A J McCabe1, M Dowhy, B A Holm, P L Glick. 1. Buffalo Institute of Fetal Therapy (BIFT), The Children's Hospital of Buffalo (Kaleida Health), Departments of Surgery, Pediatrics, and OBGYN, The State University of New York at Buffalo, School of Medicine and Biomedical Sciences, Buffalo, NY, USA.
Abstract
PURPOSE: The antioxidant system is the primary intracellular defense system of the lung against oxygen toxicity (neutrophil sequestration). The CDH lamb model antioxidant system is deficient. It is hypothesized that pulmonary neutrophil sequestration may play a part in the acute lung injury of CDH patients. Myeloperoxidase (MPO) is a major constituent of neutrophil cytoplasmic granules and its activity therefore is a direct measure of neutrophil presence and an indirect indicator of lung injury. METHODS: Eight lambs had left-sided diaphragmatic hernias surgically created at 80 days' gestation and were delivered by cesarean section at 140 to 145 days. Eight littermate lambs served as controls. Lambs were either killed before ventilation or were ventilated conventionally for 4 hours with 100% O(2) and then killed. The lungs were dissected en bloc and snap frozen. The samples were homogenized, sonicated, freeze-thawed, and separated by density centrifugation. Supernatants were analyzed for myeloperoxidase (MPO) activity by spectrophotometry with o-dianisidine dihydrochloride and hydrogen peroxide at 460 nm. The MPO activity was normalized to the protein content of the supernatant and expressed as units of MPO activity per milligram of protein. RESULTS: There was significantly more MPO activity in the CDH-ventilated lungs than controls similarly ventilated (3,203 +/- 665 versus 1,220 +/- 194, P =.001). There was no difference in MPO activity between the CDH and control lungs (318 +/- 57 v 348 +/- 61; P =.5). There was no difference between right and left lungs in any group. CONCLUSION: Ventilation and hyperoxia leads to neutrophil accumulation in lung tissue, which is most pronounced in the CDH lung tissue. This is a further clue to the pathophysiology of iatrogenic lung injury in CDH. The myeloperoxidase assay may now be used to evaluate antenatal or postnatal antioxidant therapies for iatrogenic lung injury in CDH.
PURPOSE: The antioxidant system is the primary intracellular defense system of the lung against oxygentoxicity (neutrophil sequestration). The CDH lamb model antioxidant system is deficient. It is hypothesized that pulmonary neutrophil sequestration may play a part in the acute lung injury of CDHpatients. Myeloperoxidase (MPO) is a major constituent of neutrophil cytoplasmic granules and its activity therefore is a direct measure of neutrophil presence and an indirect indicator of lung injury. METHODS: Eight lambs had left-sided diaphragmatic hernias surgically created at 80 days' gestation and were delivered by cesarean section at 140 to 145 days. Eight littermate lambs served as controls. Lambs were either killed before ventilation or were ventilated conventionally for 4 hours with 100% O(2) and then killed. The lungs were dissected en bloc and snap frozen. The samples were homogenized, sonicated, freeze-thawed, and separated by density centrifugation. Supernatants were analyzed for myeloperoxidase (MPO) activity by spectrophotometry with o-dianisidine dihydrochloride and hydrogen peroxide at 460 nm. The MPO activity was normalized to the protein content of the supernatant and expressed as units of MPO activity per milligram of protein. RESULTS: There was significantly more MPO activity in the CDH-ventilated lungs than controls similarly ventilated (3,203 +/- 665 versus 1,220 +/- 194, P =.001). There was no difference in MPO activity between the CDH and control lungs (318 +/- 57 v 348 +/- 61; P =.5). There was no difference between right and left lungs in any group. CONCLUSION: Ventilation and hyperoxia leads to neutrophil accumulation in lung tissue, which is most pronounced in the CDH lung tissue. This is a further clue to the pathophysiology of iatrogenic lung injury in CDH. The myeloperoxidase assay may now be used to evaluate antenatal or postnatal antioxidant therapies for iatrogenic lung injury in CDH.
Authors: Bishuang Cai; Edward B Thorp; Amanda C Doran; Manikandan Subramanian; Brian E Sansbury; Chyuan-Sheng Lin; Matthew Spite; Gabrielle Fredman; Ira Tabas Journal: Proc Natl Acad Sci U S A Date: 2016-05-19 Impact factor: 11.205
Authors: Theodore J Kottom; Vijayalakshmi Nandakumar; Deanne M Hebrink; Eva M Carmona; Andrew H Limper Journal: Cell Microbiol Date: 2020-07-22 Impact factor: 3.715