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Annual Review of Neuroscience Jul 2022The cerebellar cortex is an important system for relating neural circuits and learning. Its promise reflects the longstanding idea that it contains simple, repeated... (Review)
Review
The cerebellar cortex is an important system for relating neural circuits and learning. Its promise reflects the longstanding idea that it contains simple, repeated circuit modules with only a few cell types and a single plasticity mechanism that mediates learning according to classical Marr-Albus models. However, emerging data have revealed surprising diversity in neuron types, synaptic connections, and plasticity mechanisms, both locally and regionally within the cerebellar cortex. In light of these findings, it is not surprising that attempts to generate a holistic model of cerebellar learning across different behaviors have not been successful. While the cerebellum remains an ideal system for linking neuronal function with behavior, it is necessary to update the cerebellar circuit framework to achieve its great promise. In this review, we highlight recent advances in our understanding of cerebellar-cortical cell types, synaptic connections, signaling mechanisms, and forms of plasticity that enrich cerebellar processing.
Topics: Cerebellar Cortex; Cerebellum; Learning; Neuronal Plasticity; Purkinje Cells
PubMed: 35803588
DOI: 10.1146/annurev-neuro-091421-125115 -
Annual Review of Neuroscience 2009Does the cerebellum influence nonmotor behavior? Recent anatomical studies demonstrate that the output of the cerebellum targets multiple nonmotor areas in the... (Review)
Review
Does the cerebellum influence nonmotor behavior? Recent anatomical studies demonstrate that the output of the cerebellum targets multiple nonmotor areas in the prefrontal and posterior parietal cortex, as well as the cortical motor areas. The projections to different cortical areas originate from distinct output channels within the cerebellar nuclei. The cerebral cortical area that is the main target of each output channel is a major source of input to the channel. Thus, a closed-loop circuit represents the major architectural unit of cerebro-cerebellar interactions. The outputs of these loops provide the cerebellum with the anatomical substrate to influence the control of movement and cognition. Neuroimaging and neuropsychological data supply compelling support for this view. The range of tasks associated with cerebellar activation is remarkable and includes tasks designed to assess attention, executive control, language, working memory, learning, pain, emotion, and addiction. These data, along with the revelations about cerebro-cerebellar circuitry, provide a new framework for exploring the contribution of the cerebellum to diverse aspects of behavior.
Topics: Affect; Animals; Cerebellar Cortex; Cerebellar Nuclei; Cerebellum; Cerebral Cortex; Cognition; Humans; Models, Neurological; Neural Pathways; Psychomotor Performance
PubMed: 19555291
DOI: 10.1146/annurev.neuro.31.060407.125606 -
Neuroscience Letters Jan 2019The cerebellum has a well-established role in controlling motor functions such coordination, balance, posture, and skilled learning. There is mounting evidence that it... (Review)
Review
The cerebellum has a well-established role in controlling motor functions such coordination, balance, posture, and skilled learning. There is mounting evidence that it might also play a critical role in non-motor functions such as cognition and emotion. It is therefore not surprising that cerebellar defects are associated with a wide array of diseases including ataxia, dystonia, tremor, schizophrenia, dyslexia, and autism spectrum disorder. What is intriguing is that a seemingly uniform circuit that is often described as being "simple" should carry out all of these behaviors. Analyses of how cerebellar circuits develop have revealed that such descriptions massively underestimate the complexity of the cerebellum. The cerebellum is in fact highly patterned and organized around a series of parasagittal stripes and transverse zones. This topographic architecture partitions all cerebellar circuits into functional modules that are thought to enhance processing power during cerebellar dependent behaviors. What are arguably the most remarkable features of cerebellar topography are the developmental processes that produce them. This review is concerned with the genetic and cellular mechanisms that orchestrate cerebellar patterning. We place a major focus on how Purkinje cells control multiple aspects of cerebellar circuit assembly. Using this model, we discuss evidence for how "zebra-like" patterns in Purkinje cells sculpt the cerebellum, how specific genetic cues mediate the process, and how activity refines the patterns into an adult map that is capable of executing various functions. We also discuss how defective Purkinje cell patterning might impact the pathogenesis of neurological conditions.
Topics: Animals; Cerebellar Diseases; Cerebellum; Humans; Purkinje Cells
PubMed: 29746896
DOI: 10.1016/j.neulet.2018.05.013 -
Development, Growth & Differentiation Jun 2008The vertebrate central nervous system is elaborated from a simple neural tube. Brain vesicles formation is the first sign of regionalization. Classical transplantation... (Review)
Review
The vertebrate central nervous system is elaborated from a simple neural tube. Brain vesicles formation is the first sign of regionalization. Classical transplantation using quail and chick embryos revealed that the mesencephalon-metencephalon boundary (isthmus) functions as an organizer of the mesencephalon and metencephalon. Fgf8 is accepted as a main organizing molecule of the isthmus. Strong Fgf8 signal activates the Ras-ERK signaling pathway to differentiate the cerebellum. In this review, the historical background of the means of identifying the isthmus organizer and the molecular mechanisms of signal transduction for tectum and cerebellum differentiation is reviewed.
