Tetrabromobisphenol A(TBBPA)is a widely used brominated flame retardant.There is evidence showing that TBBPA can exert thyroid disrupting effects in mammals,but different results were also reported,along with inconsis...Tetrabromobisphenol A(TBBPA)is a widely used brominated flame retardant.There is evidence showing that TBBPA can exert thyroid disrupting effects in mammals,but different results were also reported,along with inconsistent reports regarding its neurotoxicity.Here,we investigated thyroid disrupting effects and neurotoxicity of TBBPA(5,50,500μg/(kg·day))to male mice following maternal and direct exposure through drinking water,with the antithyroid drug propylthiouracil(PTU)as the positive control.On postnatal day(PND)15,we expectedly observed severe thyroid compensatory hyperplasia and cerebellar developmental retardation in PTU-treated pups.The highest dose of TBBPA also caused thyroid histological alteration but had no effects on cerebellar development in terms of Purkinje cell morphology and the thickness of the internal granular layer and the molecular layer of the cerebellum.During puberty and adulthood,the thyroid morphological alterations became more pronounced in the TBBPA-treated animals,accompanied by decreased serum thyroid hormone levels.Furthermore,the 50 and 500μg/(kg·day)TBBPA groups showed a significant decrease in the serum level of serotonin,a neurotransmitter associated with anxiety behaviors.Correspondingly,the highest dose group displayed anxiety-like behaviors in the elevated plus-maze test on PND 35,but this neurobehavioral alteration disappeared on PND 56.Moreover,no changes in neurobehavioral parameters tested were found in TBBPAtreated animals at puberty and adulthood.Altogether,all observations show that TBBPA can exert thyroid disrupting effects but has little overt impact on brain development and neurobehaviors in mice,suggesting that thyroid disruption does not necessarily cause overtly adverse neurodevelopmental outcomes.展开更多
Glial cells are crucial for maintaining central nervous system(CNS)homeostasis.They actively participate in immune responses,as well as form functional barriers,such as blood-brain barrier(BBB),which restrict the entr...Glial cells are crucial for maintaining central nervous system(CNS)homeostasis.They actively participate in immune responses,as well as form functional barriers,such as blood-brain barrier(BBB),which restrict the entry of pathogens and inflammatory mediators into the CNS.In general,viral infections during the gestational period can alter the embryonic and fetal environment,and the related inflammatory response may affect neurodevelopment and lead to behavioral dysfunction during later stage of life,as highlighted by our group for Zika virus infection.Severe acute respiratory syndrome coronavirus-2(SARS-CoV-2)induces a cytokine storm and,during pregnancy,may be related to a more severe form of the coronavirus disease-19(COVID-19)and also to higher preterm birth rates.SARS-CoV-2 can also affect the CNS by inducing neurochemical remodeling in neural cells,which can compromise neuronal plasticity and synaptic function.However,the impact of SARS-CoV-2 infection during pregnancy on postnatal CNS,including brain development during childhood and adulthood,remains undetermined.Our group has recently highlighted the impact of COVID-19 on the expression of molecular markers associated with neuropsychiatric disorders,which are strongly related to the inflammatory response.Thus,based on these relationships,we discussed the impact of SARS-CoV-2 infection either during pregnancy or in critical periods of neurodevelopment as a risk factor for neurological consequences in the offspring later in life,focusing on the potential role of glial cells.Thus,it is important to consider future and long-term public health concerns associated with SARS-CoV-2 infection during pregnancy.展开更多
With the advent of modern techniques, drugs, and monitoring, general anesthesia has come to be considered an unlikely cause of harm, particularly for healthy patients. While this is largely true, newly emerging clinic...With the advent of modern techniques, drugs, and monitoring, general anesthesia has come to be considered an unlikely cause of harm, particularly for healthy patients. While this is largely true, newly emerging clinical and laboratory studies have sug- gested that exposure to anesthetic agents during early childhood may have long-lasting adverse effects on cognitive function. This concern has been the focus of intense study in the field of anesthesia research. A recent high-profile review by Rappaport et al. (2015) concluded that while many questions remain un- answered, there is strong evidence from laboratory studies that commonly used anesthetics interfere with brain development and that clinical studies suggest a correlation between early childhood exposure to these agents and subsequent effects on learning and cognition. The issue is of sufficient public health importance that a public-private partnership known as Smar- Tots (Strategies for Mitigating Anesthesia-Related Neurotoxicity in Tots) was developed by the FDA to study pediatric anesthetic neurotoxicity. The mechanism of injury underlying this phe- nomenon has yet to be fully elucidated, and there is evidence to suggest that anesthetics may have direct cytotoxic effects on neurons leading to cell death or suppressed neurogenesis (Strat- mann et al., 2010) and that they may interfere with key pro- cesses in neuronal growth and development that underlie brain circuit development (Wagner et al., 2014).展开更多
Microglia are the resident immune cells of the central nervous system (CNS), In the normal state, microglia have a ramified shape and con- tinuously survey the conditions of the brain.
A major basic research projectin the field of neurosciencewas launched on November26 last year at the Shanghai-basedInstitute of Neuroscience of the Chi-nese Academy of Sciences(CAS).
