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Author: Edward Lau Publisher: ISBN: Category : Languages : en Pages : 235
Book Description
The cardiac mitochondrial proteome contains ~1,500 distinct proteins that carry out necessary metabolic and energetic processes in the heart. To sustain cardiac function, the mitochondrial proteome must be maintained in constant renewal, or turnover, especially under stress conditions. Disruptions of protein turnover can lead to protein damage and proteotoxicity, a hallmark of many heart disease etiologies. Current quantitative proteomics experiments largely focus on the measurement of the steady-state abundance, or changes therein, of proteins that are present in a system, and give little insights into the underlying regulations of protein synthesis, degradation, and homeostasis. Protein turnover rates provide this missing temporal dimension of information, and can inform on the potential mechanism through which protein abundance may permute during the development of disease (e.g., via increased synthesis or decreased degradation). Currently, such investigations are hampered by the fact that the technology to measure protein turnover in animals on a large scale has not been well developed. This dissertation outlines a new method to measure protein turnover half-life in the cardiac mitochondrion. Basic features of the regulation of protein turnover in the mitochondrion are discussed, and how protein dynamics permutes in early-stage heart failure after hypertrophic stimuli is described. In total, we measured the turnover rates of 2,986 proteins in the mouse heart under basal conditions, isoproterenol stimulus, and post-stimulus recovery, including 1,078 proteins from isolated mitochondria. The data revealed widespread, bidirectional changes in protein turnover in 35 functional categories, and further identified a number of novel candidate disease proteins with significantly up-regulated turnover rates in disease, including HK1, ALDH1B1, and PHB, which have been obscured from previous investigations due to their inconspicuous changes in steady-state abundance. Combinatorial analysis of protein expression and protein turnover data indicates that the remodeling heart is characterized by decreased turnover but increased expression of a cohort of mitochondrial proteins including FXN, LETM1, and CYC1, suggesting a potential class of candidate disease proteins whose impaired degradation is associated with remodeling. I further discuss the implications of the data to the cardiac remodeling process at large and how such investigations may be translated to human studies in the future. Taken together, the results suggest that comparisons of protein turnover rates can be a powerful new tool to understand the temporal dynamics of disease progression in the heart.
Author: Edward Lau Publisher: ISBN: Category : Languages : en Pages : 235
Book Description
The cardiac mitochondrial proteome contains ~1,500 distinct proteins that carry out necessary metabolic and energetic processes in the heart. To sustain cardiac function, the mitochondrial proteome must be maintained in constant renewal, or turnover, especially under stress conditions. Disruptions of protein turnover can lead to protein damage and proteotoxicity, a hallmark of many heart disease etiologies. Current quantitative proteomics experiments largely focus on the measurement of the steady-state abundance, or changes therein, of proteins that are present in a system, and give little insights into the underlying regulations of protein synthesis, degradation, and homeostasis. Protein turnover rates provide this missing temporal dimension of information, and can inform on the potential mechanism through which protein abundance may permute during the development of disease (e.g., via increased synthesis or decreased degradation). Currently, such investigations are hampered by the fact that the technology to measure protein turnover in animals on a large scale has not been well developed. This dissertation outlines a new method to measure protein turnover half-life in the cardiac mitochondrion. Basic features of the regulation of protein turnover in the mitochondrion are discussed, and how protein dynamics permutes in early-stage heart failure after hypertrophic stimuli is described. In total, we measured the turnover rates of 2,986 proteins in the mouse heart under basal conditions, isoproterenol stimulus, and post-stimulus recovery, including 1,078 proteins from isolated mitochondria. The data revealed widespread, bidirectional changes in protein turnover in 35 functional categories, and further identified a number of novel candidate disease proteins with significantly up-regulated turnover rates in disease, including HK1, ALDH1B1, and PHB, which have been obscured from previous investigations due to their inconspicuous changes in steady-state abundance. Combinatorial analysis of protein expression and protein turnover data indicates that the remodeling heart is characterized by decreased turnover but increased expression of a cohort of mitochondrial proteins including FXN, LETM1, and CYC1, suggesting a potential class of candidate disease proteins whose impaired degradation is associated with remodeling. I further discuss the implications of the data to the cardiac remodeling process at large and how such investigations may be translated to human studies in the future. Taken together, the results suggest that comparisons of protein turnover rates can be a powerful new tool to understand the temporal dynamics of disease progression in the heart.
Author: Gaetano Santulli Publisher: Springer ISBN: 3319553305 Category : Science Languages : en Pages : 644
Book Description
This text covers the basic principles of mitochondrial dynamics in cardiovascular medicine, with particular emphasis on their functional roles in physiology and disease. The book will include articles pertaining to mitochondrial fitness on a global basis, providing therefore an update on the progress made in several aspects in the field. Thus, it will assist scientists and clinicians alike in furthering basic and translational research. Organized in sections focusing on: basic science, mitochondrial dysfunction in cardiac disorders, in vascular disorders, in metabolic disorders, in kidney disease, therapeutic challenges and options, this essential volume fills imperative gaps in understanding and potentially treating several cardiovascular disorders.
