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1.
Science ; 316(5828): 1212-6, 2007 May 25.
Article in English | MEDLINE | ID: mdl-17525344

ABSTRACT

The roles of endocannabinoid signaling during central nervous system development are unknown. We report that CB(1) cannabinoid receptors (CB(1)Rs) are enriched in the axonal growth cones of gamma-aminobutyric acid-containing (GABAergic) interneurons in the rodent cortex during late gestation. Endocannabinoids trigger CB(1)R internalization and elimination from filopodia and induce chemorepulsion and collapse of axonal growth cones of these GABAergic interneurons by activating RhoA. Similarly, endocannabinoids diminish the galvanotropism of Xenopus laevis spinal neurons. These findings, together with the impaired target selection of cortical GABAergic interneurons lacking CB(1)Rs, identify endocannabinoids as axon guidance cues and demonstrate that endocannabinoid signaling regulates synaptogenesis and target selection in vivo.


Subject(s)
Cannabinoid Receptor Modulators/physiology , Endocannabinoids , Interneurons/physiology , Receptor, Cannabinoid, CB1/physiology , Animals , Axons/physiology , Cannabinoid Receptor Modulators/metabolism , Cell Movement , Cells, Cultured , Cerebral Cortex/cytology , Cerebral Cortex/embryology , Cerebral Cortex/ultrastructure , Growth Cones/diagnostic imaging , Growth Cones/physiology , In Situ Hybridization , Interneurons/diagnostic imaging , Interneurons/metabolism , Mice , Mice, Inbred C57BL , Microscopy, Confocal , Rats , Rats, Sprague-Dawley , Receptor, Cannabinoid, CB1/agonists , Signal Transduction , Stem Cells/metabolism , Synapses/diagnostic imaging , Synapses/physiology , Ultrasonography , Xenopus Proteins/physiology , Xenopus laevis , gamma-Aminobutyric Acid/metabolism
2.
Neuroimage ; 23(4): 1283-98, 2004 Dec.
Article in English | MEDLINE | ID: mdl-15589093

ABSTRACT

Exact geometrical reconstructions of neuronal architecture are indispensable for the investigation of neuronal function. Neuronal shape is important for the wiring of networks, and dendritic architecture strongly affects neuronal integration and firing properties as demonstrated by modeling approaches. Confocal microscopy allows to scan neurons with submicron resolution. However, it is still a tedious task to reconstruct complex dendritic trees with fine structures just above voxel resolution. We present a framework assisting the reconstruction. User time investment is strongly reduced by automatic methods, which fit a skeleton and a surface to the data, while the user can interact and thus keeps full control to ensure a high quality reconstruction. The reconstruction process composes a successive gain of metric parameters. First, a structural description of the neuron is built, including the topology and the exact dendritic lengths and diameters. We use generalized cylinders with circular cross sections. The user provides a rough initialization by marking the branching points. The axes and radii are fitted to the data by minimizing an energy functional, which is regularized by a smoothness constraint. The investigation of proximity to other structures throughout dendritic trees requires a precise surface reconstruction. In order to achieve accuracy of 0.1 microm and below, we additionally implemented a segmentation algorithm based on geodesic active contours that allow for arbitrary cross sections and uses locally adapted thresholds. In summary, this new reconstruction tool saves time and increases quality as compared to other methods, which have previously been applied to real neurons.


Subject(s)
Dendrites/diagnostic imaging , Image Processing, Computer-Assisted , Imaging, Three-Dimensional , Microscopy, Confocal , Neurons/ultrastructure , Algorithms , Animals , Astrocytes/diagnostic imaging , Interneurons/diagnostic imaging , Mathematical Computing , Motor Neurons/diagnostic imaging , Nerve Net/anatomy & histology , Neural Networks, Computer , Psychodidae , Software , Ultrasonography
3.
Brain Behav Evol ; 63(2): 82-106, 2004.
Article in English | MEDLINE | ID: mdl-14685003