Maternal health during pregnancy has a direct impact on the risk and severity of neurodevelopmental disorders(NDDs)in the offspring,especially in the case of drug exposure.However,little progress has been made to asse...Maternal health during pregnancy has a direct impact on the risk and severity of neurodevelopmental disorders(NDDs)in the offspring,especially in the case of drug exposure.However,little progress has been made to assess the risk of drug exposure during pregnancy due to ethical constraints and drug use factors.We collected and manually curated sub-pathways and pathways(sub-/pathways)and drug information to propose an analytical framework for predicting drug candidates.This framework linked sub-/pathway activity and drug response scores derived from gene transcription data and was applied to human fetal brain development and six NDDs.Further,specific and pleiotropic sub-/pathways/drugs were identified using entropy,and sex bias was analyzed in conjunction with logistic regression and random forest models.We identified 19 disorder-associated and 256 regionally pleiotropic and specific candidate drugs that targeted risk sub-/pathways in NDDs,showing temporal or spatial changes across fetal development.Moreover,5443 differential drug-sub-/pathways exhibited sex-biased differences after filling in the gender labels.A user-friendly NDDP visualization website(https://ndd-lab.shinyapps.io/NDDP)was developed to allow researchers and clinicians to access and retrieve data easily.Our framework overcame data gaps and identified numerous pleiotropic and specific candidates across six disorders and fetal developmental trajectories.This could significantly contribute to drug discovery during pregnancy and can be applied to a wide range of traits.展开更多
Neurodevelopmental processes represent a finely tuned interplay between genetic and environmental factors,shaping the dynamic landscape of the developing brain.A major component of the developing brain that enables th...Neurodevelopmental processes represent a finely tuned interplay between genetic and environmental factors,shaping the dynamic landscape of the developing brain.A major component of the developing brain that enables this dynamic is the white matter(WM),known to be affected in neurodevelopmental disorders(NDDs)(Rokach et al.,2024).WM formation is mediated by myelination,a multifactorial process driven by neuro-glia interactions dependent on proper neuronal functionality(Simons and Trajkovic,2006).Another key aspect of neurodevelopmental abnormalities involves neuronal dynamics and function,with recent advances significantly enhancing our understanding of both neuronal and glial mitochondrial function(Devine and Kittler,2018;Rojas-Charry et al.,2021).Energy homeostasis in neurons,attributed largely to mitochondrial function,is critical for proper functionality and interactions with oligodendrocytes(OLs),the cells forming myelin in the brain’s WM.We herein discuss the interplay between these processes and speculate on potential dysfunction in NDDs.展开更多
Brain development and aging are associated with alterations in multiple epigenetic systems, including DNA methylation and demethylation patterns. Here, we observed that the levels of the 5- hydroxymethylcytosine (5hm...Brain development and aging are associated with alterations in multiple epigenetic systems, including DNA methylation and demethylation patterns. Here, we observed that the levels of the 5- hydroxymethylcytosine (5hmC) ten-eleven transtocation (TET) enzyme-mediated active DNA demethylation products were dynamically changed and involved in postnatal brain development and aging in tree shrews (Tupaia belangeri chinensis). The levels of 5hmC in multiple anatomic structures showed a gradual increase throughout postnatal development, whereas a significant decrease in 5hmC was found in several brain regions in aged tree shrews, including in the prefrontal cortex and hippocampus, but not the cerebellum. Active changes in Tet mRNA levels indicated that TET2 and TET3 predominantly contributed to the changes in 5hmC levels. Our findings provide new insight into the dynamic changes in 5hmC levels in tree shrew brains during postnatal development and aging processes.展开更多
Objective To study the developmental changes of glutamic acid decarboxylase-67 ( GAD-67, a GABA synthetic enzyme) in normal and hypoxic ischemic (HI) brain. Methods C57/BL6 mice on postnatal day (P) 5, 9, 21 and...Objective To study the developmental changes of glutamic acid decarboxylase-67 ( GAD-67, a GABA synthetic enzyme) in normal and hypoxic ischemic (HI) brain. Methods C57/BL6 mice on postnatal day (P) 5, 9, 21 and 60, corresponding developmentally to premature, term, juvenile and adult human brain were investigated by using both Western blot and immunohistochemistry methods either in normal condition or after hypoxic ischemic insult. Results The immunoreactivity of GAD67 was up regulated with brain development and significant difference was seen between mature (P21, P60) and immature (P5, P9) brain. GAD67 immunoreactivity decreased in the ipsilateral hemisphere in all the ages after hypoxia ischemia (HI) insult, but, significant decrease was only seen in the immature brain. Double labeling of GAD67 and cell death marker, TUNEL, in the cortex at 8h post-HI in the P9 mice showed that (15.6±7.0)% TUNEL positive cells were GAD67 positive which was higher than that of P60 mice. Conclusion These data suggest that GABAergic neurons in immature brain were more vulnerable to HI insult than that of mature brain.展开更多
Neurogenesis is the process in which neurons are generated from neural stem/progenitor cells(NSCs/NPCs).It involves the proliferation and neuronal fate specification/differentiation of NSCs,as well as migration,maturat...Neurogenesis is the process in which neurons are generated from neural stem/progenitor cells(NSCs/NPCs).It involves the proliferation and neuronal fate specification/differentiation of NSCs,as well as migration,maturation and functional integration of the neuronal progeny into neuronal network.NSCs exhibit the two essential properties of stem cells:self-renewal and multi-potency.Contrary to previous dogma that neurogenesis happens only during development,it is generally accepted now that neurogenesis can take place throughout life in mammalian brains.This raises a new therapeutic potential of applying stem cell therapy for stroke,neurodegenerative diseases and other diseases.However,the maintenance and differentiation of NSCs/NPCs are tightly controlled by the extremely intricate molecular networks.Uncovering the underlying mechanisms that drive the differentiation,migration and maturation of specific neuronal lineages for use in regenerative medicine is,therefore,crucial for the application of stem cell for clinical therapy as well as for providing insight into the mechanisms of human neurogenesis.Here,we focus on the role of bone morphogenetic protein(BMP)signaling in NSCs during mammalian brain development.展开更多
