TY - JOUR
T1 - Hyperoxia-induced alterations in the pulmonary proteome of juvenile rats
AU - Konsavage, Wesley M.
AU - Umstead, Todd M.
AU - Wu, Yuchieh
AU - Phelps, David S.
AU - Shenberger, Jeffrey S.
N1 - Funding Information:
Received 14 September 2011; accepted 2 January 2012.; published online 31 January 2013 This work was supported by a Penn State Hershey Medical Center Children’s Miracle Network Grant awarded to JSS. Address correspondence to Jeffrey S. Shenberger, MD, Department of Pediatrics and Child Research, H085, Penn State College of Medicine, P.O. Box 850, 500 University Drive, Hershey, PA 17033–0850, USA. E-mail: [email protected]
PY - 2013/3
Y1 - 2013/3
N2 - High inspired concentrations of oxygen (hyperoxia) are often necessary to counteract tissue hypoxia during the treatment of ARDS. Reactive oxygen species generated by hyperoxic therapy may influence the expression of the pulmonary proteome and the application of discovery proteomics to the hyperoxic lung has the potential to divulge mechanisms regulating the expression of specific proteins integral to lung injury and repair. The present study examined the proteome derived from 30-day-old Sprague-Dawley rats exposed to room air (RA) and 95% O2 (Ox) for 24-72 hours using 2-dimensional difference in-gel electrophoresis (2D-DIGE) coupled with MALDI-ToF/ToF mass spectrometry. A total of 870 protein spots were visualized by 2D-DIGE across all gels. Mass spectral analysis identified 51 proteins representing 187 of the 214 significantly altered spots. Molecular and cellular function analysis grouped the identified proteins into free radical scavenging, cell death, cell-to-cell signaling, and cellular movement categories. The majority of the differences in the protein spots between RA and Ox occurred at 72 hours, with albumin, annexin A6 (AnxA6), and transferrin being increased, and mitochondrial Lon peptidase 1 being decreased by at least 20%. In Ox animals, AnxA6 protein expression increased three-fold without an increase in mRNA expression. Bioinformatic analysis of the AnxA6 transcript revealed the presence of a putative internal ribosome entry site within the 5′-untranslated region. These findings indicate that hyperoxia induces significant alterations in the pulmonary proteome which are temporally related. In addition, hyperoxia selectively enhances the expression of some proteins whose transcripts contain sequence motifs, which impart translational regulation.
AB - High inspired concentrations of oxygen (hyperoxia) are often necessary to counteract tissue hypoxia during the treatment of ARDS. Reactive oxygen species generated by hyperoxic therapy may influence the expression of the pulmonary proteome and the application of discovery proteomics to the hyperoxic lung has the potential to divulge mechanisms regulating the expression of specific proteins integral to lung injury and repair. The present study examined the proteome derived from 30-day-old Sprague-Dawley rats exposed to room air (RA) and 95% O2 (Ox) for 24-72 hours using 2-dimensional difference in-gel electrophoresis (2D-DIGE) coupled with MALDI-ToF/ToF mass spectrometry. A total of 870 protein spots were visualized by 2D-DIGE across all gels. Mass spectral analysis identified 51 proteins representing 187 of the 214 significantly altered spots. Molecular and cellular function analysis grouped the identified proteins into free radical scavenging, cell death, cell-to-cell signaling, and cellular movement categories. The majority of the differences in the protein spots between RA and Ox occurred at 72 hours, with albumin, annexin A6 (AnxA6), and transferrin being increased, and mitochondrial Lon peptidase 1 being decreased by at least 20%. In Ox animals, AnxA6 protein expression increased three-fold without an increase in mRNA expression. Bioinformatic analysis of the AnxA6 transcript revealed the presence of a putative internal ribosome entry site within the 5′-untranslated region. These findings indicate that hyperoxia induces significant alterations in the pulmonary proteome which are temporally related. In addition, hyperoxia selectively enhances the expression of some proteins whose transcripts contain sequence motifs, which impart translational regulation.
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U2 - 10.3109/01902148.2013.763871
DO - 10.3109/01902148.2013.763871
M3 - Article
C2 - 23368526
AN - SCOPUS:84874072857
SN - 0190-2148
VL - 39
SP - 107
EP - 117
JO - Experimental Lung Research
JF - Experimental Lung Research
IS - 2
ER -