J W Wilson1, X Li. 1. Department of Medicine, Monash Medical School, Prahran, Australia.
Abstract
BACKGROUND: An increase in types III and V collagen below the bronchial epithelium of the airway is known to be responsible for apparent thickening of the reticular basement membrane (RBM) and is recognized as a characteristic feature of asthma. Wide variations exist in reported ranges of the thickness of the RBM in both asthmatic and control airways. The description of collagen deposition has been confined to the RBM with no previous reports of increased collagen deeper within the bronchial wall (i.e. submucosa), although inflammation is known to extend to deeper levels. OBJECTIVE: The objective of this study was to compare different methods used to measure RBM thickness and to examine collagen deposition in deeper asthmatic bronchial submucosa. METHODS: We examined bronchial mucosal biopsies from 15 asthmatic and 13 normal healthy controls to measure RBM thickness by light and electron microscopic methods on resin sections and to estimate the extent of collagen deposition in the submucosa by immunochemical staining with monoclonal antibodies to collagen subtypes on paraffin sections. RESULTS: Simple staining with toluidine blue on resin sections coupled with light microscopic evaluation was as accurate and less expensive than electron microscopic methods in the measurement of the thickness of RBM (mean +/- SD, light microscopy: asthma vs control, 6.01 +/- 2.09 vs 3.19 +/- 0.55 microns, P < 0.001; electron microscopy: asthma vs control, 6.09 +/- 2.19 vs 2.85 +/- 0.86 microns, P < 0.01). Using monoclonal antibodies to collagen subtypes and image analysis methods, we identified increased collagen in the submucosa in asthma (type III collagen, asthma vs control: 62 +/- 7 vs 51 +/- 9%, P < 0.05, type V collagen, asthma vs control: 60 +/- 6 vs 52 +/- 9%, P < 0.05). CONCLUSIONS: This study has demonstrated that the RBM may be reliably measured by light microscopic methods. This study shows for the first time that the submucosa of the asthmatic airway contains significantly more collagen than normal controls, giving rise to the possibility that airway scar formation may have greater functional implications than has been previously believed from consideration of the RBM alone.
BACKGROUND: An increase in types III and V collagen below the bronchial epithelium of the airway is known to be responsible for apparent thickening of the reticular basement membrane (RBM) and is recognized as a characteristic feature of asthma. Wide variations exist in reported ranges of the thickness of the RBM in both asthmatic and control airways. The description of collagen deposition has been confined to the RBM with no previous reports of increased collagen deeper within the bronchial wall (i.e. submucosa), although inflammation is known to extend to deeper levels. OBJECTIVE: The objective of this study was to compare different methods used to measure RBM thickness and to examine collagen deposition in deeper asthmatic bronchial submucosa. METHODS: We examined bronchial mucosal biopsies from 15 asthmatic and 13 normal healthy controls to measure RBM thickness by light and electron microscopic methods on resin sections and to estimate the extent of collagen deposition in the submucosa by immunochemical staining with monoclonal antibodies to collagen subtypes on paraffin sections. RESULTS: Simple staining with toluidine blue on resin sections coupled with light microscopic evaluation was as accurate and less expensive than electron microscopic methods in the measurement of the thickness of RBM (mean +/- SD, light microscopy: asthma vs control, 6.01 +/- 2.09 vs 3.19 +/- 0.55 microns, P < 0.001; electron microscopy: asthma vs control, 6.09 +/- 2.19 vs 2.85 +/- 0.86 microns, P < 0.01). Using monoclonal antibodies to collagen subtypes and image analysis methods, we identified increased collagen in the submucosa in asthma (type III collagen, asthma vs control: 62 +/- 7 vs 51 +/- 9%, P < 0.05, type V collagen, asthma vs control: 60 +/- 6 vs 52 +/- 9%, P < 0.05). CONCLUSIONS: This study has demonstrated that the RBM may be reliably measured by light microscopic methods. This study shows for the first time that the submucosa of the asthmatic airway contains significantly more collagen than normal controls, giving rise to the possibility that airway scar formation may have greater functional implications than has been previously believed from consideration of the RBM alone.
Authors: Christopher B Raub; Vinod Suresh; Tatiana Krasieva; Julia Lyubovitsky; Justin D Mih; Andrew J Putnam; Bruce J Tromberg; Steven C George Journal: Biophys J Date: 2006-12-15 Impact factor: 4.033
Authors: Lance Cohen; Xueping E; Jaime Tarsi; Thiruvamoor Ramkumar; Todd K Horiuchi; Rebecca Cochran; Steve DeMartino; Kenneth B Schechtman; Iftikhar Hussain; Michael J Holtzman; Mario Castro Journal: Am J Respir Crit Care Med Date: 2007-04-26 Impact factor: 21.405
Authors: Jeroen J W Liesker; Nick H Ten Hacken; Mieke Zeinstra-Smith; Steven R Rutgers; Dirkje S Postma; Wim Timens Journal: Int J Chron Obstruct Pulmon Dis Date: 2009-04-15