Schwann cells genetically modified to secrete human BDNF promote enhanced axonal regrowth across transected adult rat spinal cord

Meneï, Philippe; Montero‐Menei, Claudia N.; Whittemore, Scott R.; Bunge, Richard P.; Bunge, Mary Bartlett

doi:10.1046/j.1460-9568.1998.00071.x

Cited by 293 publications

(177 citation statements)

References 84 publications

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“…Axons were present in BDNF-foam at 2 weeks after implantation, whereas at this time point control foam was lacking axons. Previously, BDNF has been shown to promote axonal regeneration into and from intraspinal grafts [18,25,27,[40][41][42]. Clearly, the more rapid growth of axons into the BDNF containing foam may have resulted from the axonal growth-promoting properties of BDNF.…”

Section: Discussionmentioning

confidence: 99%

“…Following grafting into the transected spinal cord, a SC bridge contained in a polymer tubular scaffold promotes regeneration and myelination of damaged axons [22,23]. Combining a SC graft with a neuroprotective agent [24] or growth factors [25][26][27] enhances the overall axonal growth response. In the abovementioned studies, the SC bridge was contained within a non-degradable polyacrylnitril/polyvinylchloride (PAN/PVC) scaffold.…”

Section: Introductionmentioning

confidence: 99%

“…For this study, foams (diameter 2.6 mm; same as adult rat thoracic spinal cord) were made with or without incorporation of the neurotrophic factor, brain-derived neurotrophic factor (BDNF). BDNF was chosen in combination with the foam because of its effects on cell survival [36][37][38][39] and axonal regeneration [18,27,[40][41][42]. Following implantation, we have evaluated the effects of the foams on tissue sparing, neuronal survival, axonal regeneration, and behavioral improvements of the hindlimbs in the transected adult rat thoracic spinal cord.…”

Section: Introductionmentioning

confidence: 99%

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Freeze-dried poly(d,l-lactic acid) macroporous guidance scaffolds impregnated with brain-derived neurotrophic factor in the transected adult rat thoracic spinal cord

et al. 2004

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The effects of poly(D,L-lactic acid) macroporous guidance scaffolds (foams) with or without brain-derived neurotrophic factor (BDNF) on tissue sparing, neuronal survival, axonal regeneration, and behavioral improvements of the hindlimbs following implantation in the transected adult rat thoracic spinal cord were studied. The foams were embedded in fibrin glue containing acidic-fibroblast growth factor. One group of animals received fibrin glue with acidic-fibroblast growth factor only. The foams were prepared by a thermally induced polymer-solvent phase separation process and contained longitudinally oriented macropores connected to each other by a network of micropores. Both foams and fibrin only resulted in a similar gliotic and inflammatory response in the cord-implant interfaces. With BDNF foam, up to 20% more NeuN-positive cells in the spinal nervous tissue close to the rostral but not caudal spinal cord-implant interface survived than with control foam or fibrin only at 4 and 8 weeks after implantation. Semithin plastic sections and electron microcopy revealed that cells and axons more rapidly invaded BDNF foam than control foam. Also, BDNF foam contained almost twice as many blood vessels than control foam at 8 weeks after implantation. Tissue sparing was similar in all three implantation paradigms; approximately 42% of tissue was spared in the rostral cord and approximately 37% in the caudal cord at 8 weeks post grafting. The number of myelinated and unmyelinated axons was low and not different between the two types of foams. Many more axons were found in the fibrin only graft. Serotonergic axons were not found in any of the implants and none of the axons regenerated into the caudal spinal cord. The behavioral improvements in the hindlimbs were similar in all groups. These findings indicated that foam is well tolerated within the injured spinal cord and that the addition of BDNF promotes cell survival and angiogenesis. However, the overall axonal regeneration response is low. Future research should explore the use of poly(D,L-lactic acid) foams, with or without axonal growth-promoting factors, seeded with Schwann cells to enhance the axonal regeneration and myelination response.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Freeze-dried poly(d,l-lactic acid) macroporous guidance scaffolds impregnated with brain-derived neurotrophic factor in the transected adult rat thoracic spinal cord

et al. 2004

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“…When the two neurotrophins were infused into the space between the SC bridge and the channel wall for 14 days (and the animals maintained for a month), there were twice as many myelinated axons on the bridge, there were three times as many responding spinal cord neurons, and brainstem neurons were responsive; when a tracer was placed inside the bridge, there was labeling of a mean of 92 neurons in the brainstem. In other experiments [25], SCs were transduced with a human prepro BDNF cDNA that was introduced by means of a retrovirus. This paradigm differed somewhat from the one described above, in that the spinal cord was transected and the SCs (transduced or untreated) were deposited in the distal stump to create a 5 mm-long trail, as well as in the transection site.…”

Section: Complete Transection/schwann Cell Bridge Modelmentioning

confidence: 99%

Transplantation strategies to promote repair of the injured spinal cord

Bunge

Pearse

2003

JRRD

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102

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Abstract-This review describes the results of the transplantation of Schwann cells and olfactory ensheathing glia in combination with other interventions. The complete transection injury model was used to test the combination of Schwann cell bridges with methylprednisolone, neurotrophins, or olfactory ensheathing glia. The contusion injury model was used to compare Schwann cell and olfactory ensheathing glia transplantation and to examine the results of combining Schwann cell transplants with elevated levels of cyclic adenosine monophosphate. The combination strategies were more effective than cell transplantation alone. The improved regeneration response usually involved a reduction in secondary tissue loss, axonal regeneration from brainstem neurons, an increase in myelinated fibers in the transplant, the exit of regenerated fibers from the transplant into the contiguous cord, and an improvement in locomotor function.

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“…253 Both types of cells have been genetically modified prior to transplantation to deliver growth factors at the lesion site. 245,254,255 OECs have been reported to integrate more successfully with astrocytes, 256 and to induce less glial scarring 257 than SCs, but may themselves express inhibitory molecules (such as Nogo or proteoglycans, discussed in 'Stimulating axonal growth in the injured spinal cord' above) after transplantation. 258 Few experiments have directly compared SC-and OEC-transplantation in the same injury.…”

Section: Scs and Oecs: A Duel Or A Duet?mentioning

confidence: 99%

Setting the stage for functional repair of spinal cord injuries: a cast of thousands

2005

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Here we review mechanisms and molecules that necessitate protection and oppose axonal growth in the injured spinal cord, representing not only a cast of villains but also a company of therapeutic targets, many of which have yet to be fully exploited. We next discuss recent progress in the fields of bridging, overcoming conduction block and rehabilitation after spinal cord injury (SCI), where several treatments in each category have entered the spotlight, and some are being tested clinically. Finally, studies that combine treatments targeting different aspects of SCI are reviewed. Although experiments applying some treatments in combination have been completed, auditions for each part in the much-sought combination therapy are ongoing, and performers must demonstrate robust anatomical regeneration and/or significant return of function in animal models before being considered for a lead role.Spinal Cord (2005) 43, 134-161.

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Schwann cells genetically modified to secrete human BDNF promote enhanced axonal regrowth across transected adult rat spinal cord

Cited by 293 publications

References 84 publications

Freeze-dried poly(d,l-lactic acid) macroporous guidance scaffolds impregnated with brain-derived neurotrophic factor in the transected adult rat thoracic spinal cord

Freeze-dried poly(d,l-lactic acid) macroporous guidance scaffolds impregnated with brain-derived neurotrophic factor in the transected adult rat thoracic spinal cord

Transplantation strategies to promote repair of the injured spinal cord

Setting the stage for functional repair of spinal cord injuries: a cast of thousands

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