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Mutations in multiple cardiac sarcomeric proteins including myosin heavy chain (MyHC) and cardiac troponin T (cTnT) cause a dominant genetic heart disease, familial hypertrophic cardiomyopathy (FHC). Patients with mutations in these two genes have quite distinct clinical characteristics. Those with MyHC mutations demonstrate more significant and un...
Myosin in adult murine skeletal muscle is composed primarily of three adult fast myosin heavy chain (MyHC) isoforms. These isoforms, MyHC-IIa, -IId, and -IIb, are >93% identical at the amino acid level and are broadly expressed in numerous muscles, and their genes are tightly linked. Mice with a null mutation in the MyHC-IId gene have phenotypes th...
Increased ventricular expression of several genes, including atrial natriuretic factor (ANF), has been documented in experimental models of cardiac hypertrophy. It remains to be clarified whether altered expression of these genes is a consistent marker of the hypertrophy itself or a marker of some parallel pathogenetic process. Using a transgenic m...
This chapter discusses and compares two methods of gene transfer into the rodent heart: direct plasmid DNA injection and injection of recombinant adenovirus. The predominant use of direct injection into the heart has been to analyze promoter elements in vivo using reporter genes driven by the promoter element of interest. The second general use of...
Myofibroblasts are unusual cells that share morphological and functional features of muscle and nonmuscle cells. Such cells are thought to control liver blood flow and kidney glomerular filtration rate by having unique contractile properties. To determine how these cells achieve their contractile properties and their resemblance to muscle cells, we...
The three adult fast myosin heavy chains (MyHCs) constitute the vast majority of the myosin in adult skeletal musculature,
and are >92% identical. We describe mice carrying null mutations in each of two predominant adult fast MyHC genes, IIb and
IId/x. Both null strains exhibit growth and muscle defects, but the defects are different between the tw...
Two isoforms of myosin heavy chain (MyHC), alpha and beta, exist in the mammalian ventricular myocardium, and their relative expression is correlated with the contractile velocity of cardiac muscle. Several pathologic stimuli can cause a shift in the MyHC composition of the rodent ventricle from alpha- to beta-MyHC. Given the potential physiologica...
To identify the cis-acting regulatory element(s) which control the induction of the atrial natriuretic factor (ANF) gene in acute pressure overload, DNA constructs consisting of promoter elements linked to a reporter gene were injected into the myocardium of dogs, which underwent aortic banding or were sham-operated. Expression of a reporter gene c...
Transgenic murine models are being used increasingly to explore the molecular basis of heart disease. Until recently, there were no means for noninvasive assessment of changes in mass and function of the murine heart because of its very small size and high heart rate. Transthoracic echocardiography has now been utilized to obtain noninvasive estima...
Direct injection of plasmid DNA into the myocardium of several species has been shown to be useful for studying cardiac gene expression. However, despite a better understanding of mouse genetics and the availability of several disease models in mice, gene injection with plasmid DNA into the mouse heart has not been reported. In this study, we demon...
The vertebrate sarcomere is a complex structure composed of numerous proteins arranged in an exquisitely precise manner. Sarcomeric proteins are organized into interdigitating thick or thin filaments and the sliding of these filaments relative to one another constitutes muscle contraction at the sarcomere level. Consequently, an understanding of sa...
The SEP identified priorities to support in future basic and clinical research and pointed out directions likely to result in advances against heart failure. The list is not intended to be all-encompassing and does not address, for example, exciting lines of work already under way. Rather, the recommendations are designed to point out gaps in curre...
Myosin is a motor protein whose functional unit in the sarcomere is the thick filament. The myosin molecule is capable of self-assembly into thick filaments through its alpha-helical coiled-coil rod domain. To define more precisely the sequence requirements for this assembly, segments of the human fast IId skeletal myosin rod were expressed in Esch...
Hypertrophic cardiomyopathy (HCM) is characterized by myocyte hypertrophy, myofibrillar disarray, and in some cases left ventricular outflow tract obstruction. However, the disease is both genetically and phenotypically diverse. While six different loci can cause HCM, all mutations thus far described occur in structural proteins of the sarcomere, i...