Author: Publisher: ISBN: 9781321125467 Category : Languages : en Pages : 102
Book Description
Myocardial aging is an independent risk factor for cardiovascular disease. Cardiac aging promotes adverse myocardial remodeling and the accumulation of poorly functioning senescent cells, leading to a decline in cardiac performance. Pathological remodeling is associated, in part, with changes occurring at the mitochondrial level exacerbating heart disease. Mitochondrial alteration during heart failure includes cellular changes in fuel utilization and alterations in mitochondrial dynamics, implicating mitochondrial biology as an important facet of cardiac aging biology. Pim kinases are protective in a cardiac context, in part by maintaining mitochondrial integrity. However, Pim protein expression diminishes during cardiac aging. Therefore, cardiac mitochondrial dynamics and metabolism were investigated in relationship to Pim kinases. The relationship between Pim1 and Dynamin Related Protein 1 (Drp1) was assessed as a novel mechanism to prevent Drp1 mediated fission. Drp1 mediates fission by mitochondrial localization during pathological challenge, sensitizing cardiomyocytes to apoptosis. Overexpressing Pim1 decreased total Drp1 levels, increased phosphorylation of Drp1 at serine 637, and inhibited Drp1 localization to mitochondria while preserving reticular morphology after simulated ischemia. Overexpression of Pim1 dominant negative (PDN) increased total mitochondrial Drp1, reduced phospho Drp1, and increased mitochondrial fragmentation. PDN hearts exhibit upregulation of BH3 only protein p53 upregulated modulator of apoptosis (PUMA) that mediates mitochondrial Drp1 accumulation and increased sensitivity to apoptotic stimuli. Therefore, Pim1 activity prevents Drp1 compartmentalization to the mitochondria and preserves reticular mitochondrial morphology. Cellular pathological hypertrophic remodeling and fetal gene program activation was evident in Pim Triple KnockOut (PTKO) mice phenotypic of cardiac aging. Cardiomyocyte senescence manifested by increased expression of cell cycle inhibitors and decreased telomere lengths. Changes in expression of PPAR[gamma] coactivator-1 (PGC-1) [alpha] and [Beta] led to alterations in mitochondrial ultrastructure and metabolism. An energy-starved phenotype was determined with decreased ATP and increased pAMPK:AMPK ratio, confirming changes in the PPAR signaling circuit. Overexpression of PGC-1[alpha] and c-Myc rescued changes in metabolism and restored energy homeostasis. These studies confirm the significant impact of Pim kinases on mitochondrial biology and support the notion to utilize Pim as a tool to prevent cardiac aging by preserving mitochondrial dynamics and metabolism.
Author: Arianne Caudal Publisher: ISBN: Category : Languages : en Pages : 172
Book Description
Cardiovascular disease is the leading cause of death worldwide, yet developments of new treatment has been stalled for nearly three decades and novel concepts and strategies are urgently needed. Mitochondria play a central role in cardiac physiology due to the extraordinary energy demands of the heart. It is well recognized that mitochondrial and metabolic remodeling can be maladaptive in the cardiac response to acute and chronic stress, therefore, treatments that specifically target mitochondrial metabolism would be highly desirable. Our limited understanding of mechanisms that connect mitochondrial dysfunction to cellular responses to stress has hindered progress of therapeutic innovation. In order to gain a more comprehensive understanding of the mitochondrial compartment, we used cross-linking mass spectrometry to determine the protein interaction landscape in respiring isolated mitochondria, intact cardiac tissue, and from animal models of heart failure. These efforts uncovered structural insight into how proteins behave in their native environments and in the presence of pathological stress. Comprehensive visualization of the diverse mitochondrial protein landscape is expected to pave for new therapies and novel drug candidates for heart failure. Furthermore, advancement of a technological strategy for system-wide study of proteins is applicable across a wide range of both physiological and pathological systems and models.
Author: Tingting Liu Publisher: ISBN: 9781321019117 Category : Languages : en Pages :
Book Description
Mitochondrial dysfunction is an important part of the decline in cardiac function in heart failure. Aims: We hypothesize that there would be specific abnormalities in mitochondrial function and proteome with the progression of ischemic heart failure (HF). Materials and Methods: We used a high left anterior descending artery (LAD) ligation in 3-4 month old male rats to generate HF. Rats were studied 9 weeks post ligation. Key findings: Electron microscopy of left ventricle samples showed, mitochondrial changes including decreased size, increased number, abnormal distribution, and cristae loss. Mitochondria in ischemic HF exhibited decreased total ATP, impaired mitochondrial respiration, as well as reduced complex I activity. Analysis of LV mitochondrial proteins by mass spectrometry was performed, and 31 differentially expressed proteins (p
Author: H. Böhles Publisher: CRC Press ISBN: 9783887631048 Category : Cardiomyopathy Languages : en Pages : 188
Book Description
During the last years the understanding for the aetiology of cardiomyopathies could be greatly improved. A great deal of information has accumulated in the field of inherited metabolic diseases, which provides a new basis for our understanding of many heart muscle problems and their corresponding clinical disease entities. This book is meant to give the reader a comprehensive overview of the cardiological manifestations of inborn errors of metabolism. Latest information, such as cardiomyopathy in Fabry disease or in patients with CDG-syndrome is included. It should be helpful, not only to cardiologists, paediatricians, internists and general practicioners, but also to all those interested in a better understanding of the metabolic basis of clinical disease entities.
