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- Title
Genetically Modified Autoactivated Cells Expressing Intracellular Forms of GM-CSF as a Model for Regulated Administration of Cytokines.
- Authors
Arteaga, H. J.; Mohamed, A. J.; Christensson, B.; Mahdy, E.; Gahrton, G.; Smith, C. I. E.; Dilber, M. S.
- Abstract
The application of cytokines for immunotherapy is frequently hampered by undesirable side effects. To avoid systemic effects, cytokines can be directly expressed in the target cells by using gene transfer. However, the uncontrolled cellular secretion of cytokines could still exert some undesirable bystander effects. Therefore, it is important to develop additional methods for a more restricted administration of cytokines. Recently, using the murine granulocyte–macrophage colony-stimulating factor (mGM-CSF), we have demonstrated that cytokines can be targeted to different subcellular compartments as stable and biologically active proteins. This model could be used as a method of highly restricted administration of cytokines. Here, as model for the proof of principle, we have used a cell line (DA-3) strictly dependent on mGM-CSF for growth and demonstrated that these cells acquired autonomous growth after gene modification with plasmids encoding either extracellular or intracellular forms of mGM-CSF. Cell lines expressing secreted forms of mGM-CSF displayed the highest rates of autonomous growth and released substantial amounts of mGM-CSF. However, cell lines expressing intracellular forms of mGM-CSF also acquired autonomous growth induced by a mechanism of restricted autocrine stimulation and did not release detectable mGM-CSF to the extracellular medium. Cocultivation experiments of DA-3 cell lines expressing intracellular mGM-CSF with unmodified cells showed that there was no activation of the bystander cells. Taken together, these results support the concept that genes encoding intracellular cytokines may be used to provide the desired effect of cytokines on the target cells while avoiding the side effects of their uncontrolled secretion.
- Subjects
CYTOKINES; IMMUNOTHERAPY; GENETIC transformation; COLONY-stimulating factors (Physiology); CELL lines; IMMUNOREGULATION; IMMUNOCOMPETENT cells
- Publication
Scandinavian Journal of Immunology, 2005, Vol 62, Issue 5, p429
- ISSN
0300-9475
- Publication type
Article
- DOI
10.1111/j.1365-3083.2005.01687.x