Showing papers by "Ann M. Graybiel published in 1989"

Intrastriatal grafts derived from fetal striatal primordia. I. Phenotypy and modular organization.

Abstract: Fetal striatal grafts display a striking modularity of composition. With acetylcholinesterase (AChE) histochemistry, the tissue of such grafts can be divided into regions with strong AChE staining of the neuropil and regions in which AChE staining of the neuropil is weak. In the experiments reported here, we reexamined the nature of this modularity. Striatal grafts were made by injecting dissociated cells of E15 ganglionic eminence into the striatum of adult rats, which 7 days before had recived intrastriatal deposits of ibotenic acid. Some donors had been exposed to 3H-thymidine at E11-E15. After 9–17 month survivals, the anatomical organization of the grafts was studied by histochemistry, immunohistochemistry, and autoradiography. In every graft, the AChE-rich regions formed patches (P regions) in a larger AChE-poor surround (NP regions). Neurons labeled with 3H-thymidine appeared in both P and NP regions, suggesting that donor cells were distributed in each type of region and that neither type of tissue, P or NP, was composed exclusively of host tissue. In the AChE-rich P regions, markers characteristic of normal perinatal and mature rat striatum were expressed by medium-sized cells: calcium-binding protein (calbindin D28k) immunostaining, metenkephalin (mENK) immunostaining, and, more rarely, somatostatin (SOM) immunostaining. In the NP regions, however, medium-sized cells expressing calbindin and mENK immunostaining were very rare, and there was an abundance of neuronal types not found in normal mature striatal tissue. These included (1) large, multipolar, calbindin-positive neurons with well-ramified, densely stained dendrites, (2) large, SOM-positive neurons with prominent dendritic trees, and (3) mENK-positive cells smaller than typical striatal, medium-sized, mENK-immunoreactive neurons. In Nissl stains, the AChE-rich P regions resembled the normal striatum of mature animals, whereas the AChE-poor NP regions did not. These findings suggest that the P regions of fetal striatal grafts achieve a phenotypy similar to that of normal striatum at maturity and during much of postnatal development. The dominant expression of perikaryal calbindin- like immunoreactivity in the P regions further suggests that these zones have a high proportion of tissue resembling striatal matrix. By contrast, expression of marker antigens in the NP zones of the grafts suggests that these zones are predominantly composed of nonstriatal tissue or that they have the phenotypy of immature striatum intermixed with some nonstriatal cells.(ABSTRACT TRUNCATED AT 400 WORDS)

Neuroleptic-sensitive binding sites in the nigrostriatal system: evidence for differential distribution of sigma sites in the substantia nigra, pars compacta of the cat.

Abstract: The sigma site is a recently described binding site to which dextrorotary isomers of certain psychotomimetic benzomorphans bind specifically. Classical and nonclassical neuroleptics also have high affinity for the sigma site, including neuroleptics known to bind to the D2 dopamine receptor. The affinity of some D2-binding neuroleptics for the sigma site has raised the possibility that certain important effects of antipsychotic drugs may relate to the sigma site. Left unresolved has been the question of how these actions could relate to dopaminergic systems. To explore this issue we carried out an autoradiographic binding study of the distribution of the sigma- selective ligand 3H-DTG in the nigrostriatal system. We report here that haloperidol-displaceable 3H-DTG binding sites are densely concentrated in an anatomically discrete subdivision of the cat's substantia nigra pars compacta. This zone, identifiable as the striosome-projecting densocellular zone of the pars compacta, also shows heightened D2-related ligand binding but has reduced D1-related ligand binding relative to other parts of the nigral complex. This evidence suggests that sigma-mediated interactions with dopaminergic systems may occur in the substantia nigra pars compacta and that the functional effects of these interactions may influence the nigrostriatal projection to striosomes differentially.

Dopamine uptake sites in the striatum are distributed differentially in striosome and matrix compartments.

Abstract: A major mechanism of neurotransmitter inactivation at catecholaminergic synapses is reuptake of released transmitter at high-affinity uptake sites on presynaptic terminals. We have analyzed the anatomical distribution of site-selective ligand binding for dopamine uptake sites in the striatum of rat, cat, and monkey. We report here that desipramine-sensitive [3H]mazindol binding sites have highly heterogeneous distributions in the dorsal and the ventral striatum. In the caudate nucleus of cat and monkey, [3H]mazindol binding observes striosomal ordering, being reduced in striosomes and heightened in the extrastriosomal matrix. Some local heterogeneity appears in the ventral caudoputamen of the rat. Different subdivisions of the nucleus accumbens also have different binding levels. These findings suggest that some functional effects of psychoactive drugs, such as cocaine, that bind to the dopamine-uptake complex could be related to the distribution of these specific uptake sites. The findings also raise the possibility that these distributions could result in selective neuronal vulnerability to neurotoxins, such as 1-methyl-4-phenylpyridine (MPP+), that depend on the dopamine-uptake complex for entry into neurons.

Selective vulnerability of pigmented dopaminergic neurons in Parkinson's disease.

Abstract: From a neuropathological point, the diagnosis of Parkinson's disease is confirmed by a neuronal cell loss and the presence of Lewy bodies in the substantia nigra. In Parkinson's disease, the precise type of nigral neuron which degenerate still remains unknown. Are all types of neuron similarly injured, are only subpopulations of neurons vulnerable? In an attempt to answer the question, a qualitative and quantitative analysis of the distribution of dopaminergic cells, as identified by immunohistochemistry with a specific antibody against tyrosine hydroxylase, was performed in the ventral mesencephalon of control subjects and patients who died with a clinical diagnosis of Parkinson's disease. In control brains, two types of catecholaminergic neurons were evidenced; some contain visible-neuromelanin, others do not. In patients with Parkinson's disease, the tyrosine hydroxylase positive cells which contained the pigment were the most vulnerable.

Evidence that histochemically distinct zones of the primate substantia nigra pars compacta are related to patterned distributions of nigrostriatal projection neurons and striatonigral fibers.

Abstract: A marked histochemical compartmentalization is visible in the substantia nigra of the squirrel monkey in sections stained for acetylcholinesterase (AChE). In nigral regions containing tyrosine hydroxylase-positive neurons, there are AChE-poor and AChE-rich zones, and many of the AChE-poor zones have the form of narrow fingers extending ventrally into an AChE-rich matrix (Jimenez-Castellanos and Graybiel 1987b). The study reported here was carried out to determine whether this histochemical heterogeneity of the primate's substantia nigra is related to the known differentiation within its pars compacta of subdivisions projecting respectively to the caudate nucleus and to the putamen. Retrograde and anterograde labeling in the substantia nigra was elicited by tracer injections placed in the caudate nucleus or putamen and was plotted in relation to patterns of AChE staining and tyrosine hydroxylase immunostaining. Much of the labeling observed was organized according to borders visible with AChE histochemistry: labeled nigral neurons (and afferent fibers) tended to be clustered precisely within the AChE-poor ventrally-extending fingers or to be situated outside these zones. However, projection neurons in these ventrally-extending fingers were not exclusively related either to the caudate nucleus or to the putamen. After injections in the caudate nucleus, labeled neurons were predominantly in the AChE-poor fingers in some cases, but predominantly in AChE-rich nigral zones outside them in other cases. Labeling in and out of the ventrally-extending fingers, and along the edges of the fingers, also occurred following different tracer injections in the putamen. These findings confirm the independent clustering of nigrostriatal neurons projecting respectively to the caudate nucleus and to the putamen. The plan of nigrostriatal connections additionally appears concordant with the histochemical compartmentalization of the substantia nigra that can be detected with acetylthiocholinesterase histochemistry.