Effect of injury to the zone of the medial forebrain bundle and preoptic region on activity of an epileptiform focus induced by penicillin (on the phenomenon of the hyperactive determinant dispatch station)

1976 ◽  
Vol 82 (6) ◽  
pp. 1764-1767
Author(s):  
G. N. Kryzhanovskii ◽  
V. V. Ruseev ◽  
V. I. Ivanov
Keyword(s):  
Medial Forebrain Bundle ◽  
Preoptic Region ◽  
Determinant Dispatch Station

Thalamic Reticular Nucleus in Caiman crocodilus: Immunohistochemical Staining

2018 ◽  
Vol 92 (3-4) ◽  
pp. 142-166 ◽  
Author(s):  
Michael B. Pritz
Keyword(s):  
Glutamic Acid ◽  
Glutamic Acid Decarboxylase ◽  
Immunohistochemical Staining ◽  
Medial Forebrain Bundle ◽  
Transverse Plane ◽  
Thalamic Reticular Nucleus ◽  
Reticular Nucleus ◽  
Acid Decarboxylase ◽  
Caiman Crocodilus ◽  
Monoclonal Mouse

The thalamic reticular nucleus in reptiles, Caiman crocodilus, shares a number of morphological similarities with its counterpart in mammals. In view of the immunohistochemical properties of this nucleus in mammals and the more recently identified complexity of this neuronal aggregate in Caiman, this nucleus was investigated using a number of antibodies. These results were compared with findings described for other amniotes. The following antibodies gave consistent and reproducible results: polyclonal sheep anti-parvalbumin (PV), monoclonal mouse anti-PV, and polyclonal sheep anti-glutamic acid decarboxylase (GAD). In the transverse plane, this nucleus is divided into two. In each part, a compact group of cells sits on top of the fibers of the forebrain bundle with scattered cells among these fibers. In the lateral forebrain bundle, this neuronal aggregate is represented by the dorsal peduncular nucleus and the perireticular nucleus while, in the medial forebrain bundle, these parts are the interstitial nucleus and the scattered cells in this fiber tract. The results of this study are the following. First, the thalamic reticular nucleus of Caiman contains GAD(+) and PV(+) neurons, which is similar to what has been described in other amniotes. Second, the morphology and distribution of many GAD(+) and PV(+) neurons in the dorsal peduncular and perireticular nuclei are similar and suggest that these neurons colocalize these markers. Third, neurons in the interstitial nucleus and in the medial forebrain bundle are GAD(+) and PV(+). At the caudal pole of the thalamic reticular nucleus, PV immunoreactive cells predominated and avoided the central portion of this nucleus where GAD(+) cells were preferentially located. However, GAD(+) cells were sparse when compared with PV(+) cells. This immunohistochemically different area in the caudal pole is considered to be an area separate from the thalamic reticular nucleus.

scholarly journals Adeno-Associated Viral Delivery of GDNF Promotes Recovery of Dopaminergic Phenotype following a Unilateral 6-Hydroxydopamine Lesion

2002 ◽  
Vol 11 (3) ◽  
pp. 215-227 ◽  
Author(s):  
John Mcgrath ◽  
Elishia Lintz ◽  
Barry J. Hoffer ◽  
Greg A. Gerhardt ◽  
E. Matthew Quintero ◽  
...  
Keyword(s):  
Neurotrophic Factor ◽  
Viral Vectors ◽  
Medial Forebrain Bundle ◽  
Therapeutic Potential ◽  
Clinical Situation ◽  
Dopamine Neurons ◽  
Nigrostriatal System ◽  
Nigrostriatal Pathway ◽  
Neurotoxic Lesion ◽  
6 Hydroxydopamine

Glial cell line-derived neurotrophic factor (GDNF) is a potent neurotrophic factor for dopamine neurons that has been proposed for use in the treatment of Parkinson's disease (PD). Previous studies using viral vectors to deliver GDNF in rodent models of PD have entailed administering the virus either prior to or immediately after neurotoxin-induced lesions, when the nigrostriatal pathway is largely intact, a paradigm that does not accurately reflect the clinical situation encountered with Parkinson's patients. In this study, recombinant adeno-associated virus carrying the gene encoding GDNF (rAAV-GDNF) was administered to animals bearing a maximal lesion in the nigrostriatal system, more closely resembling fully developed PD. Rats were treated with 6-hydroxydopamine into the medial forebrain bundle and assessed by apomorphine-induced rotational behavior for 5 weeks prior to virus administration. Within 4 weeks of a single intrastriatal injection of rAAV-GDNF, unilaterally lesioned animals exhibited significant behavioral recovery, which correlated with increased expression of dopaminergic markers in the substantia nigra, the medial forebrain bundle, and the striatum. Our findings demonstrate that rAAV-GDNF is capable of rescuing adult dopaminergic neurons from near complete phenotypic loss following a neurotoxic lesion, effectively restoring a functional dopaminergic pathway and diminishing motoric deficits. These data provide further support for the therapeutic potential of rAAV-GDNF-based gene therapy in the treatment of PD.

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