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Cardiovascular Pathobiology
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Dwight Towler to lead Pathobiology Program
Dwight A. Towler, M.D., Ph.D. has joined Sanford-Burnham's Lake Nona campus as professor and director of the Cardiovascular Pathobiology Program.
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Heart hormone helps shape fat metabolism
A study at Sanford-Burnham suggests that the heart plays a role in breaking down fat. Sheila Collins, Ph.D. and colleagues observed how hormones released by the heart stimulate fat cell metabolism.
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The many flavors of diabetic heart disease
The diabetic heart is different from the non-diabetic failing heart in that it is filled with fat.
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Studying cardiovascular pathobiology
Scientists in the Cardiovascular Pathobiology Program conduct research on fundamental and early translational aspects of cardiovascular biology, physiology, and disease. High blood pressure (hypertension), heart injury, and diabetes all lead to a thickening and weakening of the heart muscle, leading to fibrosis and progressive dilatation of the ventricles. Similarly, hypertension, smoking, high cholesterol levels, and diabetes can all contribute to atherosclerosis and heart attack. Distinct signatures of the underlying disease processes may exist at the cellular level, but it is often difficult to point to a specific reason for heart failure and vascular disease. This is especially true in obese or diabetic patients, given that high blood pressure and heart disease together with metabolic disturbances often coexist. Moreover, in certain diseases, such as chronic kidney disease (CKD), diabetes and/or hypertension are caught up in a “perfect storm” of blood-vessel inflammation and destruction, driven by systemic changes in phosphate and mineral metabolism. These changes drive arteriosclerotic calcification and the risk of stroke, heart attack, congestive heart failure, lower extremity amputation, and sudden death.
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In order to treat heart and vascular diseases at the earliest stages, the underlying pathogenic mechanisms must be understood. An objective of the program is to conduct fundamental and translational studies that will lead to greater insight into specific heart failure, valvular, and arteriosclerotic vascular disease, leading to informed and individualized treatments. The mission of the program comprises three major components:
- Mechanisms of Disease - Program scientists are researching pathogenic mechanisms involved in the development of cardiac dysfunction. Similar studies will be conducted for vascular disease. The program will support studies from fundamental experimental model systems to humans. This goal demands enhancement of research expertise in bioengineering, metabolite sensing, biorepository development, and human disease epigenetics via strategic faculty recruitment and external collaborations.
- Biosignatures/biomarkers - Fundamental studies of mechanism will be tied to the identification of biochemical, genetic, or imaging-based biomarkers that define specific cardiovascular diseases. Systems-based metabolomic, lipidomic, genomic, and epigenomic strategies will be employed to define relevant biosignatures, a first step toward biomarker discovery. This goal demands a strong research technology platform and links with clinical research programs evolving with key health-care collaborators.
- Therapeutic targets - Mechanistic studies, combined with molecular profiling, shows promise for the identification of candidate molecules and pathway targets for new therapies. The new treatments will be aimed at the early stages of disease and individualized to the specific cardiovascular disease. The search for new therapeutics will utilize the power of small-molecule and functional genomic screening using extensive cellular phenotyping, metabolomics, and genomic profiling as endpoints. Program scientists will also explore biologic and RNA/DNA-based therapeutic strategies.
Research - Diabetes and Obesity - Cardiovascular Pathobiology: How
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Research - Diabetes and Obesity - Cardiovascular Pathobiology: Recent
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Recent Developments
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A Different Path to Fat-Related Heart Disease
Obesity and high-fat diets are major risk factors for lipotoxic cardiomyopathy, a condition where fat accumulates in heart cells. Dr. Rolf Bodmer and colleagues recently discovered an alternative cause – an imbalance in the fats that normally make up the basic structure of our cells- by studying an unusual model, the Drosophila fruit fly.
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Simulation of triacylglycerol ion profiles: bioinformatics for interpretation of triacylglycerol biosynthesis.
Han RH, Wang M, Fang X, Han X.
J Lipid Res. 2013 Apr;54(4):1023-32. doi: 10.1194/jlr.M033837. Epub 2013 Jan 30.
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Studying arrhythmogenic right ventricular dysplasia with patient-specific iPSCs.
Kim C, Wong J, Wen J, Wang S, Wang C, Spiering S, Kan NG, Forcales S, Puri PL, Leone TC, Marine JE, Calkins H, Kelly DP, Judge DP, Chen HS.
Nature. 2013 Feb 7;494(7435):105-10. doi: 10.1038/nature11799. Epub 2013 Jan 27.
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PGC1α plays a critical role in TWEAK-induced cardiac dysfunction.
Shi J, Jiang B, Qiu Y, Guan J, Jain M, Cao X, Bauer M, Su L, Burkly LC, Leone TC, Kelly DP, Liao R.
PLoS One. 2013;8(1):e54054. doi: 10.1371/journal.pone.0054054. Epub 2013 Jan 16.
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Liver-specific PGC-1beta deficiency leads to impaired mitochondrial function and lipogenic response to fasting-refeeding.
Chambers KT, Chen Z, Crawford PA, Fu X, Burgess SC, Lai L, Leone TC, Kelly DP, Finck BN.
PLoS One. 2012;7(12):e52645. doi: 10.1371/journal.pone.0052645. Epub 2012 Dec 28.
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Fetal PGC-1α Overexpression Programs Adult Pancreatic β-Cell Dysfunction.
Valtat B, Riveline JP, Zhang P, Singh-Estivalet A, Armanet M, Venteclef N, Besseiche A, Kelly DP, Tronche F, Ferré P, Gautier JF, Bréant B, Blondeau B.
Diabetes. 2013 Apr;62(4):1206-16. doi: 10.2337/db12-0314. Epub 2012 Dec 28.
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Computational tools and resources for metabolism-related property predictions. 2. Application to prediction of half-life time in human liver microsomes.
Zakharov AV, Peach ML, Sitzmann M, Filippov IV, McCartney HJ, Smith LH, Pugliese A, Nicklaus MC.
Future Med Chem. 2012 Oct;4(15):1933-44. doi: 10.4155/fmc.12.152.
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Research - Diabetes and Obesity - Cardiovascular Pathobiology:
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