These results suggest that cannabinoids may modulate noradrenergi

These results suggest that cannabinoids may modulate noradrenergic signaling in the Acb, directly by acting on noradrenergic neurons in the NTS or indirectly by modulating inhibitory and excitatory input in the Acb. “
“In primary visual cortex (V1) neurons, a stimulus placed in the extraclassical receptive field suppresses the response to a stimulus within the classical receptive field (CRF), a phenomenon referred to as surround suppression. The aim of the present study was to elucidate the mechanisms

of surround suppression in V1. Using stationary-flashed sinusoidal grating as Osimertinib stimuli, we observed temporal changes of surround suppression in V1 and the lateral geniculate nucleus

(LGN) and of the response to CRF stimulation in V1. The spatial frequency (SF) tuning of surround suppression in V1 neurons changed over time after the stimulus onset. In the early phase (< 50 ms), the SF tuning was low-pass, but later became band-pass that tuned to the optimal SF in response to CRF stimulation. On the other hand, the SF tuning of CRF responses in V1 was band-pass throughout the response time whereas the SF peak shifted slightly toward high SF. Thus, SF tuning properties of the CRF response dissociated from that of surround suppression in V1 only in the early phase. We also confirmed that the temporal changes of the SF tuning of surround suppression in the LGN occurred in the same Endonuclease direction Navitoclax purchase as surround suppression in V1, but the shift from low-pass to band-pass SF tuning started later than that in V1. From these results, we suggest

that subcortical mechanisms contribute to early surround suppression in V1, whereas cortical mechanisms contribute to late surround suppression. “
“Mice lacking serotonin receptor 1A (Htr1a) display increased anxiety behavior that depends on the expression of the receptor in the forebrain during the third to fifth postnatal weeks. Within the forebrain, Htr1a is prominently expressed in the soma and dendrites of CA1 pyramidal neurons of the hippocampus and these cells undergo rapid dendritic growth and synapse formation during this period. Consistent with a possible role of Htr1a in synaptic maturation, CA1 pyramidal neurons in the knockout mice show increased ramification of oblique dendrites. These findings suggest that Htr1a may shape hippocampal circuits by directly modulating dendritic growth. Here we show that pharmacological blockade of the receptor during the third to fifth postnatal weeks is sufficient to reproduce the increased branching of oblique dendrites seen in knockout mice. Using dissociated hippocampal cultures we demonstrate that serotonin functions through Htr1a to attenuate the motility of dendritic growth cones, reduce their content of filamentous actin and alter their morphology.

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