With the advent of transgenic technology, it has become increasingly important to find a method for evaluating left ventricular (LV) anatomy and function in intact wild type, intervened, and transgenic mice. Mice are 1/10th the size of rats, and have body masses of 10-60 g, LV masses of 40-150 mg, LV wall thicknesses of 0.5-2 mm, and LV internal di...
Familial hypertrophic cardiomyopathy (HCM) is an autosomal dominant disease characterized by ventricular hypertrophy, myocellular disarray, arrhythmias, and sudden death. Mutations in several contractile proteins, including cardiac myosin heavy chains, have been described in families with this disease, leading to the hypothesis that HCM is a diseas...
The Scientific Publishing Committee of the American Heart Association (AHA) requested the Editors to continue for a second term of 3 years. We were told that this request was motivated by performance, but we accepted with some ambivalence. Why the ambivalence, particularly since the initial 5 years have been enormously rewarding in terms of achievi...
The efficient uptake of adenovirus into a target cell is a function of adenovirus capsid proteins and their interaction with the host cell. The capsid protein fiber mediates high-affinity attachment of adenovirus to the target cell. Although the cellular receptor(s) for adenovirus is unknown, evidence indicates that a single receptor does not funct...
Adenovirus-mediated gene transfer experiments have demonstrated an exceptional efficiency of virus uptake and gene expression in a variety of in vivo models. Unfortunately, the efficiency of gene delivery is not accompanied by long-term gene expression. Maximal gene expression peaks during the first week of infection followed by a rapid decline to...
Mutations in several muscle structural proteins (the myosin heavy chain, alpha tropomyosin, cardiac troponin T and myosin binding protein C) result in a genetically dominant heart disease, hypertrophic cardiomyopathy. Biochemical data from studies of mutant myosin suggest a dominant-negative mechanism for inheritance of this disease. The most likel...
To explore the compatibility of skeletal and cardiac programs of gene expression, transgenic mice that express a skeletal muscle myogenic regulator, bmyf5, in the heart were analyzed. These mice develop a severe cardiomyopathy and exhibit a significantly shorter life span than do their nontransgenic littermates. The transgene was expressed from day...
Myosin is a highly conserved, ubiquitous protein found in all eukaryotic cells, where it provides the motor function for diverse movements such as cytokinesis, phagocytosis, and muscle contraction. All myosins contain an amino-terminal motor/head domain and a carboxy-terminal tail domain. Due to the extensive number of different molecules identifie...
We have analyzed the interactions between two types of sarcomeric proteins: myosin heavy chain (MyHC) and members of an abundant thick filament-associated protein family (myosin-binding protein; MyBP). Previous work has demonstrated that when MyHC is transiently transfected into mammalian nonmuscle COS cells, the expressed protein forms spindle-sha...
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The increasing use of transgenic mouse models for investigating the mechanisms of cardiac growth and function has made it important to develop noninvasive methods for assessing murine cardiac anatomy, size, and function. At present, murine cardiac mass can be determined only at necropsy. Left ventricular (LV) function can be assessed by use of vari...
Injury to cardiac myocytes often leads to the production of anti-myosin antibodies. While these antibodies are a marker of myocardial injury, their contribution to pathogenesis in diseases such as autoimmune myocarditis or rheumatic fever is much less clear. We demonstrate in this report that monoclonal anti-myosin antibodies can mediate myocarditi...
A leading cause of sudden death among young athletes is the autosomal dominant genetic heart disease, familial hypertrophic cardiomyopathy (FHC). Mutations in several contractile proteins, including cardiac myosin heavy chains, have been described in families with FHC, leading to the hypothesis that FHC is a disease of the sarcomere (17). To create...
Several members of the sarcomeric myosin heavy chain (MHC) gene family have been mapped in the human genome but many of them have not yet been identified. In this study we report the identification of two human skeletal MHC genes as fast IIa and IIx MHC based on pattern of expression and sequence homology with the corresponding rat genes in the 3'-...
Familial hypertrophic cardiomyopathy (FHC) is a genetically transmitted heart disease that is inherited in an autosomal dominant fashion. Our understanding of the genetic basis of this disease has progressed rapidly in the 5 years since the initial identification of a disease locus for FHC on chromosome 14 and the mutations in the β-slow myosin hea...