Author: J.J. Lemasters Publisher: Springer Science & Business Media ISBN: 1489925511 Category : Science Languages : en Pages : 647
Book Description
In aerobic tissues such as heart, brain, kidney, liver and brown fat, mitochon dria account for more than 20% of cell protein and play an essential role in res piration, ATP formation, ketogenesis, gluconeogenesis, amino acid metabolism, ureagenesis, thermogenesis and a variety of other metabolic activities. The mecha nisms by which these activities are integrated and regulated within the overall context of cellular physiology is of much current research interest. In order to bring together scientists examining the various diverse aspects of this overall pro blem, an International Conference on INTEGRATION OF MITOCHONDRIAL FUNC TION was held June 4-7, 1987 at the Hanes Art Center on the campus of the Uni versity of North Carolina at Chapel Hill. The chapters of this volume derive from presentations made at this conference. The focus of INTEGRATION OF MITOCHONDRIAL FUNCTION is on signifi cant new experimental and theoretical advances concerning integration of mito chondrial function at the organelle, cell, tissue and whole organism levels of organization.
Author: José Marín-García Publisher: Springer Science & Business Media ISBN: 0387255745 Category : Medical Languages : en Pages : 415
Book Description
Mitochondria have been pivotal in the development of some of the most important ideas in modern biology. Since the discovery that the organelle has its own DNA and specific mutations were found in association with neuromuscular and cardiovascular diseases and with aging, an extraordi-nary number of publications have followed, and the term mitochondrial medicine was coined. Furthermore, our understanding of the multiple roles that mitochondria play in cardiac cell homeostasis opened the door for intensive experimentation to understand the pathogenesis and to find new treatments for cardiovascular diseases. Besides its role in adenosine triphosphate generation, mitochondria regu-late a complex network of cellular interactions, involving (1) generation and detoxification of reactive oxygen species, including superoxide anion, hy-drogen peroxide, and hydroxyl radical; (2) maintenance of the antioxidant glutathione in a reduced state and adequate level of mitochondrial matrix superoxide dismutase; (3) cytoplasmic calcium homeostasis, particularly under conditions of cellular calcium loading; (4) transport of metabolites between cytoplasm and matrix; (5) both programmed (apoptosis) and necrotic cell death; and (6) cell growth and development. It is therefore not surprising that this organelle has come to be the center stage in many current investigations of cardiovascular diseases, aging, and agi- related disease. Concomitant with these advances, an impressive effort is under- way for the development of new tools and methodologies to study mitochondrial structure and function, including powerful ways to visualize, monitor, and alter the organelle function to assess the genetic consequences of these perturbations.
Author: José Marín-García Publisher: Academic Press ISBN: 0124046428 Category : Medical Languages : en Pages : 935
Book Description
In this second edition of Post-Genomic Cardiology, developing and new technologies such as translational genomics, next generation sequencing (NGS), bioinformatics, and systems biology in molecular cardiology are assessed in light of their therapeutic potential. As new methods of mutation screening emerge, both for the genome and for the “epigenome, comprehensive understanding of the many mutations that underlie cardiovascular diseases and adverse drug reactions is within our reach. This book, written by respected cardiologist José Marín-García, features discussion on the Hap-Map: the largest international effort to date aiming to define the differences between our individual genomes. This unique reference further reviews and investigates genome sequences from our evolutionary relatives that could help us decipher the signals of genes, and offers a comprehensive and critical evaluation of regulatory elements from the complicated network of the background DNA. Offers updated discussion of cutting-edge molecular techniques including new genomic sequencing / NGS / Hap-Map / bioinformatics / systems biology approaches Analyzes mitochondria dynamics and their role in cardiac dysfunction, up-to-date analysis of cardio-protection, and cardio-metabolic syndrome Presents recent translational studies, gene therapy, transplantation of stem cells, and pharmacological treatments in CVDs
Author: Edward Lau
Author: Edward Lau
Author: Giampaolo Morciano
Author: Gaetano Santulli
Author: 
Author: Arianne Caudal
Author: Tingting Liu
Author: H. Böhles
Author: J.J. Lemasters
Author: José Marín-García
Author: José Marín-García