ABSTRACT

This study presents a comparative stereologic investigation of neurofilament protein- and calcium-binding protein-immunoreactive neurons within the region of orofacial representation of primary motor cortex (Brodmann's area 4) in several catarrhine primate species (Macaca fascicularis, Papio anubis, Pongo pygmaeus, Gorilla gorilla, Pan troglodytes, and Homo sapiens). Results showed that the density of interneurons involved in vertical interlaminar processing (i.e., calbindin- and calretinin-immunoreactive neurons) as well pyramidal neurons that supply heavily-myelinated projections (i.e., neurofilament protein-immunoreactive neurons) are correlated with overall neuronal density, whereas interneurons making transcolumnar connections (i.e., parvalbumin-immunoreactive neurons) do not exhibit such a relationship. These results suggest that differential scaling rules apply to different neuronal subtypes depending on their functional role in cortical circuitry. For example, cortical columns across catarrhine species appear to involve a similar conserved network of intracolumnar inhibitory interconnections, as represented by the distribution of calbindin- and calretinin-immunoreactive neurons. The subpopulation of horizontally-oriented wide-arbor interneurons, on the other hand, increases in density relative to other interneuron subpopulations in large brains. Due to these scaling trends, the region of orofacial representation of primary motor cortex in great apes and humans is characterized by a greater proportion of neurons enriched in neurofilament protein and parvalbumin compared to the Old World monkeys examined. These modifications might contribute to the voluntary dexterous control of orofacial muscles in great ape and human communication.


Subject(s)
Biological Evolution , Calcium-Binding Proteins/analysis , Cercopithecidae/anatomy & histology , Facial Muscles/innervation , Hominidae/anatomy & histology , Masticatory Muscles/innervation , Motor Cortex/anatomy & histology , Neurofilament Proteins/analysis , Animal Communication , Animals , Facial Expression , Humans , Interneurons/diagnostic imaging , Nerve Fibers, Myelinated/physiology , Nerve Net/anatomy & histology , Neurons/diagnostic imaging , Phylogeny , Species Specificity , Ultrasonography , Vocalization, Animal/physiology
4.
J Neuropsychiatry Clin Neurosci ; 14(4): 377-405, 2002.
Article in English | MEDLINE | ID: mdl-12426407

ABSTRACT

This report reviews the state of the literature and opportunities for research related to "executive control function" (ECF). ECF has recently been separated from the specific cognitive domains (memory, language, and praxis) traditionally used to assess patients. ECF impairment has been associated with lesions to the frontal cortex and its basal ganglia-thalamic connections. No single putative ECF measure can yet serve as a "gold standard." This and other obstacles to assessment of ECF are reviewed. ECF impairment and related frontal system lesions and metabolic disturbances have been detected in many psychiatric and medical disorders and are strongly associated with functional outcomes, disability, and specific problem behaviors. The prevalence and severity of ECF deficits in many disorders remain to be determined, and treatment has been attempted in only a few disorders. Much more research in these areas is necessary.


Subject(s)
Cognition Disorders/physiopathology , Prefrontal Cortex/physiopathology , Alzheimer Disease/complications , Alzheimer Disease/diagnosis , Alzheimer Disease/physiopathology , Basal Ganglia/diagnostic imaging , Basal Ganglia/physiopathology , Cognition Disorders/diagnosis , Cognition Disorders/etiology , Dementia, Vascular/complications , Dementia, Vascular/diagnosis , Dementia, Vascular/physiopathology , Diabetes Complications , Humans , Huntington Disease/complications , Huntington Disease/diagnosis , Huntington Disease/physiopathology , Interneurons/diagnostic imaging , Interneurons/physiology , Neuropsychological Tests , Obsessive-Compulsive Disorder/complications , Obsessive-Compulsive Disorder/diagnosis , Obsessive-Compulsive Disorder/physiopathology , Parkinson Disease/complications , Parkinson Disease/diagnosis , Parkinson Disease/physiopathology , Prefrontal Cortex/diagnostic imaging , Prefrontal Cortex/metabolism , Receptors, GABA/metabolism , Receptors, Glutamate/metabolism , Schizophrenia/complications , Schizophrenia/diagnosis , Schizophrenia/physiopathology , Thalamus/diagnostic imaging , Thalamus/physiopathology , Tomography, Emission-Computed , Tomography, Emission-Computed, Single-Photon
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