mg kg⁻¹ resulted in hyperlocomotion and social deficit. Mice treated with 0.2 and 0.3 mg kg⁻¹ of MK-801 demonstrated a decreased self-grooming. Finally, all doses significantly impaired cliff avoidance behaviors suggesting increased impulsivity. These results affirm that MK-801 can effectively model various symptoms of different neuropsychiatric disorders in a dose-dependent manner. The observed sensitivity against spatial-memory impairment and impulsive behaviors at low concentration of MK-801 suggest that MK801 may modulate cognitive function and impulsivity in even lower concentration before it can modulate other behavioral domains.
Animals
;
Avoidance Learning
;
Cognition
;
Dizocilpine Maleate
;
Impulsive Behavior
;
Mice
;
Models, Animal
;
N-Methylaspartate
7.Sex Differences in Autism-Like Behavioral Phenotypes and Postsynaptic Receptors Expression in the Prefrontal Cortex of TERT Transgenic Mice.
Ki Chan KIM ; Kyu Suk CHO ; Sung Min YANG ; Edson Luck GONZALES ; Schley VALENCIA ; Pyeong Hwa EUN ; Chang Soon CHOI ; Darine Froy MABUNGA ; Ji Woon KIM ; Judy Kyoungju NOH ; Hee Jin KIM ; Se Jin JEON ; Seol Heui HAN ; Geon Ho BAHN ; Chan Young SHIN
Biomolecules & Therapeutics 2017;25(4):374-382
Autism spectrum disorder (ASD) remains unexplained and untreated despite the high attention of research in recent years. Aside from its various characteristics is the baffling male preponderance over the female population. Using a validated animal model of ASD which is the telomerase reverse transcriptase overexpressing mice (TERT-tg), we conducted ASD-related behavioral assessments and protein expression experiments to mark the difference between male and females of this animal model. After statistically analyzing the results, we found significant effects of TERT overexpression in sociability, social novelty preference, anxiety, nest building, and electroseizure threshold in the males but not their female littermates. Along these differences are the male-specific increased expressions of postsynaptic proteins which are the NMDA and AMPA receptors in the prefrontal cortex. The vGluT1 presynaptic proteins, but not GAD, were upregulated in both sexes of TERT-tg mice, although it is more significantly pronounced in the male group. Here, we confirmed that the behavioral effect of TERT overexpression in mice was male-specific, suggesting that the aberration of this gene and its downstream pathways preferentially affect the functional development of the male brain, consistent with the male preponderance in ASD.
Animals
;
Anxiety
;
Autism Spectrum Disorder
;
Brain
;
Female
;
Humans
;
Male
;
Mice
;
Mice, Transgenic*
;
Models, Animal
;
N-Methylaspartate
;
Phenotype*
;
Prefrontal Cortex*
;
Receptors, AMPA
;
Sex Characteristics*
;
Synapses
;
Telomerase
8.Sex Differences in Autism-Like Behavioral Phenotypes and Postsynaptic Receptors Expression in the Prefrontal Cortex of TERT Transgenic Mice.
Ki Chan KIM ; Kyu Suk CHO ; Sung Min YANG ; Edson Luck GONZALES ; Schley VALENCIA ; Pyeong Hwa EUN ; Chang Soon CHOI ; Darine Froy MABUNGA ; Ji Woon KIM ; Judy Kyoungju NOH ; Hee Jin KIM ; Se Jin JEON ; Seol Heui HAN ; Geon Ho BAHN ; Chan Young SHIN
Biomolecules & Therapeutics 2017;25(4):374-382
Autism spectrum disorder (ASD) remains unexplained and untreated despite the high attention of research in recent years. Aside from its various characteristics is the baffling male preponderance over the female population. Using a validated animal model of ASD which is the telomerase reverse transcriptase overexpressing mice (TERT-tg), we conducted ASD-related behavioral assessments and protein expression experiments to mark the difference between male and females of this animal model. After statistically analyzing the results, we found significant effects of TERT overexpression in sociability, social novelty preference, anxiety, nest building, and electroseizure threshold in the males but not their female littermates. Along these differences are the male-specific increased expressions of postsynaptic proteins which are the NMDA and AMPA receptors in the prefrontal cortex. The vGluT1 presynaptic proteins, but not GAD, were upregulated in both sexes of TERT-tg mice, although it is more significantly pronounced in the male group. Here, we confirmed that the behavioral effect of TERT overexpression in mice was male-specific, suggesting that the aberration of this gene and its downstream pathways preferentially affect the functional development of the male brain, consistent with the male preponderance in ASD.
Animals
;
Anxiety
;
Autism Spectrum Disorder
;
Brain
;
Female
;
Humans
;
Male
;
Mice
;
Mice, Transgenic*
;
Models, Animal
;
N-Methylaspartate
;
Phenotype*
;
Prefrontal Cortex*
;
Receptors, AMPA
;
Sex Characteristics*
;
Synapses
;
Telomerase
9.Valproic Acid Induces Telomerase Reverse Transcriptase Expression during Cortical Development.