The ability to genetically manipulate mice using transgenic technology makes it possible to address many questions of cell and molecular biology and physiology in the intact animal. Transgenic mice can be created to express introduced genes (both wild type and mutant) specifically in the heart. By carefully analyzing the functional consequences of...
Important aspects of successful adenovirus gene transfer include the amount and persistence of gene expression, the ability to readminister virus and the localization of virus-directed gene expression to target organs. Our objective in this study was to use a single recombinant adenovirus bearing a quantifiable reporter gene [chloramphenicol acetyl...
Mammalian skeletal muscle is generated by two waves of fiber formation, resulting in primary and secondary fibers. These fibers mature to give rise to several classes of adult muscle fibers with distinct contractile properties. Here we describe fast myosin heavy chain (MyHC) isoforms that are expressed in nascent secondary, but not primary, fibers...
Transgenic mice can be created to serve as models of human cardiac disease. Despite the technology available to manipulate the cardiovascular system of the mouse, there is relatively little information available concerning the normal physiology of the mouse heart. Therefore, we have characterized the response of the adult mouse to chronic physical...
The cardiac myosin heavy chain genes, alpha and beta, have been shown to change their patterns of expression rapidly and dramatically in response to a variety of stimuli. A major means of achieving these changes in gene expression is transcriptional control; however, the role of post-transcriptional regulation in cardiac myosin gene expression has...
A point mutation in the heavy chain of cardiac myosin, resulting in replacement of an arginine (Arg) with glutamine (Gln), has been linked to hypertrophic cardiomyopathy in humans (Geisterfer-Lowrance, A. A. T., Kass, S., Tanigawa, G., Vosberg, H.-P., McKenna, W., Seidman, J. G., and Seidman, C. E. (1990) Cell 62, 999-1006). To determine the functi...
Adaptive cardiac hypertrophy in the rat has been characterized as pathological or physiological reflecting the nature of the inciting stimulus. These two adaptations are distinguished by alterations in contractility and in the myosin ATPase composition of the affected muscle. We investigated the relative amounts of the mRNAs encoding cardiac sarcop...
To analyze potential functional consequences of myosin heavy chain (MHC) mutations identified in patients with familial hypertrophic cardiomyopathy (FHC), we have assessed the stability of the mutant MHCs and their ability to form thick filaments. Constructs encoding wild-type rat α MHC and seven corresponding FHC missense mutants were transfected...
To optimize the use of modified adenoviruses as vectors for gene delivery to the myocardium, we have characterized infection of cultured fetal and adult rat cardiac myocytes in vitro and of adult cardiac myocytes in vivo by using a replication-defective adenovirus carrying the chloramphenicol acetyltransferase (CAT) reporter gene driven by the cyto...
Manipulation of the single conventional myosin heavy chain (mhc) gene in Dictyostelium discoideum (Dd) has delineated an essential role for the filament-forming, or light meromyosin (LMM) domain of the myosin molecule in cytokinesis, development, and in the capping of cell surface receptors (see Spudich: Cell Regulation 1:1-11, 1989; Egelhoff et al...
BALB/c mice develop autoimmune myocarditis after immunization with mouse cardiac myosin, whereas C57B/6 mice do not. To define the immunogenicity and pathogenicity of cardiac myosin in BALB/c mice, we immunized mice with different forms of cardiac myosin. These studies demonstrate the discordance of immunogenicity and pathogenicity of myosin heavy...
Myosin heavy chain (MyHC) isoforms show a striking diversity of expression patterns during mammalian development. Using a set of monoclonal antibodies that recognize different epitopes on myosin heavy chain isoforms we show that there exist in human and rat skeletal muscle at least three isoforms of slow twitch myosin heavy chain. To facilitate a c...
Transcriptional thyroid hormone responsiveness of the cardiac alpha-myosin heavy chain (alpha-MHC) gene has been demonstrated in transfections into fetal and neonatal cardiomyocytes and in transgenic mice. However, the correspondence between the regulation of MHC expression in dissociated cells with that in the intact heart is unclear. Given the co...