Genomic mosaicism describes the phenomenon where some but not all cells within a tissue harbor unique genetic mutations.Traditionally,research focused on the impact of genomic mosaicism on clinical phenotype—motivate...Genomic mosaicism describes the phenomenon where some but not all cells within a tissue harbor unique genetic mutations.Traditionally,research focused on the impact of genomic mosaicism on clinical phenotype—motivated by its involvement in cancers and overgrowth syndromes.More recently,we increasingly shifted towards the plethora of neutral mosaic variants that can act as recorders of cellular lineage and environmental exposures.Here,we summarize the current state of the field of genomic mosaicism research with a special emphasis on our current understanding of this phenomenon in brain development and homeostasis.Although the field of genomic mosaicism has a rich history,technological advances in the last decade have changed our approaches and greatly improved our knowledge.We will provide current definitions and an overview of contemporary detection approaches for genomic mosaicism.Finally,we will discuss the impact and utility of genomic mosaicism.展开更多
BACKGROUND Understanding the impact of early sensory deficits on brain development is essential for understanding developmental processes and developing potential interventions.While previous studies have looked into ...BACKGROUND Understanding the impact of early sensory deficits on brain development is essential for understanding developmental processes and developing potential interventions.While previous studies have looked into the impact of prenatal experiences on language development,there is a lack of research on how these experiences affect early language and brain function development in individuals with sensorineural hearing loss(SNHL).AIM To investigate SNHL effects on early brain development and connectivity in 4-month-olds vs healthy newborns and controls.METHODS The research involved analyzing the functional brain networks of 65 infants,categorized into three groups:28 healthy newborns,224-month-old participants with SNHL,and 15 age-matched healthy participants.The resting-state functional connectivity was measured and compared between the groups using functional near-infrared spectroscopy and graph theory to assess the brain network properties.RESULTS Significant differences were found in resting-state functional connectivity between participants with SNHL and age-matched controls,indicating a developmental lag in brain connectivity for those with SNHL.Surprisingly,SNHL participants showed better connectivity development compared to healthy newborns,with connectivity strengths of 0.13±0.04 for SNHL,0.16±0.08 for controls,and 0.098±0.04 for newborns.Graph theory analysis revealed enhanced global brain network properties for the SNHL group,suggesting higher communication efficiency at 4 months.No significant differences were noted in network properties between 4-month-old SNHL participants and neonates.A unique pattern of central hubs was observed in the SNHL group,with 2 hubs in the left hemisphere compared to 6 in controls.CONCLUSION 4-month-old infants with SNHL have a distinct brain network pattern with efficient long-distance information transmission but less effective local communication compared to age-matched controls.展开更多
Using the specific affinity of tubulin for colchicine and the strong absorption of tubulin to DEAE ion exchangers at neutral pH and moderate ionic strength,the amounts of tubulin in the brain from both mice and chicks...Using the specific affinity of tubulin for colchicine and the strong absorption of tubulin to DEAE ion exchangers at neutral pH and moderate ionic strength,the amounts of tubulin in the brain from both mice and chicks during different developing stages were measured by ~3H-colchicine assay (expressed as colchicine binding activity).The results show that the rate oftubulin synthesis reached a peak value during the critical period of brain development.This is exactly the period during which the organization and function of thyroid are being perfected.Besides,during breeding period,the difference of tubulin contents between male and female is significant(P<0.001).The synthesis of tubulin is strictly sex dependent(this phenomenon appeared only during sex maturation stage).It is suggested that sexual hormones might exert their effect on tubulin synthesis.展开更多
Objective To investigate the cell proliferation and differentiation in the developing brain of mouse. Methods C57/BL6 mice were divided into 3 groups at random. Bromodeoxyuridine (BrdU) was injected into the brains ...Objective To investigate the cell proliferation and differentiation in the developing brain of mouse. Methods C57/BL6 mice were divided into 3 groups at random. Bromodeoxyuridine (BrdU) was injected into the brains in different development periods once a day for 7 d. The brains were retrieved 4 weeks after the last BrdU injection. Immunohistochemical and immunofluorescent studies were carried out for detecting cell proliferation (BrdU) and cell differentiation (NeuN, APC, lbal, and S 100β), respectively. Results The number of BrdU labeled cells decreased significantly with the development of the brain. Cell proliferation was prominent in the cortex and striatum. A small portion of BrdU and NeuN double labeled cells could be detected in the cortex at the early stage of development, and in the striatum and CA of the hippocampus in all groups. The majority of BrdU labeled cells were neuroglia, and the number of neuroglia cells decreased dramatically with brain maturation. Neurogenesis is the major cytogenesis in the dentate gyrus. Conclusion These results demonstrated that cell proliferation, differentiation and survival were age and brain region related.展开更多
Brain tumors are a diverse group of malignancies that remain refractory to conventional treatment approaches.Molecular neuro-oncologyhas now begun to clarify the transformed phenotype of brain tumors and identify onco...Brain tumors are a diverse group of malignancies that remain refractory to conventional treatment approaches.Molecular neuro-oncologyhas now begun to clarify the transformed phenotype of brain tumors and identify oncogenic pathways that might be amenable to targetedtherapy.Activity of the phosphoinositide 3;kinase(PI3K)/Akt pathway is often upregulated in brain tumors due to excessive stimu-lation by growth factor receptors and Ras.Loss of function of the tumor suppressor gene PTEN also frequently contributesto展开更多
