A multidimensional proteomic approach to identify hypertrophy-associated proteins

Left ventricular hypertrophy (LVH) is a leading cause of congestive heart failure. The exact mechanisms that control cardiac growth and regulate the transition to failure are not fully understood, in part due to the lack of a complete inventory of proteins associated with LVH. We investigated the pr...

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Veröffentlicht in:	Proteomics (Weinheim) 2006-04, Vol.6 (7), p.2225-2235
Hauptverfasser:	Lindsey, Merry L., Goshorn, Danielle K., Comte-Walters, Susana, Hendrick, Jennifer W., Hapke, Elizabeth, Zile, Michael R., Schey, Kevin
Format:	Artikel
Sprache:	eng
Schlagworte:	Analytical, structural and metabolic biochemistry Animals Biological and medical sciences Electrophoresis, Gel, Two-Dimensional Fundamental and applied biological sciences. Psychology Hypertrophy, Left Ventricular - metabolism Hypertrophy, Left Ventricular - physiopathology Immunoblotting Isotope Labeling Isotope-coded affinity tag analysis Left ventricular hypertrophy Male Mass Spectrometry Mice Mice, Inbred C57BL Miscellaneous Proteins Proteins - isolation & purification Proteins - metabolism Proteomics Two-dimensional gel electrophoresis
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creator	Lindsey, Merry L. Goshorn, Danielle K. Comte-Walters, Susana Hendrick, Jennifer W. Hapke, Elizabeth Zile, Michael R. Schey, Kevin
description	Left ventricular hypertrophy (LVH) is a leading cause of congestive heart failure. The exact mechanisms that control cardiac growth and regulate the transition to failure are not fully understood, in part due to the lack of a complete inventory of proteins associated with LVH. We investigated the proteomic basis of LVH using the transverse aortic constriction model of pressure overload in mice coupled with a multidimensional approach to identify known and novel proteins that may be relevant to the development and maintenance of LVH. We identified 123 proteins that were differentially expressed during LVH, including LIM proteins, thioredoxin, myoglobin, fatty acid binding protein 3, the abnormal spindle‐like microcephaly protein (ASPM), and cytoskeletal proteins such as actin and myosin. In addition, proteins with unknown functions were identified, providing new directions for future research in this area. We also discuss common pitfalls and strategies to overcome the limitations of current proteomic technologies. Together, the multidimensional approach provides insight into the proteomic changes that occur in the LV during hypertrophy.
doi_str_mv	10.1002/pmic.200500013
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The exact mechanisms that control cardiac growth and regulate the transition to failure are not fully understood, in part due to the lack of a complete inventory of proteins associated with LVH. We investigated the proteomic basis of LVH using the transverse aortic constriction model of pressure overload in mice coupled with a multidimensional approach to identify known and novel proteins that may be relevant to the development and maintenance of LVH. We identified 123 proteins that were differentially expressed during LVH, including LIM proteins, thioredoxin, myoglobin, fatty acid binding protein 3, the abnormal spindle‐like microcephaly protein (ASPM), and cytoskeletal proteins such as actin and myosin. In addition, proteins with unknown functions were identified, providing new directions for future research in this area. We also discuss common pitfalls and strategies to overcome the limitations of current proteomic technologies. 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The exact mechanisms that control cardiac growth and regulate the transition to failure are not fully understood, in part due to the lack of a complete inventory of proteins associated with LVH. We investigated the proteomic basis of LVH using the transverse aortic constriction model of pressure overload in mice coupled with a multidimensional approach to identify known and novel proteins that may be relevant to the development and maintenance of LVH. We identified 123 proteins that were differentially expressed during LVH, including LIM proteins, thioredoxin, myoglobin, fatty acid binding protein 3, the abnormal spindle‐like microcephaly protein (ASPM), and cytoskeletal proteins such as actin and myosin. In addition, proteins with unknown functions were identified, providing new directions for future research in this area. We also discuss common pitfalls and strategies to overcome the limitations of current proteomic technologies. 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subjects	Analytical, structural and metabolic biochemistry Animals Biological and medical sciences Electrophoresis, Gel, Two-Dimensional Fundamental and applied biological sciences. Psychology Hypertrophy, Left Ventricular - metabolism Hypertrophy, Left Ventricular - physiopathology Immunoblotting Isotope Labeling Isotope-coded affinity tag analysis Left ventricular hypertrophy Male Mass Spectrometry Mice Mice, Inbred C57BL Miscellaneous Proteins Proteins - isolation & purification Proteins - metabolism Proteomics Two-dimensional gel electrophoresis
title	A multidimensional proteomic approach to identify hypertrophy-associated proteins
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