Transplanted fat cells can treat spinal cord injuryDecember 11th, 2008 - 1:55 pm ICT by ANI
Washington, Dec 11 (ANI): Mature adipocytes - fat cells - could become a source for cell replacement therapy to treat central nervous system disorders, a new study suggests.
Lead author Dr. Yuki Ohta of the Institute of Medical Science, St. Mariana University School of Medicine, Kawasaki, Japan, said that adipose-derived stem/stromal cells have in the past been shown to differentiate into neuronal cells in an in vitro setting.
In their study, for the first time fat cells have been shown to successfully differentiate into neuronal cells in in vivo tests.
The fat cells are grown under culture conditions that result in them becoming de-differentiated fat (DFAT) cells.
“These cells, called DFAT cells, are plentiful and can be easily obtained from adipose tissue without discomfort and represent autologous (same patient) tissue. DFAT cells, with none of the features of adipocytes, do have the potential to differentiate into endothelial, neuronal or glial lineages, said Ohta.
The researchers said that DFAT cells expressed neurotrophic factors, such as BDNF and GDNF, prior to and after transplantation and which likely contributed to the promotion of functional recovery.
According to researchers, tests in animal models confirmed that the injected cells survived without the aid of immunosuppression drugs and that the DFAT-grafted animals showed significantly better motor function than controls.
“We concluded that DFAT-derived neurotrophic factors contributed to promotion of functional recovery after spinal cord injury (SCI). Transplanting DFAT cells into SCI rats significantly promoted the recovery of their hind limb function,” said Ohta.
The study is published in the current issue of Cell Transplantation. (ANI)
Tags: animal models, bdnf, cell transplantation, central nervous system, central nervous system disorders, culture conditions, fat cells, functional recovery, hind limb, lineages, medical science, nervous system disorders, neuronal cells, ohta, school of medicine, spinal cord, spinal cord injury, stromal cells, vivo tests, yuki