Understanding the fundamental processes of human brain development and diseases is of great importance for our health.However,existing research models such as non-human primate and mouse models remain limited due to t...Understanding the fundamental processes of human brain development and diseases is of great importance for our health.However,existing research models such as non-human primate and mouse models remain limited due to their developmental discrepancies compared with humans.Over the past years,an emerging model,the“brain organoid”integrated from human pluripotent stem cells,has been developed to mimic developmental processes of the human brain and disease-associated phenotypes to some extent,making it possible to better understand the complex structures and functions of the human brain.In this review,we summarize recent advances in brain organoid technologies and their applications in brain development and diseases,including neurodevelopmental,neurodegenerative,psychiatric diseases,and brain tumors.Finally,we also discuss current limitations and the potential of brain organoids.展开更多
Background:Emerging research supports the idea that exercise positively affects neurodevelopment.However,the mechanisms linking exercise with brain health are largely unknown.We aimed to investigate the effect of exer...Background:Emerging research supports the idea that exercise positively affects neurodevelopment.However,the mechanisms linking exercise with brain health are largely unknown.We aimed to investigate the effect of exercise on(a)blood biomarkers selected based on previous evidence(brainderived neurotrophic factor,β-hydroxybutyrate(BHB),cathepsin B(CTSB),kynurenine,fibroblast growth factor 21(FGF21),soluble vascular cell adhesion molecule-1(sVCAM-1));and(b)a panel of 92 neurology-related proteins(discovery analysis).We also investigated whether changes in these biomarkers mediate the effects of exercise on brain health(hippocampal structure and function,cognitive performance,and mental health).Methods:We randomized 81 overweight/obese children(10.1±1.1 years,41%girls)into 2 groups:either 20 weeks of aerobic plus resistance exercise or control.Candidate biomarkers were assessed using enzyme-linked immunosorbent assay(ELISA)for kynurenine,FGF21,and CTSB;colorimetry forβ-hydroxybutyrate;and XMap for brain-derived neurotrophic factor and soluble vascular cell adhesion molecule-1.The92 neurology-related proteins were analyzed by an antibody-based proteomic analysis.Results:Our intervention had no significant effect on candidate biomarkers(all p>0.05).In the discovery analysis,a reduction in circulating macrophage scavenger receptor type-I was observed(standardized differences between groups=-0.3,p=0.001).This effect was validated using ELISA methods(standardized difference=-0.3,p=0.01).None of the biomarkers mediated the effects of exercise on brain health.Conclusions:Our study does not support a chronic effect of exercise on candidate biomarkers.We observed that while chronic exercise reduced the levels of macrophage scavenger receptor type-Ⅰ,it did not mediate the effects of exercise on brain health.Future studies should explore the implications of this novel biomarker for overall health.展开更多
Metabotropic glutamate receptor 5 (mGluR5) is expressed by neurons in zones of active neurogenesis and is involved in the development of neural stem cells in vivo and in vitro. We examined the expression of mGluR5 i...Metabotropic glutamate receptor 5 (mGluR5) is expressed by neurons in zones of active neurogenesis and is involved in the development of neural stem cells in vivo and in vitro. We examined the expression of mGluR5 in the cortex and hippocampus of rats during various prenatal and postnatal periods using immunohistochemistry. During prenatal development, mGluR5 was pdmadly localized to neuronal somas in the forebrain. During early postnatal periods, the receptor was mainly present on somas in the cortex, mGluR5 immunostaining was visible in apical dendrites and in the neuropil of neurons and persisted throughout postnatal development. During this period, pyramidal neurons were strongly labeled for the receptor. In the hippocampal CA1 region, mGluR5 immunoreactivity was more intense in the stratum oriens, stratum radiatum, and lacunosum moleculare at P0, P5 and P10 relative to P60. mGluR5 expression increased significantly in the molecular layer and decreased significantly in the granule cell layer of the dentate gyrus at P5, P10 and P60 in comparison with P0. Furthermore, some mGluR5-positive cells were also bromodeoxyuridine- or NeuroD-positive in the dentate gyrus at P14. These results demonstrate that mGluR5 has a differential expression pattern in the cortex and hippocampus during early growth, suggesting a role for this receptor in the control of domain specific brain developmental events.展开更多
目的观察全面性发育迟缓患儿实施醒脑开窍、补肾健脾养心针法治疗的效果。方法选取GDD住院患儿82例,随机分为对照组和试验组,各41例,2组各脱落3例,最终2组各纳入38例。对照组行常规康复治疗,试验组在此基础上增加实施醒脑开窍、补肾健...目的观察全面性发育迟缓患儿实施醒脑开窍、补肾健脾养心针法治疗的效果。方法选取GDD住院患儿82例,随机分为对照组和试验组,各41例,2组各脱落3例,最终2组各纳入38例。对照组行常规康复治疗,试验组在此基础上增加实施醒脑开窍、补肾健脾养心针法。对2组患儿治疗前后应用Gesell发育量表、Peabody 2运动发育评估量表、婴儿-初中生社会生活能力量表进行疗效评估。结果治疗后2组精细运动、大运动、语言、适应性、个人-社交发育商(developmental quotient,DQ)及精细运动商(fine motor quotient,FMQ)、粗大运动商(gross motor quotient,GMQ)、总体运动商(total motor quotient,TMQ)和自我管理、独立生活、作业操作、参加集体活动、运动、交往评分均较治疗前提高(P<0.05),试验组大运动、语言、适应性、个人-社交DQ及FMQ、GMQ、TMQ和自我管理、独立生活、作业操作、运动评分较对照组更高(P<0.05),而2组精细运动DQ和参加集体活动、交往评分比较不存在统计学差异(P>0.05)。结论醒脑开窍、补肾健脾养心针法可改善GDD患儿智力发育、运动功能及社会生活能力。展开更多
基金supported by the National Key Research and Development Program of China(No.2018YFA0901103)the National Natural Science Foundation of China(No.21876196)。
文摘Tetrabromobisphenol A(TBBPA)is a widely used brominated flame retardant.There is evidence showing that TBBPA can exert thyroid disrupting effects in mammals,but different results were also reported,along with inconsistent reports regarding its neurotoxicity.Here,we investigated thyroid disrupting effects and neurotoxicity of TBBPA(5,50,500μg/(kg·day))to male mice following maternal and direct exposure through drinking water,with the antithyroid drug propylthiouracil(PTU)as the positive control.On postnatal day(PND)15,we expectedly observed severe thyroid compensatory hyperplasia and cerebellar developmental retardation in PTU-treated pups.The highest dose of TBBPA also caused thyroid histological alteration but had no effects on cerebellar development in terms of Purkinje cell morphology and the thickness of the internal granular layer and the molecular layer of the cerebellum.During puberty and adulthood,the thyroid morphological alterations became more pronounced in the TBBPA-treated animals,accompanied by decreased serum thyroid hormone levels.Furthermore,the 50 and 500μg/(kg·day)TBBPA groups showed a significant decrease in the serum level of serotonin,a neurotransmitter associated with anxiety behaviors.Correspondingly,the highest dose group displayed anxiety-like behaviors in the elevated plus-maze test on PND 35,but this neurobehavioral alteration disappeared on PND 56.Moreover,no changes in neurobehavioral parameters tested were found in TBBPAtreated animals at puberty and adulthood.Altogether,all observations show that TBBPA can exert thyroid disrupting effects but has little overt impact on brain development and neurobehaviors in mice,suggesting that thyroid disruption does not necessarily cause overtly adverse neurodevelopmental outcomes.