Topics: Animals; Cerebellum; Chick Embryo; Developmental Biology; Extracellular Signal-Regulated MAP Kinases; Fibroblast Growth Factor 8; Gene Expression Regulation, Developmental; Mesencephalon; Metencephalon; Models, Anatomic; Models, Biological; Neural Crest; Quail; Transcription Factors; ras Proteins
PubMed: 18494704
DOI: 10.1111/j.1440-169X.2008.00995.x -
Cell Stem Cell Jan 2024Research on human cerebellar development and disease has been hampered by the need for a human cell-based system that recapitulates the human cerebellum's cellular...
Research on human cerebellar development and disease has been hampered by the need for a human cell-based system that recapitulates the human cerebellum's cellular diversity and functional features. Here, we report a human organoid model (human cerebellar organoids [hCerOs]) capable of developing the complex cellular diversity of the fetal cerebellum, including a human-specific rhombic lip progenitor population that have never been generated in vitro prior to this study. 2-month-old hCerOs form distinct cytoarchitectural features, including laminar organized layering, and create functional connections between inhibitory and excitatory neurons that display coordinated network activity. Long-term culture of hCerOs allows healthy survival and maturation of Purkinje cells that display molecular and electrophysiological hallmarks of their in vivo counterparts, addressing a long-standing challenge in the field. This study therefore provides a physiologically relevant, all-human model system to elucidate the cell-type-specific mechanisms governing cerebellar development and disease.
Topics: Humans; Infant; Purkinje Cells; Cerebellum; Metencephalon; Organoids
PubMed: 38181749
DOI: 10.1016/j.stem.2023.11.013 -
The International Journal of... 2005The brain vesicles that are formed at an early stage of neural development are the fundamentals of the brain plan. Heterotopic transplantation revealed that the... (Review)
Review
The brain vesicles that are formed at an early stage of neural development are the fundamentals of the brain plan. Heterotopic transplantation revealed that the diencephalon could change its fate when juxtaposed to the isthmus (mes-metencephalic boundary), which indicated that the isthmus functions as an organizer for the mesencephalon and metencephalon. Fgf8 is identified as an isthmus organizing signal. Misexpression of Fgf8a and Fgf8b indicated that a strong Fgf8 signal organizes cerebellar development. The transcription factors define the fate of the region. Overlapping expression of Otx2, En1 and Pax2 may define the mesencephalic region and additional expression of Pax3/7 may instruct the mesencephalic region to differentiate into the tectum. The di-mesencephalic boundary is determined by repressive interaction between Pax6 and En1/Pax2 and the mes-metencephalic boundary is defined by repressive interaction between Otx2 and Gbx2. Fgf8 is induced at the border of the Otx2 and Gbx2 expression domain, overlapping with Gbx2 expression.
Topics: Animals; Body Patterning; Brain; Gene Expression Regulation, Developmental; Gene Silencing; Gene Transfer Techniques; Mesencephalon; Metencephalon; Organizers, Embryonic
PubMed: 15906236
DOI: 10.1387/ijdb.041964hn -
Nature Sep 2022Medulloblastoma, a malignant childhood cerebellar tumour, segregates molecularly into biologically distinct subgroups, suggesting that a personalized approach to...
Medulloblastoma, a malignant childhood cerebellar tumour, segregates molecularly into biologically distinct subgroups, suggesting that a personalized approach to therapy would be beneficial. Mouse modelling and cross-species genomics have provided increasing evidence of discrete, subgroup-specific developmental origins. However, the anatomical and cellular complexity of developing human tissues-particularly within the rhombic lip germinal zone, which produces all glutamatergic neuronal lineages before internalization into the cerebellar nodulus-makes it difficult to validate previous inferences that were derived from studies in mice. Here we use multi-omics to resolve the origins of medulloblastoma subgroups in the developing human cerebellum. Molecular signatures encoded within a human rhombic-lip-derived lineage trajectory aligned with photoreceptor and unipolar brush cell expression profiles that are maintained in group 3 and group 4 medulloblastoma, suggesting a convergent basis. A systematic diagnostic-imaging review of a prospective institutional cohort localized the putative anatomical origins of group 3 and group 4 tumours to the nodulus. Our results connect the molecular and phenotypic features of clinically challenging medulloblastoma subgroups to their unified beginnings in the rhombic lip in the early stages of human development.
