S. Ausim Azizi scite author profile

Neurotransplantation has been used to explore the development of the central nervous system and for repair of diseased tissue in conditions such as Parkinson's disease. Here, we examine the effects of direct injection into rat brain of human marrow stromal cells (MSCs), a subset of cells from bone marrow that include stem-like precursors for nonhematopoietic tissues. Human MSCs isolated by their adherence to plastic were infused into the corpus striatum. Five to 72 days later, brain sections were examined for the presence of the donor cells. About 20% of the infused cells had engrafted. There was no evidence of an inflammatory response or rejection. The cells had migrated from the injection site along known pathways for migration of neural stem cells to successive layers of the brain. After infusion into the brain, the human MSCs lost their immunoreactivity to antibodies for collagen I. Initially, the human cells continued to stain with antibodies to fibronectin but the region of staining with fibronectin was significantly decreased at 30 and 72 days. The results suggest that MSCs may be useful vehicles for autotransplantation in both cell and gene therapy for a variety of diseases of the central nervous system.

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Inferior olivary nuclear complex of the rat: Morphology and comments on the principles of organization within the olivocerebellar system

Azizi

Woodward

1987

J of Comparative Neurology

185

110

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This study was undertaken (1) to provide a description of the normal morphology and anatomical interrelationships within the inferior olivary cell groups and (2) to determine the topographical organization of projections from this nuclear complex to the cerebellum. Conventional histological methods and the technique of retrograde transport of horseradish peroxidase (HRP) and WGA-HRP in conjunction with the sensitive chromogen tetramethyl benzidine were used in this series of experiments. In common with that of other animals, the inferior olivary nucleus of the rat consists of three subdivisions: the medial accessory olive (MAO), dorsal accessory olive (DAO), and principal olive (PO). The MAO is made of several subnuclei including a, b, c, and nucleus beta. On the basis of their common connections, the smaller subnuclei, dorsal cap, ventrolateral outgrowth, and dorsomedial cell column can be considered as parts of the MAO. The DAO is made of two subdivisions or lamellae--the dorsal and ventral folds--joined together laterally to form a twisted V-shaped structure. The principal olive consists of dorsal and ventral lamellae. A point-to-point projection was determined for four areas of the cerebellum: the anterior lobe, the posterior vermis, the intermediate and the lateral cerebellum. Analysis of the details of the projection system revealed that distinct groups of cells, here referred to as lamellae, project to sagittal zones of the cerebellum. (1) The medial accessory olive appears to be composed of three lamellae: horizontal, vertical, and rostral. The horizontal lamella (elsewhere denoted as groups a and b) projects to a sagittal zone in the vermal anterior lobe. The vertical lamella (groups c, beta, dorsal cap, ventrolateral outgrowth, and dorsomedial cell column) projects to a sagittal zone in the posterior vermis and the flocculus, and the rostral lamella projects to the lateral cerebellum. (2) The dorsal accessory olive is composed of two distinct lamellae which we have previously denoted as the dorsal and ventral folds. The dorsal fold projects to the vermal anterior lobe and receives afferents from the spinal cord, whereas the ventral fold projects to a sagittal zone in the intermediate cerebellum and receives afferents primarily from dorsal column nuclei. (3) The principal olive contains the two familiar lamellae: dorsal and ventral lamellae, each of which projects to a specific sagittal strip in the lateral cerebellum.(ABSTRACT TRUNCATED AT 400 WORDS)

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Multipotential Marrow Stromal Cells Transduced to Produce_L-DOPA: Engraftment in a Rat Model of Parkinson Disease

Schwarz¹,

Alexander²,

Prockop³

et al. 1999

Human Gene Therapy

163

105

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Bone marrow stromal cells can be used as an alternative source of cells for neural transplantation and repair. Here, the efficacy of genetically modified marrow stromal cells was examined in a rat model of Parkinson disease. Rat marrow stromal cells (rMSCs) and human marrow stromal cells (hMSCs) were genetically engineered by transduction with retroviruses encoding tyrosine hydroxylase (TH) and GTP cyclohydrolase I, the enzyme necessary for production of the tetrahydrobiopterin cofactor for TH (BH4). Transduced cells synthesized 3,4-dihydroxyphenylalanine (L-DOPA) in vitro and maintained their multipotentiality after retroviral transduction. To examine the cells in vivo, transduced rMSCs were injected into the striatum of 6-hydroxydopamine-lesioned rats. L-DOPA and metabolites were detected by microdialysis in the denervated striatum of rats that received doubly transduced rMSCs. Also, there was a significant reduction in apomorphine-induced rotation when compared with controls. The cells engrafted and survived for at least 87 days. However, expression of the transgenes ceased at about 9 days, an observation consistent with reports from other laboratories in which similar retroviruses were used to express transgenes in the brain.

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New evidence for a gating action of norepinephrine in central neuronal circuits of mammalian brain

Waterhouse

Sessler

Jung-Tung

et al. 1988

Brain Research Bulletin

146

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S. Ausim Azizi

Engraftment and migration of human bone marrow stromal cells implanted in the brains of albino rats—similarities to astrocyte grafts

Inferior olivary nuclear complex of the rat: Morphology and comments on the principles of organization within the olivocerebellar system

Multipotential Marrow Stromal Cells Transduced to Produce_L-DOPA: Engraftment in a Rat Model of Parkinson Disease

New evidence for a gating action of norepinephrine in central neuronal circuits of mammalian brain

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S. Ausim Azizi

Engraftment and migration of human bone marrow stromal cells implanted in the brains of albino rats—similarities to astrocyte grafts

Inferior olivary nuclear complex of the rat: Morphology and comments on the principles of organization within the olivocerebellar system

Multipotential Marrow Stromal Cells Transduced to ProduceL-DOPA: Engraftment in a Rat Model of Parkinson Disease

New evidence for a gating action of norepinephrine in central neuronal circuits of mammalian brain

Contact Info

Product

Resources

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Multipotential Marrow Stromal Cells Transduced to Produce_L-DOPA: Engraftment in a Rat Model of Parkinson Disease