基金The authors are supported by Universidade Federal do Rio Grande do Sul(UFRGS),Conselho Nacional de Desenvolvimento Científico e Tecnológico(CNPq),Coordenação de Aperfeiçoamento de Pessoal de Nível Superior(CAPES),Fundação de AmparoàPesquisa do Estado do Rio Grande do Sul(FAPERGS),and Instituto Nacional de Ciência e Tecnologia para Excitotoxicidade e Neuroproteção(INCTEN/CNPq).
文摘Glial cells are crucial for maintaining central nervous system(CNS)homeostasis.They actively participate in immune responses,as well as form functional barriers,such as blood-brain barrier(BBB),which restrict the entry of pathogens and inflammatory mediators into the CNS.In general,viral infections during the gestational period can alter the embryonic and fetal environment,and the related inflammatory response may affect neurodevelopment and lead to behavioral dysfunction during later stage of life,as highlighted by our group for Zika virus infection.Severe acute respiratory syndrome coronavirus-2(SARS-CoV-2)induces a cytokine storm and,during pregnancy,may be related to a more severe form of the coronavirus disease-19(COVID-19)and also to higher preterm birth rates.SARS-CoV-2 can also affect the CNS by inducing neurochemical remodeling in neural cells,which can compromise neuronal plasticity and synaptic function.However,the impact of SARS-CoV-2 infection during pregnancy on postnatal CNS,including brain development during childhood and adulthood,remains undetermined.Our group has recently highlighted the impact of COVID-19 on the expression of molecular markers associated with neuropsychiatric disorders,which are strongly related to the inflammatory response.Thus,based on these relationships,we discussed the impact of SARS-CoV-2 infection either during pregnancy or in critical periods of neurodevelopment as a risk factor for neurological consequences in the offspring later in life,focusing on the potential role of glial cells.Thus,it is important to consider future and long-term public health concerns associated with SARS-CoV-2 infection during pregnancy.
文摘With the advent of modern techniques, drugs, and monitoring, general anesthesia has come to be considered an unlikely cause of harm, particularly for healthy patients. While this is largely true, newly emerging clinical and laboratory studies have sug- gested that exposure to anesthetic agents during early childhood may have long-lasting adverse effects on cognitive function. This concern has been the focus of intense study in the field of anesthesia research. A recent high-profile review by Rappaport et al. (2015) concluded that while many questions remain un- answered, there is strong evidence from laboratory studies that commonly used anesthetics interfere with brain development and that clinical studies suggest a correlation between early childhood exposure to these agents and subsequent effects on learning and cognition. The issue is of sufficient public health importance that a public-private partnership known as Smar- Tots (Strategies for Mitigating Anesthesia-Related Neurotoxicity in Tots) was developed by the FDA to study pediatric anesthetic neurotoxicity. The mechanism of injury underlying this phe- nomenon has yet to be fully elucidated, and there is evidence to suggest that anesthetics may have direct cytotoxic effects on neurons leading to cell death or suppressed neurogenesis (Strat- mann et al., 2010) and that they may interfere with key pro- cesses in neuronal growth and development that underlie brain circuit development (Wagner et al., 2014).
文摘Microglia are the resident immune cells of the central nervous system (CNS), In the normal state, microglia have a ramified shape and con- tinuously survey the conditions of the brain.
文摘A major basic research projectin the field of neurosciencewas launched on November26 last year at the Shanghai-basedInstitute of Neuroscience of the Chi-nese Academy of Sciences(CAS).
基金supported by the National Natural Science Foundation of China[81701350 and 31671252]the Health Technology Plan of Zhejiang Province[2023RC205].