Topics: Animals; Cell Lineage; Cerebellar Neoplasms; Cerebellum; Humans; Medulloblastoma; Metencephalon; Mice; Neurons; Prospective Studies
PubMed: 36131015
DOI: 10.1038/s41586-022-05208-9 -
Perspectives on Developmental... 1997Experimental studies in chick and analysis of mouse mutants have provided a framework for studying the early developmental processes involved in specifying the... (Review)
Review
Experimental studies in chick and analysis of mouse mutants have provided a framework for studying the early developmental processes involved in specifying the cerebellar anlage. Fate mapping studies in chick have shown that at early stages the cerebellum derives from cells in the mesencephalon and metencephalon (mes-met). Transplantation studies in chick have implicated the mes-met junction (isthmus) as a source of secreted factors that organize development of the entire mes-met, perhaps by stimulating proliferation and specifying positional values across the region. Fgf-8 has been implicated as a major factor involved in the isthmus organizing activity. Gene expression studies indicate that the anterior and posterior expression domains of the homeobox genes Otx-2 and Gbx-2, respectively, are the earliest indication of a division of the brain. Furthermore, the Otx-2/Gbx-2 expression border later resides at the mes-met junction. Genetic studies in mouse have shown that Otx-2 and Gbx-2 are required for normal development of cells on both sides of the border. In addition, mutations affecting the secreted factor Wnt-1, which is expressed anterior to the Otx-2/Gbx-2 expression border and the homeodomain transcription factors, Engrailed-1,2 and Pax-2,5 that have broad overlapping expression domains in the mes-met, result in deletions of mes-met structures. Taken together, these studies suggest that specification of the cerebellar territory requires a hierarchy of complex cellular and genetic interactions that gradually subdivide the brain into smaller regions.
Topics: Animals; Body Patterning; Brain Mapping; Cerebellum; Chick Embryo; Embryonic and Fetal Development; Gene Expression Regulation, Developmental; Gestational Age; Mesencephalon; Mice; Pons
PubMed: 9509514
DOI: No ID Found -
Nature Sep 2022Medulloblastoma (MB) comprises a group of heterogeneous paediatric embryonal neoplasms of the hindbrain with strong links to early development of the hindbrain....
Medulloblastoma (MB) comprises a group of heterogeneous paediatric embryonal neoplasms of the hindbrain with strong links to early development of the hindbrain. Mutations that activate Sonic hedgehog signalling lead to Sonic hedgehog MB in the upper rhombic lip (RL) granule cell lineage. By contrast, mutations that activate WNT signalling lead to WNT MB in the lower RL. However, little is known about the more commonly occurring group 4 (G4) MB, which is thought to arise in the unipolar brush cell lineage. Here we demonstrate that somatic mutations that cause G4 MB converge on the core binding factor alpha (CBFA) complex and mutually exclusive alterations that affect CBFA2T2, CBFA2T3, PRDM6, UTX and OTX2. CBFA2T2 is expressed early in the progenitor cells of the cerebellar RL subventricular zone in Homo sapiens, and G4 MB transcriptionally resembles these progenitors but are stalled in developmental time. Knockdown of OTX2 in model systems relieves this differentiation blockade, which allows MB cells to spontaneously proceed along normal developmental differentiation trajectories. The specific nature of the split human RL, which is destined to generate most of the neurons in the human brain, and its high level of susceptible EOMESKI67 unipolar brush cell progenitor cells probably predisposes our species to the development of G4 MB.
Topics: Cell Differentiation; Cell Lineage; Cerebellar Neoplasms; Cerebellum; Core Binding Factor alpha Subunits; Hedgehog Proteins; Histone Demethylases; Humans; Ki-67 Antigen; Medulloblastoma; Metencephalon; Muscle Proteins; Mutation; Otx Transcription Factors; Repressor Proteins; T-Box Domain Proteins; Transcription Factors
PubMed: 36131014
DOI: 10.1038/s41586-022-05215-w -
Handbook of Clinical Neurology 2018Conventional magnetic resonance imaging (MRI) allows for a detailed noninvasive visualization/examination of posterior fossa structures and represents a fundamental step... (Review)
Review
Conventional magnetic resonance imaging (MRI) allows for a detailed noninvasive visualization/examination of posterior fossa structures and represents a fundamental step in the diagnostic workup of many cerebellar disorders. In the first part of this chapter methodologic issues, like the correct choice of hardware (magnets, coils), pro and cons of the different MRI sequences, and patient management during the examination are discussed. In the second part, the MRI anatomy of the cerebellum, as noted on the various conventional MRI sequences, as well as a detailed description of cerebellar maturational processes from birth to childhood and into adulthood, are reported. Volumetric studies on the cerebellar growth based on three-dimensional MRI sequences are also presented. Moreover, we briefly discuss two main topics regarding conventional MRI of the cerebellum that have generated some debate in recent years: the differentiation between cerebellar atrophy, hypoplasia, and pontocerebellar hypoplasia, and signal changes of dentate nuclei after repetitive gadolinium-based contrast injections. The advantages and benefits of advanced neuroimaging techniques, including H magnetic resonance spectroscopy, diffusion-weighted imaging, diffusion tensor imaging, and perfusion-weighted imaging are discussed in the last section of the chapter.
Topics: Age Factors; Cerebellar Diseases; Cerebellum; Humans; Image Processing, Computer-Assisted; Magnetic Resonance Imaging
PubMed: 29903441
DOI: 10.1016/B978-0-444-63956-1.00013-8