Hans Ulrich Dodt scite author profile

Balanced control of neuronal activity is central in maintaining function and viability of neuronal circuits. The endocannabinoid system tightly controls neuronal excitability. Here, we show that endocannabinoids directly target hippocampal glutamatergic neurons to provide protection against acute epileptiform seizures in mice. Functional CB1 cannabinoid receptors are present on glutamatergic terminals of the hippocampal formation, colocalizing with vesicular glutamate transporter 1 (VGluT1). Conditional deletion of the CB1 gene either in cortical glutamatergic neurons or in forebrain GABAergic neurons, as well as virally induced deletion of the CB1 gene in the hippocampus, demonstrate that the presence of CB1 receptors in glutamatergic hippocampal neurons is both necessary and sufficient to provide substantial endogenous protection against kainic acid (KA)-induced seizures. The direct endocannabinoid-mediated control of hippocampal glutamatergic neurotransmission may constitute a promising therapeutic target for the treatment of disorders associated with excessive excitatory neuronal activity.

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Three-dimensional imaging of the unsectioned adult spinal cord to assess axon regeneration and glial responses after injury

Ertürk

Mauch

Hellal

et al. 2011

Nat Med

310

274

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Studying regeneration in the central nervous system (CNS) is hampered by current histological and imaging techniques because they provide only partial information about axonal and glial reactions. Here we developed a tetrahydrofuran-based clearing procedure that renders fixed and unsectioned adult CNS tissue transparent and fully penetrable for optical imaging. In large spinal cord segments, we imaged fluorescently labeled cells by 'ultramicroscopy' and two-photon microscopy without the need for histological sectioning. We found that more than a year after injury growth-competent axons regenerated abundantly through the injury site. A few growth-incompetent axons could also regenerate when they bypassed the lesion. Moreover, we accurately determined quantitative changes of glial cells after spinal cord injury. Thus, clearing CNS tissue enables an unambiguous evaluation of axon regeneration and glial reactions. Our clearing procedure also renders other organs transparent, which makes this approach useful for a large number of preclinical paradigms.

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The Role of Chloride Transport in Postsynaptic Inhibition of Hippocampal Neurons

Misgeld

Deisz

Dodt

et al. 1986

Science

375

195

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Hippocampal inhibitory postsynaptic potentials are depolarizing in granule cells but hyperpolarizing in CA3 neurons because the reversal potentials and membrane potentials of these cells differ. Here the hippocampal slice preparation was used to investigate the role of chloride transport in these inhibitory responses. In both cell types, increasing the intracellular chloride concentration by injection shifted the reversal potential of these responses in a positive direction, and blocking the outward transport of chloride with furosemide slowed their recovery from the injection. In addition, hyperpolarizing and depolarizing inhibitory responses and the hyperpolarizing and depolarizing responses to the inhibitory neurotransmitter gamma-aminobutyric acid decreased in the presence of furosemide. These effects of furosemide suggest that the internal chloride activity of an individual hippocampal neuron is regulated by two transport processes, one that accumulates chloride and one that extrudes chloride.

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Ultramicroscopy: 3D reconstruction of large microscopical specimens

Becker

Jährling

Kramer

et al. 2008

Journal of Biophotonics

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Ultramicroscopy is a microscopical technique that allows optical sectioning and 3D reconstruction of biological and medical specimens. While in confocal microscopy specimen size is limited to several hundred micrometers at best, using ultramicroscopy even centimeter sized objects like whole mouse embryos can be reconstructed with micrometer resolution. This is possible by using a combination of a clearing procedure and the principle of lightsheet illumination. We present ultramicroscopic 3D reconstructions of whole immunohistochemically labelled mouse embryos and adult Drosophila, giving detailed insight into their anatomy. Its speed and simplicity makes ultramicroscopy ideally suited for high-throughput phenotype screening of transgenic mice and thus will benefit the investigation of disease models.

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Hans Ulrich Dodt

The Endocannabinoid System Controls Key Epileptogenic Circuits in the Hippocampus

Three-dimensional imaging of the unsectioned adult spinal cord to assess axon regeneration and glial responses after injury

The Role of Chloride Transport in Postsynaptic Inhibition of Hippocampal Neurons

Ultramicroscopy: 3D reconstruction of large microscopical specimens

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