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Neural Stem Cells Steered by Electric Fields in Rat Brain

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Section of rat brain
Transplants of neural stem cells might be used to treat brain injuries, but how to get them to the right location? 澳门六合彩资料库 Davis researcher Min Zhao and Junfeng Feng, a neurosurgeon at Ren Ji Hospital, Shanghai, showed that they can steer transplanted stem cells (green, in inset on right) to one part of a rat’s brain using electrical fields. (Image: Junfeng Feng)

Quick Summary

  • Neural stem cells could treat brain injury, but have to reach right location
  • Electric fields could steer transplanted cells in rat brain against other cues
  • Potential use in therapies for brain injuries, strokes

Electric fields can be used to guide neural stem cells transplanted into the brain toward a specific location. The research, published July 11 in the journal , opens possibilities for effectively guiding stem cells to repair brain damage.

Professor Min Zhao at the University of California, Davis, School of Medicine鈥檚 Institute for Regenerative Cures studies how electric fields can guide wound healing. Damaged tissues generate weak electric fields, and Zhao鈥檚 research has shown how these electric fields can attract cells into wounds to heal them.

鈥淥ne unmet need in regenerative medicine is how to effectively and safely mobilize and guide stem cells to migrate to lesion sites for repair,鈥 Zhao said. 鈥淚nefficient migration of those cells to lesions is a significant roadblock to developing effective clinical applications.鈥

Junfeng Feng, a neurosurgeon at Ren Ji Hospital, Shanghai Jiao Tong University and Shanghai Institute of Head Trauma, visited Zhao鈥檚 lab to study how electric fields might guide stem cells implanted in the brain.

Natural neural stem cells 鈥 cells that can develop into other brain tissues 鈥 are found deep in the brain, in the subventricular zone and hippocampus. To repair damage to the outer layers of the brain (the cortex), they have to migrate some distance, especially in the large human brain. Transplanted stem cells might also have to migrate some way to find an area of damage.

Stem cells move 鈥榰pstream鈥

Feng and Zhao developed a model of stem cell transplants in rats. They placed human neural stem cells in the rostral migration stream 鈥 a pathway in the rat brain that carries cells toward the olfactory bulb, which governs the animal鈥檚 sense of smell. Cells move along this pathway partly carried by the flow of cerebrospinal fluid and partly guided by chemical signals.

By applying an electric field within the rat鈥檚 brain, they found that they could get the transplanted stem cells to swim 鈥渦pstream鈥 against the fluid flow and natural cues and head for other locations within the brain.

The transplanted stem cells were still in their new locations weeks or months after treatment.

鈥淓lectrical mobilization and guidance of stem cells in the brain therefore provides a potential approach to facilitate stem cell therapies for brain diseases, stroke and injuries,鈥 Zhao said.

Additional authors on the paper are: at 澳门六合彩资料库 Davis, Lei Zhang, Jing Liu, Bruce Lyeth and Jan Nolta; Ji-Yao Jiang, Ren Ji Hospital, Shanghai Jiao Tong University and Shanghai Institute of Head Trauma; and Michael Russell, Aaken Laboratories, Davis. The work was supported by the California Institute for Regenerative Medicine with additional support from NIH, NSF and Research to Prevent Blindness Inc. 

Media Resources

Min Zhao, Ophthalmology, Dermatology, 916-703-9381, minzhao@ucdavis.edu

Andy Fell, 澳门六合彩资料库 Davis News and Media Relations, 530-752-4533, ahfell@ucdavis.edu

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