Browsing by Subject "Choline acetyltransferase"
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- PublicationOpen AccessArchitecture of the mammalian pituitary cholinergic system with observations on a putative blood acetylcholine sensor(Murcia : F. Hernández, 1996) Caffé, A. R.Acetylcholine ( ACh) play s an important role in pituitary gland function. Little is known, however, about the source and trajectory of pituitary ACh, the location of pituitary cholinergic receptors. and the pathways along which the release of pituitary ACh is controlled. Therefore choline acetyltransferase (ChAT) immunoreactive profiles have been investigated in the rat median eminence and pituitary. Furthermore, both muscarinic- (mAChRp-L) and nicotinic receptor proteinlike (nAChRp-L) immunoreactivity have been examined in the rat, rabbit, and cat pituitary. The results have demonstrated that the rat pituitary ChAT network is composed of neurons in the hypothalamic arcuate nucleus and a great number of terminals in the median eminence. In the pituitary, ChAT immunolabeled profiles were virtually absent. This suggests that much of the ACh acting on pituitary cells is released as a humoral factor from the median eminence. Al1 the examined animals expressed mAChRp-L immunostained endocrine cells in the intermediate lobe. Apart from this, marked species differences in AChRp-L immunolabeled profiles have been found. In addition, strong mAChRp-L immunoreactive rod to cone-shaped bodies were detected associated with blood vessels of the anterior and intermediate lobes in the rat and rabbit, but not in the cat. The immunolabeling was present in particles on the body plasma membrane. These characteristics suggest that the function of these structures might be to sense pituitary blood ACh levels. Consequently the name hlood acetylcholine reading hodies (BARBs) was adopted to indicate these stmctures. It is proposed that the BARBs may play a role in the feedback control of ACh release from the median eminence.
- PublicationOpen AccessLocalization of choline acetyltransferase and tyrosine hydroxylase immunoreactivities in the superior colliculus of the microbat, Rhinolophus ferrumequinum(Universidad de Murcia. Departamento de Biología Celular e Histología, 2017) Jeong, Se Jin; Jeon, Chang JinThe purpose of this study was to determine whether the superior colliculus (SC) of the microbat has the same neurochemical makeup as that of other mammals. We examined the organization of choline acetyltransferase (ChAT)- and tyrosine hydroxylaseimmunoreactive (TH-IR) fibers/cells using standard immunohistochemistry with antibodies against ChAT and TH. ChAT-IR fibers observed in the superficial layers were denser than those in the deeper layers, and these fibers were classified into two types: small varicose fibers and large varicose fibers. ChAT-IR cells were predominantly located in the superficial layers with diverse morphologies. Among the well-known sources of cholinergic fibers in the mammalian SC, pedunculopontine tegmental nucleus (PPTN) and laterodorsal tegmental nucleus (LDTN) contained strongly labeled ChAT-IR cells, while no cholinergic structures were found in the parabigeminal nucleus (PBG) in the microbat brain. TH-immunoreactivity was found within fibers but not within cells. The density of TH-IR fibers was high in the zonal layer, moderate in the superficial gray and optic layers, and low in the deeper layers. Well-labeled TH-IR cells were also observed within area 13 and the locus coeruleus, known as the sources of catecholaminergic fibers in other mammalian SC. Although there are some cytoarchitectural variations among species, our results clearly showed elaborately organized ChAT-IR and TH-IR fibers/cells in the microbat SC. Our findings will contribute significantly to the understanding of actively constructed microbat visual systems
- PublicationOpen AccessThe distribution of cholinergic neurons in the human central nervous system(F. Hernández y Juan F. Madrid. Universidad de Murcia: Departamento de Biología Celular e Histología, 2000) Oda, Y.; Nakanishi, I.Choline acetyltransferase (ChAT), the enzyme responsible for the biosynthesis of acetylcholine, is presently the most specific marker for identifying cholinergic neurons in the central and peripheral nervous systems. The present article reviews immunohistochemical and in situ hybridization studies on the distribution of neurons ex pressing ChAT in the human central nervous system. Neurons with both immunoreactivity and in situ hybridization signals of ChAT are observed in the basal forebrain (diagonal band of Broca and nucleus basalis of Meynert), striatum (caudate nucleus, putamen and nucleus accumbens), cerebral cortex, mesopontine tegmental nuclei (pedunculopontine tegmental nucleus, laterodorsal tegmental nucleus and parabigeminal nucleus), cranial motor nuclei and spinal motor neurons. The cerebral cortex displays regional and laminal differences in the distribution of neurons with ChAT. The medial seotal nucleus and medial habenular nucleus contain immunoreactive neurons for ChAT, which are devoid of ChAT mRNA signals. This is probably because there is a small number of cholinergic neurons with a low level of ChAT gene expression in these nuclei of human. Possible connections and speculated functions of these neurons are briefly summarized.