Ki Chan KIM ; Chang Soon CHOI ; Edson Luck T GONZALES ; Darine Froy N MABUNGA ; Sung Hoon LEE ; Se Jin JEON ; Ram HWANGBO ; Minha HONG ; Jong Hoon RYU ; Seol Heui HAN ; Geon Ho BAHN ; Chan Young SHIN
Experimental Neurobiology 2017;26(5):252-265
The valproic acid (VPA)-induced animal model is one of the most widely utilized environmental risk factor models of autism. Autism spectrum disorder (ASD) remains an insurmountable challenge among neurodevelopmental disorders due to its heterogeneity, unresolved pathological pathways and lack of treatment. We previously reported that VPA-exposed rats and cultured rat primary neurons have increased Pax6 expression during post-midterm embryonic development which led to the sequential upregulation of glutamatergic neuronal markers. In this study, we provide experimental evidence that telomerase reverse transcriptase (TERT), a protein component of ribonucleoproteins complex of telomerase, is involved in the abnormal components caused by VPA in addition to Pax6 and its downstream signals. In embryonic rat brains and cultured rat primary neural progenitor cells (NPCs), VPA induced the increased expression of TERT as revealed by Western blot, RT-PCR, and immunostainings. The HDAC inhibitor property of VPA is responsible for the TERT upregulation. Chromatin immunoprecipitation revealed that VPA increased the histone acetylation but blocked the HDAC1 binding to both Pax6 and Tert genes. Interestingly, the VPA-induced TERT overexpression resulted to sequential upregulations of glutamatergic markers such as Ngn2 and NeuroD1, and inter-synaptic markers such as PSD-95, α-CaMKII, vGluT1 and synaptophysin. Transfection of Tert siRNA reversed the effects of VPA in cultured NPCs confirming the direct involvement of TERT in the expression of those markers. This study suggests the involvement of TERT in the VPA-induced autistic phenotypes and has important implications for the role of TERT as a modulator of balanced neuronal development and transmission in the brain.
Acetylation
;
Animals
;
Autism Spectrum Disorder
;
Autistic Disorder
;
Blotting, Western
;
Brain
;
Chromatin Immunoprecipitation
;
Embryonic Development
;
Female
;
Histones
;
Models, Animal
;
Neurodevelopmental Disorders
;
Neurons
;
Phenotype
;
Population Characteristics
;
Pregnancy
;
Rats
;
Ribonucleoproteins
;
Risk Factors
;
RNA, Small Interfering
;
Stem Cells
;
Synaptophysin
;
Telomerase*
;
Transfection
;
Up-Regulation
;
Valproic Acid*
10.Repeated Neonatal Propofol Administration Induces Sex-Dependent Long-Term Impairments on Spatial and Recognition Memory in Rats.
Edson Luck T GONZALES ; Sung Min YANG ; Chang Soon CHOI ; Darine Froy N MABUNGA ; Hee Jin KIM ; Jae Hoon CHEONG ; Jong Hoon RYU ; Bon Nyeo KOO ; Chan Young SHIN
Biomolecules & Therapeutics 2015;23(3):251-260
Propofol is an anesthetic agent that gained wide use because of its fast induction of anesthesia and rapid recovery post-anesthesia. However, previous studies have reported immediate neurodegeneration and long-term impairment in spatial learning and memory from repeated neonatal propofol administration in animals. Yet, none of those studies has explored the sex-specific long-term physical changes and behavioral alterations such as social (sociability and social preference), emotional (anxiety), and other cognitive functions (spatial working, recognition, and avoidance memory) after neonatal propofol treatment. Seven-day-old Wistar-Kyoto (WKY) rats underwent repeated daily intraperitoneal injections of propofol or normal saline for 7 days. Starting fourth week of age and onwards, rats were subjected to behavior tests including open-field, elevated-plus-maze, Y-maze, 3-chamber social interaction, novel-object-recognition, passive-avoidance, and rotarod. Rats were sacrificed at 9 weeks and hippocampal protein expressions were analyzed by Western blot. Results revealed long-term body weight gain alterations in the growing rats and sex-specific impairments in spatial (female) and recognition (male) learning and memory paradigms. A markedly decreased expression of hippocampal NMDA receptor GluN1 subunit in female- and increased expression of AMPA GluR1 subunit protein expression in male rats were also found. Other aspects of behaviors such as locomotor activity and coordination, anxiety, sociability, social preference and avoidance learning and memory were not generally affected. These results suggest that neonatal repeated propofol administration disrupts normal growth and some aspects of neurodevelopment in rats in a sex-specific manner.
alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid
;
Anesthesia
;
Animals
;
Anxiety
;
Avoidance Learning
;
Blotting, Western
;
Body Weight
;
Humans
;
Injections, Intraperitoneal
;
Interpersonal Relations
;
Learning
;
Male
;
Memory*
;
Motor Activity
;
N-Methylaspartate
;
Propofol*
;
Rats*
;
Weight Gain