Gene therapy, cell transplantation and stroke

Cesario V. Borlongan; Christina Fournier; Christine E. Stahl; Guolong Yu; Lin Xu; Noriyuki Matsukawa; Mary Newman; Takao Yasuhara; Koichi Hara; David C. Hess; Paul R. Sanberg

doi:10.2741/1865

Gene therapy, cell transplantation and stroke

Cesario V. Borlongan, Christina Fournier, Christine E. Stahl, Guolong Yu, Lin Xu, Noriyuki Matsukawa, Mary Newman, Takao Yasuhara, Koichi Hara, David C. Hess, Paul R. Sanberg

Neurology

Research output: Contribution to journal › Review article › peer-review

19 Scopus citations

Abstract

The use of neuroteratocarcinoma cells for transplantation therapy in stroke has emerged as a strategy for cell replacement therapy that has begun its transition from basic science laboratories to a clinical setting. Procurement logistics and novel neuroprotective functions associated with these cells allow neuroteratocarcmoma cells to serve as efficacious alternatives to using fetal cells as donor cell grafts for stroke therapy, although the optimal transplantation regimen must still be determined. In particular, the limitations of current stroke treatments and management reveal an urgent need to examine the efficacy of experimental treatments, such as neural transplantation, in order to develop better treatment therapies. This chapter will discuss the characteristics of NT2N cells, the role of the host brain microenvironment, the need for more rigorous laboratory research and clinical trials for the intracerebral transplantation of NT2N cells in stroke, the mechanisms underlying the grafts' beneficial effects, and the need for immunosuppression. This chapter will highlight some of the most recent findings regarding NT2N cells.

Original language	English (US)
Pages (from-to)	1090-1100
Number of pages	11
Journal	Frontiers in Bioscience
Volume	11
Issue number	1 P.889-1198
DOIs	https://doi.org/10.2741/1865
State	Published - 2006

Keywords

Cancer
Gene therapy
Intracerebral Transplantation
NT2N
Nervous system
Neuron
Neuroprotection
Neuroteratocarcinoma Cells
Review
Stroke
Therapeutic
Treatment
Tumor

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.2741/1865

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title = "Gene therapy, cell transplantation and stroke",

abstract = "The use of neuroteratocarcinoma cells for transplantation therapy in stroke has emerged as a strategy for cell replacement therapy that has begun its transition from basic science laboratories to a clinical setting. Procurement logistics and novel neuroprotective functions associated with these cells allow neuroteratocarcmoma cells to serve as efficacious alternatives to using fetal cells as donor cell grafts for stroke therapy, although the optimal transplantation regimen must still be determined. In particular, the limitations of current stroke treatments and management reveal an urgent need to examine the efficacy of experimental treatments, such as neural transplantation, in order to develop better treatment therapies. This chapter will discuss the characteristics of NT2N cells, the role of the host brain microenvironment, the need for more rigorous laboratory research and clinical trials for the intracerebral transplantation of NT2N cells in stroke, the mechanisms underlying the grafts' beneficial effects, and the need for immunosuppression. This chapter will highlight some of the most recent findings regarding NT2N cells.",

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AU - Borlongan, Cesario V.

AU - Fournier, Christina

AU - Stahl, Christine E.

AU - Yu, Guolong

AU - Xu, Lin

AU - Matsukawa, Noriyuki

AU - Newman, Mary

AU - Yasuhara, Takao

AU - Hara, Koichi

AU - Hess, David C.

AU - Sanberg, Paul R.

PY - 2006

Y1 - 2006

N2 - The use of neuroteratocarcinoma cells for transplantation therapy in stroke has emerged as a strategy for cell replacement therapy that has begun its transition from basic science laboratories to a clinical setting. Procurement logistics and novel neuroprotective functions associated with these cells allow neuroteratocarcmoma cells to serve as efficacious alternatives to using fetal cells as donor cell grafts for stroke therapy, although the optimal transplantation regimen must still be determined. In particular, the limitations of current stroke treatments and management reveal an urgent need to examine the efficacy of experimental treatments, such as neural transplantation, in order to develop better treatment therapies. This chapter will discuss the characteristics of NT2N cells, the role of the host brain microenvironment, the need for more rigorous laboratory research and clinical trials for the intracerebral transplantation of NT2N cells in stroke, the mechanisms underlying the grafts' beneficial effects, and the need for immunosuppression. This chapter will highlight some of the most recent findings regarding NT2N cells.

AB - The use of neuroteratocarcinoma cells for transplantation therapy in stroke has emerged as a strategy for cell replacement therapy that has begun its transition from basic science laboratories to a clinical setting. Procurement logistics and novel neuroprotective functions associated with these cells allow neuroteratocarcmoma cells to serve as efficacious alternatives to using fetal cells as donor cell grafts for stroke therapy, although the optimal transplantation regimen must still be determined. In particular, the limitations of current stroke treatments and management reveal an urgent need to examine the efficacy of experimental treatments, such as neural transplantation, in order to develop better treatment therapies. This chapter will discuss the characteristics of NT2N cells, the role of the host brain microenvironment, the need for more rigorous laboratory research and clinical trials for the intracerebral transplantation of NT2N cells in stroke, the mechanisms underlying the grafts' beneficial effects, and the need for immunosuppression. This chapter will highlight some of the most recent findings regarding NT2N cells.

KW - Cancer

KW - Gene therapy

KW - Intracerebral Transplantation

KW - NT2N

KW - Nervous system

KW - Neuron

KW - Neuroprotection

KW - Neuroteratocarcinoma Cells

KW - Review

KW - Stroke

KW - Therapeutic

KW - Treatment

KW - Tumor

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Gene therapy, cell transplantation and stroke

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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