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Effects of systemic administration of 6-hydroxydopamine on the circumventricular organs in nonhuman primates (1978)

Brizzee, K. R. ; Palazzo, M. C. ; Klara, P. M. ; [et al.]

Springer

Cell & tissue research 187 (1978), S. 115-127

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ISSN: 1432-0878

Keywords: Area postrema ; 6-Hydroxydopamine ; Degenerative changes ; Ultrastructure ; Cynomolgus and squirrel monkeys

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 6-Hydroxydopamine (6-OH-DA) has been shown to produce degenerative changes in noradrenergic nerve terminals and preterminals in the CNS following intracisternal, intraventricular or direct injection into the brain parenchyma. Systemic injection of 6-OH-DA is known to result in degenerative changes in noradrenergic terminals in the peripheral nervous system. However, only a few studies have been carried out on the effects of systemic injections of 6 OH-DA on noradrenergic terminals in the CNS. In the present study cynomolgus and squirrel monkeys were injected intravenously on two successive days with total doses of 350mg/kg and 150 mg/kg of 6-OH-DA, respectively, and sacrificed at 2 and 24 h following the second injection. Degenerative changes in the area postrema (AP) neurons in all injected animals were characterized by a generalized increase in electron density of cytoplasmic elements in axonal terminals and preterminals. Multilamellar bodies, clusters of clear and dense core vesicles, increased numbers of secondary lysosomes, and an increase in the number of glycogen granules were observed in these structures. In astrocytes the amount of glycogen increased markedly in injected animals, but no other glial alterations were observed. The number of mast cells in the AP was greater in injected than in noninjected animals, both in the perivascular spaces (PVS) and in parenchymal locations. Cell processes in the PVS were occasionally observed to contain electron dense bodies, and degenerative changes were seen in supraependymal processes in some injected animals.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00220623

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Effects of systemic administration of 6-hydroxydopamine on the circumventricular organs in nonhuman primates (1978)

Palazzo, M. C. ; Brizzee, K. R. ; Hofer, H. ; [et al.]

Springer

Cell & tissue research 191 (1978), S. 141-150

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ISSN: 1432-0878

Keywords: Subfornical organ ; Third ventricle ; 6-Hydroxydopamine ; Electron microscopy ; Primate

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The neurotoxin 6-hydroxydopamine (6-OH-DA) has been shown to produces degenerative changes in noradrenergic nerve terminals and preterminals in the CNS following intracisternal, intraventricular, and stereotaxic injection into the brain parenchyma. Systemic injections of this drug are also known to result in degenerative changes in noradrenergic terminals in the peripheral nervous system and in the circumventricular organs (CVO; areas of the CNS which lie outside the blood brain barrier). In the present study eight adult female cynomolgus monkeys were employed. The four experimental animals were injected on two successive days with 150 and 200 mg/kg 6-OH-DA, respectively. The four controls received only the diluent consisting of 0.1% ascorbic acid in normal saline. Two animals from each of the experimental and control groups were sacrificed at 2 h and 24 h after the second injection. Degenerative changes in the SFO neurons were characterized by a generalized increase in electron density of cytoplasmic elements in axonal terminals and preterminals. Multilamellar bodies, and increases in the number of dense core vesicles, dense bodies and secondary lysosomes were also observed after treatment with 6-OH-DA. The neurons showed clumping of mitochondria, which also appeared to be undergoing degenerative changes. The vacuoles in some supraependymal cells were greatly dilated as was the Golgi apparatus in the ependymal cells. The ependymal cell layer appeared to be intact, but there were areas immediately deep to this cell layer that contained large extracellular spaces. This increase in extracellular space was also commonly observed surrounding the perivascular spaces. These phenomena greatly contribute to the “spongy” appearance that the SFO takes on after 6-OH-DA administration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00223222

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Blood vessels surrounded by connective tissue (perivascular space) in the brain of Lepidosteus (Ganoidei) and some teleost fishes (1974)

Merker, G. ; Oksche, A. ; Hofer, H. O.

Springer

Cell & tissue research 153 (1974), S. 435-448

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ISSN: 1432-0878

Keywords: Brain vessels ; Perivascular space ; Connective tissue ; Blood-brain-barrier ; Lepidosteus (Ganoidei) ; Teleosts

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Blood vessels surrounded by unusually wide perivascular spaces rich in connective tissue were observed in the brain of Lepidosteus (Ganoidei). Connective-tissue sheaths measuring up to 13 μm in width enclose arterioles and venules (40–70 μm in diameter), and even capillaries may be encompassed by a cuff formed by collagen fibers. Blood vessels with wide perivascular spaces are mainly located in the subependymal layer of the lateral ventricles, near the mesencephalic aqueduct and in the folded basal lining of the fourth ventricle. At the light-microscopic level these vessels do not show any distinct contact with nervous elements (axons). Some other brain regions of Lepidosteus, e.g. mesencephalic tectum, are supplied by a conventional type of capillaries, free of connective-tissue linings. For comparative reasons, brains of several selachian and teleostean species were examined with comparable histological methods. Distinct perivascular spaces were found in the pike, in the trout and in the eel. They are considerably richer in connective tissue than the occasionally observed narrow perivascular spaces in the shark. The significance of the abundant perivascular connective tissue in the brain of Lepidosteus is open to discussion; structural and functional problems of the brain-blood-barrier have been reviewed in this context. The brain of Lepidosteus appears to be a very suitable model for studies of blood supply, vascular ultrastructure and blood-brain-barrier functions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00231539

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