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  • Title: Analysis of synaptic inputs and targets of physiologically characterized neurons in rat frontal cortex: combined in vivo intracellular recording and immunolabeling.
    Author: Cowan RL, Sesack SR, Van Bockstaele EJ, Branchereau P, Chain J, Pickel VM.
    Journal: Synapse; 1994 Jun; 17(2):101-14. PubMed ID: 7916489.
    Abstract:
    Ultrastructural immunocytochemical identification of transmitters in afferent terminals and targets of individual physiologically characterized neurons is essential for understanding the complex circuitry within the mammalian neocortex. For this type of analysis, we examined the utility of combining in vivo intracellular recording and biocytin injections with silver intensified 1 nm immunogold labeling of GABA and the catecholamine synthesizing enzyme, tyrosine hydroxylase (TH). These transmitters are found to local neurons and afferents known to prominently modulate the activity of pyramidal neurons in the neocortex. Individual neurons were physiologically characterized and filled with biocytin in the frontal cortex of anesthetized rats. The brains were then preserved by vascular perfusion with aldehydes. Single vibratome sections through the recording site were reacted (1) for immunoperoxidase detection of biocytin and (2) for immunogold labeling of GABA or TH. Dually labeled sections were processed for light microscopy or embedded in plastic for electron microscopy. The dense peroxidase product for biocytin was detected in pyramidal neurons. These were located in superficial as well as deep cortical laminae, and were readily distinguished from immunogold silver labeling. GABA labeled terminals formed symmetric synapses with larger biocytin filled dendrites, whereas the TH labeled terminals contacted distal dendrites and spines. Peroxidase labeling for biocytin also was seen in a few axon terminals forming synapses with unlabeled and with GABA immunoreactive dendrites. These results suggest that single pyramidal neurons of the rat frontal cortex receive dual input from both GABA and catecholamine terminals. Additionally, this study demonstrates the usefulness of silver enhancement of 1 nm colloidal gold prior to plastic embedding for electron microscopic detection of neurotransmitters within afferents and targets of neurons physiologically characterized in vivo.
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