Locus Ceruleus Terminals in the Fundus StriatiNucleus accumbens septi of the Cat : Electron Microscopic Study.
- Author:
Taek Soo KIM
;
Myung Hoon CHUN
;
Jin Woong JUNG
- Publication Type:Original Article
- Keywords:
Locus ceruleus terminal;
Synaptic organization;
Fundus striati[Nucleus accumbens septi];
Cat
- MeSH:
Animals;
Cats*;
Dendritic Spines;
Fungi;
Locus Coeruleus*;
Microscopy, Electron;
Neurons;
Presynaptic Terminals;
Synapses;
Synaptic Vesicles
- From:Korean Journal of Anatomy
1997;30(4):421-430
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Although the distribution of locus ceruleus terminals has been demonstrated in the fundus striati[nucleus accumbens septi] by light microscopy[Jones & Moore, 1977 ; Mason & Fibiger, 1979 ; Streit or et al., 1979 ; Groenewegen et al., 1980], the synaptic organization of its terminals was not clarified. The purpose of the present investigation was to demonstrate the direct monosynaptic connection of the locus ceruleus terminals to the neuronal elements of the fundus stirati, and to clarify the synaptic structures of its terminals by electron microscopy two days after unilateral electric coagulation of the locus ceruleus. In the ipsilateral fundus striati, many axon terminals undergone dark degeneration were observed. These degenerating terminals containing small clear vesicles have asymmetric synaptic contacts with dendritic spines. Already two days after locus ceruleus lesion, distinct features of terminal degenerations appeared in the fundus striati ; enlarged axon terminals with altered synaptic vesicles, decrease of synaptic vesicles detached from the synaptic site, multiplication of dense bodies and infiltration of floccular material. At the same time, a regressive change occurred in which astrocytic processes encircled totally degenerated synapses spiraled around the synaptic remnants. These observations indicate that monosynaptic noradrenertic afferent connections to the fungus striati are confirmed, and the locus ceruleus terminals characterized by small round vesicles might be formed asymmetrical axo-spinous synapses with spiny neurons in the fundus striati.