文摘Maternal health during pregnancy has a direct impact on the risk and severity of neurodevelopmental disorders(NDDs)in the offspring,especially in the case of drug exposure.However,little progress has been made to assess the risk of drug exposure during pregnancy due to ethical constraints and drug use factors.We collected and manually curated sub-pathways and pathways(sub-/pathways)and drug information to propose an analytical framework for predicting drug candidates.This framework linked sub-/pathway activity and drug response scores derived from gene transcription data and was applied to human fetal brain development and six NDDs.Further,specific and pleiotropic sub-/pathways/drugs were identified using entropy,and sex bias was analyzed in conjunction with logistic regression and random forest models.We identified 19 disorder-associated and 256 regionally pleiotropic and specific candidate drugs that targeted risk sub-/pathways in NDDs,showing temporal or spatial changes across fetal development.Moreover,5443 differential drug-sub-/pathways exhibited sex-biased differences after filling in the gender labels.A user-friendly NDDP visualization website(https://ndd-lab.shinyapps.io/NDDP)was developed to allow researchers and clinicians to access and retrieve data easily.Our framework overcame data gaps and identified numerous pleiotropic and specific candidates across six disorders and fetal developmental trajectories.This could significantly contribute to drug discovery during pregnancy and can be applied to a wide range of traits.
文摘Neurodevelopmental processes represent a finely tuned interplay between genetic and environmental factors,shaping the dynamic landscape of the developing brain.A major component of the developing brain that enables this dynamic is the white matter(WM),known to be affected in neurodevelopmental disorders(NDDs)(Rokach et al.,2024).WM formation is mediated by myelination,a multifactorial process driven by neuro-glia interactions dependent on proper neuronal functionality(Simons and Trajkovic,2006).Another key aspect of neurodevelopmental abnormalities involves neuronal dynamics and function,with recent advances significantly enhancing our understanding of both neuronal and glial mitochondrial function(Devine and Kittler,2018;Rojas-Charry et al.,2021).Energy homeostasis in neurons,attributed largely to mitochondrial function,is critical for proper functionality and interactions with oligodendrocytes(OLs),the cells forming myelin in the brain’s WM.We herein discuss the interplay between these processes and speculate on potential dysfunction in NDDs.
基金supported by the Hundred-Talent Program of Chinese Academy of Sciences(Y4065411411100050210)to J.L.+3 种基金the National Natural Science Foundation of China(8147131391649119)to J.L.the National Natural Science Foundation of China(31260242 to)F.Lthe National Science and Technology Infrastructure Program(2014BAI01B01-04)to S.L.
文摘Brain development and aging are associated with alterations in multiple epigenetic systems, including DNA methylation and demethylation patterns. Here, we observed that the levels of the 5- hydroxymethylcytosine (5hmC) ten-eleven transtocation (TET) enzyme-mediated active DNA demethylation products were dynamically changed and involved in postnatal brain development and aging in tree shrews (Tupaia belangeri chinensis). The levels of 5hmC in multiple anatomic structures showed a gradual increase throughout postnatal development, whereas a significant decrease in 5hmC was found in several brain regions in aged tree shrews, including in the prefrontal cortex and hippocampus, but not the cerebellum. Active changes in Tet mRNA levels indicated that TET2 and TET3 predominantly contributed to the changes in 5hmC levels. Our findings provide new insight into the dynamic changes in 5hmC levels in tree shrew brains during postnatal development and aging processes.
基金This work was supported by the Natural Science Foundation of China (30470598).
文摘Objective To study the developmental changes of glutamic acid decarboxylase-67 ( GAD-67, a GABA synthetic enzyme) in normal and hypoxic ischemic (HI) brain. Methods C57/BL6 mice on postnatal day (P) 5, 9, 21 and 60, corresponding developmentally to premature, term, juvenile and adult human brain were investigated by using both Western blot and immunohistochemistry methods either in normal condition or after hypoxic ischemic insult. Results The immunoreactivity of GAD67 was up regulated with brain development and significant difference was seen between mature (P21, P60) and immature (P5, P9) brain. GAD67 immunoreactivity decreased in the ipsilateral hemisphere in all the ages after hypoxia ischemia (HI) insult, but, significant decrease was only seen in the immature brain. Double labeling of GAD67 and cell death marker, TUNEL, in the cortex at 8h post-HI in the P9 mice showed that (15.6±7.0)% TUNEL positive cells were GAD67 positive which was higher than that of P60 mice. Conclusion These data suggest that GABAergic neurons in immature brain were more vulnerable to HI insult than that of mature brain.
文摘Neurogenesis is the process in which neurons are generated from neural stem/progenitor cells(NSCs/NPCs).It involves the proliferation and neuronal fate specification/differentiation of NSCs,as well as migration,maturation and functional integration of the neuronal progeny into neuronal network.NSCs exhibit the two essential properties of stem cells:self-renewal and multi-potency.Contrary to previous dogma that neurogenesis happens only during development,it is generally accepted now that neurogenesis can take place throughout life in mammalian brains.This raises a new therapeutic potential of applying stem cell therapy for stroke,neurodegenerative diseases and other diseases.However,the maintenance and differentiation of NSCs/NPCs are tightly controlled by the extremely intricate molecular networks.Uncovering the underlying mechanisms that drive the differentiation,migration and maturation of specific neuronal lineages for use in regenerative medicine is,therefore,crucial for the application of stem cell for clinical therapy as well as for providing insight into the mechanisms of human neurogenesis.Here,we focus on the role of bone morphogenetic protein(BMP)signaling in NSCs during mammalian brain development.
基金support from the Boettcher Foundation and the National Institutes of Health(1K99HD111686).
文摘Genomic mosaicism describes the phenomenon where some but not all cells within a tissue harbor unique genetic mutations.Traditionally,research focused on the impact of genomic mosaicism on clinical phenotype—motivated by its involvement in cancers and overgrowth syndromes.More recently,we increasingly shifted towards the plethora of neutral mosaic variants that can act as recorders of cellular lineage and environmental exposures.Here,we summarize the current state of the field of genomic mosaicism research with a special emphasis on our current understanding of this phenomenon in brain development and homeostasis.Although the field of genomic mosaicism has a rich history,technological advances in the last decade have changed our approaches and greatly improved our knowledge.We will provide current definitions and an overview of contemporary detection approaches for genomic mosaicism.Finally,we will discuss the impact and utility of genomic mosaicism.
