BACKGROUND: Lung transplant recipients are vulnerable to immunologic, infectious, ischemic, and toxic pulmonary injuries. The authors investigated whether type II pneumocytes in the lungs of cross-gender lung transplant patients show genotypic evidence to support repopulation of the lung by stem cells of bone marrow origin, and whether the degree of repopulation was related to rejection history. METHODS: Recut sections were obtained from lung biopsy specimens from seven male recipients of transplanted lungs from female donors. Sequential immunohistochemistry and fluorescence in situ hybridization was performed on each section to evaluate for Y-chromosome-containing type II pneumocytes. RESULTS: Y-chromosome-containing type II pneumocytes were found in 9 of 25 biopsy specimens from 5 of 7 gender-mismatched male lung transplant recipients, and accounted for 0% to 0.553% of type II pneumocytes. There was no evidence of polyploidy to suggest cell-cell fusion. The number of type II pneumocytes of male karyotype showed a statistically significant relationship to the cumulative number of episodes of acute cellular rejection. CONCLUSIONS: Lung transplant recipients develop low levels of pneumocyte repopulation by bone marrow-derived stem cells or their progeny. These cells contribute minimally to the type II pneumocyte proliferation that is often present in these patients as a sequela to alveolar injury.
BACKGROUND: Lung transplant recipients are vulnerable to immunologic, infectious, ischemic, and toxic pulmonary injuries. The authors investigated whether type II pneumocytes in the lungs of cross-gender lung transplant patients show genotypic evidence to support repopulation of the lung by stem cells of bone marrow origin, and whether the degree of repopulation was related to rejection history. METHODS: Recut sections were obtained from lung biopsy specimens from seven male recipients of transplanted lungs from female donors. Sequential immunohistochemistry and fluorescence in situ hybridization was performed on each section to evaluate for Y-chromosome-containing type II pneumocytes. RESULTS: Y-chromosome-containing type II pneumocytes were found in 9 of 25 biopsy specimens from 5 of 7 gender-mismatched male lung transplant recipients, and accounted for 0% to 0.553% of type II pneumocytes. There was no evidence of polyploidy to suggest cell-cell fusion. The number of type II pneumocytes of male karyotype showed a statistically significant relationship to the cumulative number of episodes of acute cellular rejection. CONCLUSIONS: Lung transplant recipients develop low levels of pneumocyte repopulation by bone marrow-derived stem cells or their progeny. These cells contribute minimally to the type II pneumocyte proliferation that is often present in these patients as a sequela to alveolar injury.
Authors: Mark E Bernard; Hyun Kim; Malolan S Rajagopalan; Brandon Stone; Umar Salimi; Jean-Claude Rwigema; Michael W Epperly; Hongmei Shen; Julie P Goff; Darcy Franicola; Tracy Dixon; Shaonan Cao; Xichen Zhang; Hong Wang; Donna B Stolz; Joel S Greenberger Journal: In Vivo Date: 2012 Jan-Feb Impact factor: 2.155
Authors: Piero Anversa; Mark A Perrella; Stella Kourembanas; Augustine M K Choi; Joseph Loscalzo Journal: Eur J Clin Invest Date: 2012-03-21 Impact factor: 4.686
Authors: Huanhuan Sun; Yuan Quan; Qing Yan; Xinmiao Peng; Zhengmei Mao; Rick A Wetsel; Dachun Wang Journal: Tissue Eng Part C Methods Date: 2013-11-15 Impact factor: 3.056