STUDY DESIGN: An animal study in immune competent rabbits and athymic rats was conducted. OBJECTIVES: To develop an animal model for simulation of previous human Type 5 adenovirus (Ad5) exposure, to determine the impact of adenoviral pre-exposure on spine fusion induced with ex vivo Ad5-LMP-1, and to test strategies for overcoming any potential immune response. SUMMARY OF BACKGROUND DATA: Cells transduced with adenovirus containing the osteoinductive LMP-1 cDNA (Ad5-LMP-1) can induce spine fusion in rabbits. Because up to 80% of the human population has been exposed to adenovirus, immune responses to the vector may limit this strategy in humans. Few studies have modeled previous adenoviral exposure and tested strategies to circumvent it. METHODS: Adult New Zealand white rabbits were injected with 10 or 10 viral particles of Ad5-LacZ. At 4 or 16 weeks after Ad5 injection, autologous buffy coats were prepared from peripheral blood, and 4 million cells per side were infected ex vivo for 10 minutes with Ad5-LMP-1 (multiplicity of infection = 4). Cells were implanted on a collagen matrix instead of an autograft for posterolateral lumbar arthrodesis. Unimmunized rabbits served as control subjects. Additional immunized rabbits underwent arthrodesis at 4 weeks with increased cell number (10 million) and viral dose (multiplicity of infection = 10), or with both parameters increased. The rabbits were killed at 4 weeks, and the spines were assessed by palpation and radiograph. A parallel study was performed in athymic rats using immunized rabbits for the donor cells. RESULTS: All the unimmunized rabbits had solid spine fusions. None of the rabbits arthrodesed 4 weeks after Ad5 pre-exposure achieved fusion. At 4 weeks after Ad5 exposure, increasing the multiplicity of infection to 10 did not overcome the immune response (0/3 fused), but increasing the cell number to 10 million (2/3 fused) or increasing both cell number and multiplicity of infection (3/3 fused) did overcome the immune effects. Delaying arthrodesis until 16 weeks after Ad5 pre-exposure also overcame the immune response (3/3 fused). Similar results were seen in the athymic rat ectopic implant model, suggesting that the immune effect was mediated by humoral antibodies rather than a T-cell response. CONCLUSIONS: Two model systems were developed that simulate previous exposure to human Ad5 and could separate the cellular and humoral components of the response. There was a dose-dependent inhibition of ex vivo Ad5-LMP-1 gene transfer to cells from animals previously exposed to human Ad5. Data suggested that the inhibition of Ad5 infection was caused by humoral antibodies rather than a T-cell-based response. Minor modifications in the gene transfer protocol, such as doubling the viral dose or number of cells infected, or increasing the infection time, could overcome the immune response for an ex vivo approach.
STUDY DESIGN: An animal study in immune competent rabbits and athymic rats was conducted. OBJECTIVES: To develop an animal model for simulation of previous human Type 5 adenovirus (Ad5) exposure, to determine the impact of adenoviral pre-exposure on spine fusion induced with ex vivo Ad5-LMP-1, and to test strategies for overcoming any potential immune response. SUMMARY OF BACKGROUND DATA: Cells transduced with adenovirus containing the osteoinductive LMP-1 cDNA (Ad5-LMP-1) can induce spine fusion in rabbits. Because up to 80% of the human population has been exposed to adenovirus, immune responses to the vector may limit this strategy in humans. Few studies have modeled previous adenoviral exposure and tested strategies to circumvent it. METHODS: Adult New Zealand white rabbits were injected with 10 or 10 viral particles of Ad5-LacZ. At 4 or 16 weeks after Ad5 injection, autologous buffy coats were prepared from peripheral blood, and 4 million cells per side were infected ex vivo for 10 minutes with Ad5-LMP-1 (multiplicity of infection = 4). Cells were implanted on a collagen matrix instead of an autograft for posterolateral lumbar arthrodesis. Unimmunized rabbits served as control subjects. Additional immunized rabbits underwent arthrodesis at 4 weeks with increased cell number (10 million) and viral dose (multiplicity of infection = 10), or with both parameters increased. The rabbits were killed at 4 weeks, and the spines were assessed by palpation and radiograph. A parallel study was performed in athymic rats using immunized rabbits for the donor cells. RESULTS: All the unimmunized rabbits had solid spine fusions. None of the rabbits arthrodesed 4 weeks after Ad5 pre-exposure achieved fusion. At 4 weeks after Ad5 exposure, increasing the multiplicity of infection to 10 did not overcome the immune response (0/3 fused), but increasing the cell number to 10 million (2/3 fused) or increasing both cell number and multiplicity of infection (3/3 fused) did overcome the immune effects. Delaying arthrodesis until 16 weeks after Ad5 pre-exposure also overcame the immune response (3/3 fused). Similar results were seen in the athymic rat ectopic implant model, suggesting that the immune effect was mediated by humoral antibodies rather than a T-cell response. CONCLUSIONS: Two model systems were developed that simulate previous exposure to humanAd5 and could separate the cellular and humoral components of the response. There was a dose-dependent inhibition of ex vivo Ad5-LMP-1 gene transfer to cells from animals previously exposed to humanAd5. Data suggested that the inhibition of Ad5 infection was caused by humoral antibodies rather than a T-cell-based response. Minor modifications in the gene transfer protocol, such as doubling the viral dose or number of cells infected, or increasing the infection time, could overcome the immune response for an ex vivo approach.
Authors: Dima Sheyn; Martin Rüthemann; Olga Mizrahi; Ilan Kallai; Yoram Zilberman; Wafa Tawackoli; Linda E A Kanim; Li Zhao; Hyun Bae; Gadi Pelled; Jess G Snedeker; Dan Gazit Journal: Tissue Eng Part A Date: 2010-09-28 Impact factor: 3.845
Authors: Steven K Leckie; Bernard P Bechara; Robert A Hartman; Gwendolyn A Sowa; Barrett I Woods; Joao P Coelho; William T Witt; Qing D Dong; Brent W Bowman; Kevin M Bell; Nam V Vo; Bing Wang; James D Kang Journal: Spine J Date: 2011-10-22 Impact factor: 4.166
Authors: Seong-Hwan Moon; Kotaro Nishida; Lars G Gilbertson; Hwan-Mo Lee; Hyang Kim; Ronald A Hall; Paul D Robbins; James D Kang Journal: Spine (Phila Pa 1976) Date: 2008-08-01 Impact factor: 3.468
Authors: Rui Mu; Bo Chen; Bo Bi; Hongchuan Yu; Juan Liu; Junxia Li; Maodian He; Liang Rong; Bingyao Liu; Ke Liu; Lei Zhu; Xiaolei Shi; Yi Shuai; Lei Jin Journal: Int J Med Sci Date: 2022-07-18 Impact factor: 3.642