基金Supported by the National Social Science Foundation,No.18BY0911.
文摘BACKGROUND Understanding the impact of early sensory deficits on brain development is essential for understanding developmental processes and developing potential interventions.While previous studies have looked into the impact of prenatal experiences on language development,there is a lack of research on how these experiences affect early language and brain function development in individuals with sensorineural hearing loss(SNHL).AIM To investigate SNHL effects on early brain development and connectivity in 4-month-olds vs healthy newborns and controls.METHODS The research involved analyzing the functional brain networks of 65 infants,categorized into three groups:28 healthy newborns,224-month-old participants with SNHL,and 15 age-matched healthy participants.The resting-state functional connectivity was measured and compared between the groups using functional near-infrared spectroscopy and graph theory to assess the brain network properties.RESULTS Significant differences were found in resting-state functional connectivity between participants with SNHL and age-matched controls,indicating a developmental lag in brain connectivity for those with SNHL.Surprisingly,SNHL participants showed better connectivity development compared to healthy newborns,with connectivity strengths of 0.13±0.04 for SNHL,0.16±0.08 for controls,and 0.098±0.04 for newborns.Graph theory analysis revealed enhanced global brain network properties for the SNHL group,suggesting higher communication efficiency at 4 months.No significant differences were noted in network properties between 4-month-old SNHL participants and neonates.A unique pattern of central hubs was observed in the SNHL group,with 2 hubs in the left hemisphere compared to 6 in controls.CONCLUSION 4-month-old infants with SNHL have a distinct brain network pattern with efficient long-distance information transmission but less effective local communication compared to age-matched controls.
文摘Using the specific affinity of tubulin for colchicine and the strong absorption of tubulin to DEAE ion exchangers at neutral pH and moderate ionic strength,the amounts of tubulin in the brain from both mice and chicks during different developing stages were measured by ~3H-colchicine assay (expressed as colchicine binding activity).The results show that the rate oftubulin synthesis reached a peak value during the critical period of brain development.This is exactly the period during which the organization and function of thyroid are being perfected.Besides,during breeding period,the difference of tubulin contents between male and female is significant(P<0.001).The synthesis of tubulin is strictly sex dependent(this phenomenon appeared only during sex maturation stage).It is suggested that sexual hormones might exert their effect on tubulin synthesis.
基金This work was supported by the grant of National Natural Science Foundation of China (No. 30470598).
文摘Objective To investigate the cell proliferation and differentiation in the developing brain of mouse. Methods C57/BL6 mice were divided into 3 groups at random. Bromodeoxyuridine (BrdU) was injected into the brains in different development periods once a day for 7 d. The brains were retrieved 4 weeks after the last BrdU injection. Immunohistochemical and immunofluorescent studies were carried out for detecting cell proliferation (BrdU) and cell differentiation (NeuN, APC, lbal, and S 100β), respectively. Results The number of BrdU labeled cells decreased significantly with the development of the brain. Cell proliferation was prominent in the cortex and striatum. A small portion of BrdU and NeuN double labeled cells could be detected in the cortex at the early stage of development, and in the striatum and CA of the hippocampus in all groups. The majority of BrdU labeled cells were neuroglia, and the number of neuroglia cells decreased dramatically with brain maturation. Neurogenesis is the major cytogenesis in the dentate gyrus. Conclusion These results demonstrated that cell proliferation, differentiation and survival were age and brain region related.
文摘Brain tumors are a diverse group of malignancies that remain refractory to conventional treatment approaches.Molecular neuro-oncologyhas now begun to clarify the transformed phenotype of brain tumors and identify oncogenic pathways that might be amenable to targetedtherapy.Activity of the phosphoinositide 3;kinase(PI3K)/Akt pathway is often upregulated in brain tumors due to excessive stimu-lation by growth factor receptors and Ras.Loss of function of the tumor suppressor gene PTEN also frequently contributesto
基金supported by the National Natural Science Foundation of China(32130035 and 92168107)STI2030-Major Projects(2021ZD0202500)+2 种基金the Frontier Key Project of the Chinese Academy of Sciences(QYZDJ-SSW-SMC025)Shanghai Municipal Science and Technology Projects(2018SHZDZX05)Shanghai Frontiers Science Center for Biomacromolecules and Precision Medicine at ShanghaiTech University.
文摘Understanding the fundamental processes of human brain development and diseases is of great importance for our health.However,existing research models such as non-human primate and mouse models remain limited due to their developmental discrepancies compared with humans.Over the past years,an emerging model,the“brain organoid”integrated from human pluripotent stem cells,has been developed to mimic developmental processes of the human brain and disease-associated phenotypes to some extent,making it possible to better understand the complex structures and functions of the human brain.In this review,we summarize recent advances in brain organoid technologies and their applications in brain development and diseases,including neurodevelopmental,neurodegenerative,psychiatric diseases,and brain tumors.Finally,we also discuss current limitations and the potential of brain organoids.
