BACKGROUND: Obliterative bronchiolitis (OB) affects over half of all long-term survivors after lung transplantation. Respiratory epithelial cell injury, peribronchial inflammation, and proliferation of fibrovascular connective tissue causing airway occlusion characterize this lesion. Several chemokines participate in experimental OB, and singular blockade is only partially effective. We hypothesized that a broad-spectrum chemokine inhibitor would be an effective intervention in preventing the progression of OB in an established heterotopic tracheal transplantation model. METHODS: Tracheas from Brown-Norway or Lewis rats were transplanted subcutaneously into Lewis recipients. Treated, allogeneic recipients received either a broad-spectrum chemokine inhibitor in its active (NR58.3.14.3) or inactive (NR58.3.14.4) form at a dose of 30 mg/kg daily. Luminal obstruction, epithelial loss, leukocytic infiltrates, and inflammatory cytokine mRNA levels were assessed in explanted tracheal samples 14 days after transplantation. RESULTS: After 14 days, allografts receiving the inactive chemokine inhibitor demonstrated marked peribronchial inflammation, near complete loss of respiratory epithelium, and extensive intraluminal proliferation of fibrovascular connective tissue, with a mean 84% +/- 5% reduction in airway lumen cross-sectional area. Isografts showed limited inflammation, with minimal loss of epithelium and luminal occlusion. Allogeneic recipients treated with the active chemokine inhibitor showed a significant preservation of respiratory epithelium, minimal peribronchial inflammation, and a marked decrease in the loss of airway cross-sectional area (23% +/- 1%) (p < 0.001). CONCLUSIONS: These findings further characterize the participation of chemokines in OB, and suggest that broad-spectrum chemokine inhibition may potentially be a useful therapeutic tool in slowing the progression of this disease.
BACKGROUND: Obliterative bronchiolitis (OB) affects over half of all long-term survivors after lung transplantation. Respiratory epithelial cell injury, peribronchial inflammation, and proliferation of fibrovascular connective tissue causing airway occlusion characterize this lesion. Several chemokines participate in experimental OB, and singular blockade is only partially effective. We hypothesized that a broad-spectrum chemokine inhibitor would be an effective intervention in preventing the progression of OB in an established heterotopic tracheal transplantation model. METHODS: Tracheas from Brown-Norway or Lewis rats were transplanted subcutaneously into Lewis recipients. Treated, allogeneic recipients received either a broad-spectrum chemokine inhibitor in its active (NR58.3.14.3) or inactive (NR58.3.14.4) form at a dose of 30 mg/kg daily. Luminal obstruction, epithelial loss, leukocytic infiltrates, and inflammatory cytokine mRNA levels were assessed in explanted tracheal samples 14 days after transplantation. RESULTS: After 14 days, allografts receiving the inactive chemokine inhibitor demonstrated marked peribronchial inflammation, near complete loss of respiratory epithelium, and extensive intraluminal proliferation of fibrovascular connective tissue, with a mean 84% +/- 5% reduction in airway lumen cross-sectional area. Isografts showed limited inflammation, with minimal loss of epithelium and luminal occlusion. Allogeneic recipients treated with the active chemokine inhibitor showed a significant preservation of respiratory epithelium, minimal peribronchial inflammation, and a marked decrease in the loss of airway cross-sectional area (23% +/- 1%) (p < 0.001). CONCLUSIONS: These findings further characterize the participation of chemokines in OB, and suggest that broad-spectrum chemokine inhibition may potentially be a useful therapeutic tool in slowing the progression of this disease.
Authors: Sandra Miklos; Gunnar Mueller; Yayi Chang; Abdellatif Bouazzaoui; Elena Spacenko; Thomas E O Schubert; David J Grainger; Ernst Holler; Reinhard Andreesen; Gerhard C Hildebrandt Journal: Int J Hematol Date: 2009-03-14 Impact factor: 2.490
Authors: Michelle Coleman; Austyn Orvis; Tsung-Yen Wu; Matthew Dacanay; Sean Merillat; Jason Ogle; Audrey Baldessari; Nicole M Kretzer; Jeff Munson; Adam J Boros-Rausch; Oksana Shynlova; Stephen Lye; Lakshmi Rajagopal; Kristina M Adams Waldorf Journal: Front Immunol Date: 2020-04-30 Impact factor: 7.561
Authors: Brahm Seymour Coler; Oksana Shynlova; Adam Boros-Rausch; Stephen Lye; Stephen McCartney; Kelycia B Leimert; Wendy Xu; Sylvain Chemtob; David Olson; Miranda Li; Emily Huebner; Anna Curtin; Alisa Kachikis; Leah Savitsky; Jonathan W Paul; Roger Smith; Kristina M Adams Waldorf Journal: J Clin Med Date: 2021-06-29 Impact factor: 4.241