BACKGROUND: Cigarette smoking inhibits bone-healing and leads to increased rates of pseudarthrosis. However, the mechanisms behind these effects are controversial. Dioxin (2,3,7,8-tetrachlorodibenzo-p-dioxin)--a cigarette smoke constituent and potent activator of the aryl hydrocarbon receptor (Ahr)--negatively impacts bone quality and osteoblast differentiation. We hypothesized that activation of the Ahr by dioxin would inhibit bone morphogenetic protein (BMP)-2-mediated spinal fusion in a rat arthrodesis model. METHODS: Female Long-Evans rats were pretreated with dioxin or vehicle in six weekly doses, followed by bilateral posterior lumbar spinal fusion across the L4-L5 transverse processes using recombinant human BMP (rhBMP)-2. Treatments continued until sacrifice at four weeks postoperatively. A third group was treated with dioxin for six weeks, followed by a recovery period of four elimination half-lives to assess the reversible effects of dioxin exposure on spinal fusion capacity. Bone formation and fusion capacity were evaluated using fusion scoring, radiography, micro-computed tomography, and histologic analysis. RESULTS: Fusion scores for dioxin-treated and dioxin-recovery rats were significantly lower than those for controls. Although fusion rates were also significantly reduced in dioxin-treated animals relative to controls (50% versus 100%, respectively), rates were not significantly reduced in dioxin-recovery animals (80%). CONCLUSIONS: Dioxin treatment significantly inhibited spinal fusion in a rat arthrodesis model, and a prolonged cessation of dioxin exposure facilitated only a partial recovery of bone-healing capacity. This finding indicates that, although the effects of dioxin are persistent, an extended recovery from exposure could potentially restore bone regeneration in vivo. CLINICAL RELEVANCE: Development of a pharmacologic agent that reduces the adverse effects of cigarette smoke on bone-healing could prove useful to orthopaedic surgeons. Since dioxin and other similar cigarette smoke toxins exert their effects through Ahr pathway activation, the receptor represents a potential therapeutic target to improve spinal fusion rates in patients who smoke.
BACKGROUND: Cigarette smoking inhibits bone-healing and leads to increased rates of pseudarthrosis. However, the mechanisms behind these effects are controversial. Dioxin (2,3,7,8-tetrachlorodibenzo-p-dioxin)--a cigarette smoke constituent and potent activator of the aryl hydrocarbon receptor (Ahr)--negatively impacts bone quality and osteoblast differentiation. We hypothesized that activation of the Ahr by dioxin would inhibit bone morphogenetic protein (BMP)-2-mediated spinal fusion in a rat arthrodesis model. METHODS: Female Long-Evans rats were pretreated with dioxin or vehicle in six weekly doses, followed by bilateral posterior lumbar spinal fusion across the L4-L5 transverse processes using recombinant humanBMP (rhBMP)-2. Treatments continued until sacrifice at four weeks postoperatively. A third group was treated with dioxin for six weeks, followed by a recovery period of four elimination half-lives to assess the reversible effects of dioxin exposure on spinal fusion capacity. Bone formation and fusion capacity were evaluated using fusion scoring, radiography, micro-computed tomography, and histologic analysis. RESULTS: Fusion scores for dioxin-treated and dioxin-recovery rats were significantly lower than those for controls. Although fusion rates were also significantly reduced in dioxin-treated animals relative to controls (50% versus 100%, respectively), rates were not significantly reduced in dioxin-recovery animals (80%). CONCLUSIONS:Dioxin treatment significantly inhibited spinal fusion in a rat arthrodesis model, and a prolonged cessation of dioxin exposure facilitated only a partial recovery of bone-healing capacity. This finding indicates that, although the effects of dioxin are persistent, an extended recovery from exposure could potentially restore bone regeneration in vivo. CLINICAL RELEVANCE: Development of a pharmacologic agent that reduces the adverse effects of cigarette smoke on bone-healing could prove useful to orthopaedic surgeons. Since dioxin and other similar cigarette smoke toxins exert their effects through Ahr pathway activation, the receptor represents a potential therapeutic target to improve spinal fusion rates in patients who smoke.
Authors: J Adam Driscoll; Ryan Lubbe; Adam E Jakus; Kevin Chang; Meraaj Haleem; Chawon Yun; Gurmit Singh; Andrew D Schneider; Karina M Katchko; Carmen Soriano; Michael Newton; Tristan Maerz; Xin Li; Kevin Baker; Wellington K Hsu; Ramille N Shah; Stuart R Stock; Erin L Hsu Journal: Tissue Eng Part A Date: 2019-09-26 Impact factor: 3.845
Authors: Diddier Prada; Gerard López; Helena Solleiro-Villavicencio; Claudia Garcia-Cuellar; Andrea A Baccarelli Journal: Environ Res Date: 2020-04-06 Impact factor: 6.498
Authors: Mark A Plantz; Silvia Minardi; Joseph G Lyons; Allison C Greene; David J Ellenbogen; Mitchell Hallman; Jonathan T Yamaguchi; Soyeon Jeong; Chawon Yun; Adam E Jakus; Kenneth R Blank; Robert M Havey; Muturi Muriuki; Avinash G Patwardhan; Ramille N Shah; Wellington K Hsu; Stuart R Stock; Erin L Hsu Journal: Acta Biomater Date: 2021-04-06 Impact factor: 10.633
Authors: Chawon Yun; Karina M Katchko; Michael S Schallmo; Soyeon Jeong; Jonghwa Yun; Charlotte H Chen; Joseph A Weiner; Christian Park; Andrew George; Samuel I Stupp; Wellington K Hsu; Erin L Hsu Journal: Int J Mol Sci Date: 2018-01-11 Impact factor: 5.923
Authors: Justin T Smith; Andrew D Schneider; Karina M Katchko; Chawon Yun; Erin L Hsu Journal: Front Endocrinol (Lausanne) Date: 2017-02-14 Impact factor: 5.555
Authors: Chawon Yun; Joseph A Weiner; Danielle S Chun; Jonghwa Yun; Ralph W Cook; Michael S Schallmo; Abhishek S Kannan; Sean M Mitchell; Ryan D Freshman; Christian Park; Wellington K Hsu; Erin L Hsu Journal: Bone Rep Date: 2017-02-16
Authors: Mitchell Hallman; J Adam Driscoll; Ryan Lubbe; Soyeon Jeong; Kevin Chang; Meraaj Haleem; Adam Jakus; Richard Pahapill; Chawon Yun; Ramille Shah; Wellington K Hsu; Stuart R Stock; Erin L Hsu Journal: Tissue Eng Part A Date: 2020-03-26 Impact factor: 3.845