基金supported primarily by the Spanish Ministry of Economy and Competitiveness((MINECO),DEP2017-91544-EXP)the Alicia Koplowitz Foundation+13 种基金supported by additional grants from MINECO(DEP2013-47540,DEP2016-79512-R,PID2020-120249RB-I00)the European Regional Development Fund(ERDF,FEDER in Spanish)the European Commission(No.667302)Further funding was obtained from the Andalusian Operational Programme supported by the ERDF(B-CTS-355-UGR18,B-CTS-500-UGR18 and A-CTS-614-UGR20)partially funded by the University of Granada,Plan Propio de Investigación 2016,Excellence actions:Units of ExcellenceUnit of Excellence on Exercise and Health(UCEES)and by the Regional Government of Andalusia,Regional Ministry of Knowledge,Science,and Universities and the ERDF(SOMM17/6107/UGR)supported by the School of Medicine,Complutense University of Madrid,Mother-Child Health and Development Network(Red SAMID)Ⅲnetwork,Redes temáticas de Investigación Cooperativa en Salud(RETICS),funded by the PN I+D+I 20172021(Spain)funded by the Ramón Areces Foundation.AMG is supported by FPU16/03653supported by the Spanish Ministry of Science and Innovation(RYC2019-027287-I)supported by a grant from Agencia Nacional de Investigación y Desarrollo(No.72180543)from Chilethrough a Margarita Salas grant from the Spanish Ministry Universitiessupported by MINECO and ERDF(grants RYC-2016-21199 and SAF2017-87526-R)the Junta de Andalucia(PAIDI P20_00158,PAIDI P20_00124)supported by the Spanish Ministry of Education,Culture and Sport(FPU 16/02760)。
文摘Background:Emerging research supports the idea that exercise positively affects neurodevelopment.However,the mechanisms linking exercise with brain health are largely unknown.We aimed to investigate the effect of exercise on(a)blood biomarkers selected based on previous evidence(brainderived neurotrophic factor,β-hydroxybutyrate(BHB),cathepsin B(CTSB),kynurenine,fibroblast growth factor 21(FGF21),soluble vascular cell adhesion molecule-1(sVCAM-1));and(b)a panel of 92 neurology-related proteins(discovery analysis).We also investigated whether changes in these biomarkers mediate the effects of exercise on brain health(hippocampal structure and function,cognitive performance,and mental health).Methods:We randomized 81 overweight/obese children(10.1±1.1 years,41%girls)into 2 groups:either 20 weeks of aerobic plus resistance exercise or control.Candidate biomarkers were assessed using enzyme-linked immunosorbent assay(ELISA)for kynurenine,FGF21,and CTSB;colorimetry forβ-hydroxybutyrate;and XMap for brain-derived neurotrophic factor and soluble vascular cell adhesion molecule-1.The92 neurology-related proteins were analyzed by an antibody-based proteomic analysis.Results:Our intervention had no significant effect on candidate biomarkers(all p>0.05).In the discovery analysis,a reduction in circulating macrophage scavenger receptor type-I was observed(standardized differences between groups=-0.3,p=0.001).This effect was validated using ELISA methods(standardized difference=-0.3,p=0.01).None of the biomarkers mediated the effects of exercise on brain health.Conclusions:Our study does not support a chronic effect of exercise on candidate biomarkers.We observed that while chronic exercise reduced the levels of macrophage scavenger receptor type-Ⅰ,it did not mediate the effects of exercise on brain health.Future studies should explore the implications of this novel biomarker for overall health.
基金the National Natural Science Foundation of China,No.30500575,30770673,81070998Scientific Research Foundation for the Returned Overseas Chinese Scholars,State Education MinistryTechnology Plan of Shaanxi Province,No.2009K01-80
文摘Metabotropic glutamate receptor 5 (mGluR5) is expressed by neurons in zones of active neurogenesis and is involved in the development of neural stem cells in vivo and in vitro. We examined the expression of mGluR5 in the cortex and hippocampus of rats during various prenatal and postnatal periods using immunohistochemistry. During prenatal development, mGluR5 was pdmadly localized to neuronal somas in the forebrain. During early postnatal periods, the receptor was mainly present on somas in the cortex, mGluR5 immunostaining was visible in apical dendrites and in the neuropil of neurons and persisted throughout postnatal development. During this period, pyramidal neurons were strongly labeled for the receptor. In the hippocampal CA1 region, mGluR5 immunoreactivity was more intense in the stratum oriens, stratum radiatum, and lacunosum moleculare at P0, P5 and P10 relative to P60. mGluR5 expression increased significantly in the molecular layer and decreased significantly in the granule cell layer of the dentate gyrus at P5, P10 and P60 in comparison with P0. Furthermore, some mGluR5-positive cells were also bromodeoxyuridine- or NeuroD-positive in the dentate gyrus at P14. These results demonstrate that mGluR5 has a differential expression pattern in the cortex and hippocampus during early growth, suggesting a role for this receptor in the control of domain specific brain developmental events.
文摘目的观察全面性发育迟缓患儿实施醒脑开窍、补肾健脾养心针法治疗的效果。方法选取GDD住院患儿82例,随机分为对照组和试验组,各41例,2组各脱落3例,最终2组各纳入38例。对照组行常规康复治疗,试验组在此基础上增加实施醒脑开窍、补肾健脾养心针法。对2组患儿治疗前后应用Gesell发育量表、Peabody 2运动发育评估量表、婴儿-初中生社会生活能力量表进行疗效评估。结果治疗后2组精细运动、大运动、语言、适应性、个人-社交发育商(developmental quotient,DQ)及精细运动商(fine motor quotient,FMQ)、粗大运动商(gross motor quotient,GMQ)、总体运动商(total motor quotient,TMQ)和自我管理、独立生活、作业操作、参加集体活动、运动、交往评分均较治疗前提高(P<0.05),试验组大运动、语言、适应性、个人-社交DQ及FMQ、GMQ、TMQ和自我管理、独立生活、作业操作、运动评分较对照组更高(P<0.05),而2组精细运动DQ和参加集体活动、交往评分比较不存在统计学差异(P>0.05)。结论醒脑开窍、补肾健脾养心针法可改善GDD患儿智力发育、运动功能及社会生活能力。
