A robotic system for quantitative assessment and poststroke training of forelimb retraction in mice.

Background: Neurorehabilitation protocols based on the use of robotic devices have recently shown to provide promising clinical results. However, their efficacy is still limited because of the poor comprehension of the mechanisms at the basis of functional enhancements.

Objective: To increase basic understanding of robot-mediated neurorehabilitation by performing experiments on a rodent model of stroke.

Evidence for anterograde transport and transcytosis of botulinum neurotoxin A (BoNT/A).

Botulinum neurotoxin type A (BoNT/A) is a metalloprotease that blocks synaptic transmission via the cleavage of SNAP-25 (synaptosomal-associated protein of 25 kDa). BoNT/A is successfully used in clinical neurology for the treatment of several neuromuscular pathologies and pain syndromes. Despite its widespread use, relatively little is known on BoNT/A intracellular trafficking in neurons.

Environmental enrichment potentiates thalamocortical transmission and plasticity in the adult rat visual cortex.

It has been demonstrated that the complex sensorimotor and social stimulation achieved by rearing animals in an enriched environment (EE) can reinstate juvenile-like plasticity in the adult cortex. However, it is not known whether EE can affect thalamocortical transmission. Here, we recorded in vivo field potentials from the visual cortex evoked by electrical stimulation of the dorsal lateral geniculate nucleus (dLGN) in anesthetized rats.

Functional masking of deprived eye responses by callosal input during ocular dominance plasticity.

Monocular deprivation (MD) is a well-known paradigm of experience-dependent plasticity in which cortical neurons exhibit a shift of ocular dominance (OD) toward the open eye. The mechanisms underlying this form of plasticity are incompletely understood. Here we demonstrate the involvement of callosal connections in the synaptic modifications occurring during MD.

AP2gamma regulates basal progenitor fate in a region- and layer-specific manner in the developing cortex.

An important feature of the cerebral cortex is its layered organization, which is modulated in an area-specific manner. We found that the transcription factor AP2gamma regulates laminar fate in a region-specific manner. Deletion of AP2gamma (also known as Tcfap2c) during development resulted in a specific reduction of upper layer neurons in the occipital cortex, leading to impaired function and enhanced plasticity of the adult visual cortex.

Environmental enrichment promotes fiber sprouting after deafferentation of the superior colliculus in the adult rat brain.

Exposure to an enriched environment has proven to be beneficial in the recovery of function after brain lesions, but the underlying mechanisms remain only partly understood. One possibility is that environmental enrichment stimulates the reorganization of areas and fiber tracts that have been spared by the injury. Here we evaluate the effects of enriched environment on the sprouting of undamaged retinal afferents into the deafferented superior colliculus (SC) after a partial retinal lesion in adult rats.

Long-distance retrograde effects of botulinum neurotoxin A.

Botulinum neurotoxins (designated BoNT/A-BoNT/G) are bacterial enzymes that block neurotransmitter release by cleaving essential components of the vesicle fusion machinery. BoNT/A, which cleaves SNAP-25 (synaptosomal-associated protein of 25 kDa), is extensively exploited in clinical medicine to treat neuromuscular pathologies, facial wrinkles, and various types of pain. It is widely assumed that BoNT/A remains at the synaptic terminal and its effects are confined to the injection site.

Transient synaptic silencing of developing striate cortex has persistent effects on visual function and plasticity.

Neural circuits in the cerebral cortex are shaped by experience during "critical periods" early in life. For example, visual cortex is immature at the time of eye opening and gradually develops its functional properties during a sensitive period. Very few reports have addressed the role of intrinsic neural activity in cortical maturation.

Visual cortex is rescued from the effects of dark rearing by overexpression of BDNF.

Visual deprivation such as dark rearing (DR) prolongs the critical period for ocular dominance plasticity and retards the maturation of gamma-aminobutyric acid (GABA)ergic inhibition in visual cortex. The molecular signals that mediate the effects of DR on the development of visual cortex are not well defined. To test the role of brain-derived neurotrophic factor (BDNF), we examined the effects of DR in transgenic mice in which BDNF expression in visual cortex was uncoupled from visual experience and remained elevated during DR.