Fat-storing cells (FSC, lipocytes, or Ito cells) of liver store vitamin A and are the main producers of extracellular matrix in normal and cirrhotic liver. During liver injury, FSC undergo an activation process characterized by a decrease in vitamin A storage and an increase in cell proliferation and extracellular matrix deposition. This activation...
Central to the function of myosin is its ability to assemble into thick filaments which interact precisely and specifically with other myofibrillar proteins. We have established a novel experimental system for studying myofibrillogenesis using transient transfections of COS cells, a monkey kidney cell line. We have expressed both full-length rat al...
Myosin is an important structural and enzymatic component of skeletal muscle. Multiple myosin isoforms are encoded by a multigene family and are expressed in different developmental stages and fiber types. In humans and mice, skeletal myosin heavy chain (MYH) genes are clustered on a single chromosome (17p and 11, respectively). Since the structura...
The rodent 4.5 S RNA is an RNA polymerase III product with a sequence related to the Alu family of interspersed repeated DNA. A previous study identified a tandem array of 4.2-kb repeating units that contain the 4.5 S RNA coding sequence as well as many short repetitive sequences. To understand the genomic organization of this gene family, we have...
Expression of four sarcomeric myosin heavy chain (MHC) genes was examined in continuously passaged human fetal (18-22 week) skeletal myoblasts and in myoblasts induced to differentiate by low mitogen medium. Although embryonic MHC mRNA predominated at all time points following induction, three additional MHC genes were expressed at lower levels. Th...
Gene transfer can be achieved in the adult rat heart in vivo by direct injection of plasmid DNA. In this report we define the spatial and temporal limits of reporter gene expression after a single intracardiac injection. pRSVCAT (100 micrograms), in which the Rous sarcoma virus long terminal repeat is fused to the chloramphenicol acetyltransferase...
The ability to express recombinant genes in cardiac myocytes in vivo holds promise for the treatment of a number of inherited and acquired diseases of the cardiovascular system. Several groups have demonstrated recently that plasmid DNA is taken up and expressed in cardiac myocytes following injection into the left ventricular wall in vivo. Recombi...
We demonstrate gene transfer into rat heart in vivo by the direct injection of plasmid DNA. Injection of gene constructs driven by retroviral and cellular promoters resulted in detectable levels of reporter gene activities. The cellular promoter and 5' flanking sequence (positions -613 to +32) were derived from the rat alpha-myosin heavy chain gene...
To begin to understand the nature of myosin subunit assembly, we determined the region of a vertebrate sarcomeric myosin heavy chain required for binding of light chain 1. We coexpressed in Escherichia coli segments of the rat alpha cardiac myosin heavy chain which spanned the carboxyl terminus of subfragment 1 and the amino terminus of subfragment...
The connexins form a family of membrane spanning proteins that assemble into gap junction channels. The biophysical properties of these channels are dependent upon the constituent connexin isoform. To begin identifying the molecular basis for gap junction channel behavior in the human heart, a tissue that expresses connexin43, we used site-directed...
Connexins are protein subunits that constitute gap junction channels. Two members of this gene family, connexin43 (Cx43) and connexin32 (Cx32), are abundantly expressed in the heart and liver, respectively. Human genomic DNA analysis revealed the presence of two loci for Cx43: an expressed gene and a processed pseudogene. The expressed gene (GJA1)...
Myosin is a molecular motor that through its interaction with actin, produces the movement characterized by such diverse cellular functions as muscle contraction and cytokinesis. The myosin molecules responsible for these movements are encoded by complex multigene families in higher organisms. Genes in these families show tissue-specific as well as...
The mechanisms by which the aged heart adapts to a superimposed pressure load such as hypertension have not been described. We therefore investigated biochemical and molecular genetic adaptations in the 24-month-old rat heart subjected to renovascular hypertension. Compared with 4-month-old rats, aging was associated with a 68% increase in left ven...
Connexin43 is the predominant gap junction protein expressed in the heart. To determine the relation between cardiac maturation and gap junction gene expression, the developmental profiles of connexin43 mRNA and protein were examined in the rat heart. Connexin43 mRNA levels accumulate progressively (eightfold) during embryonic and early neonatal st...
Scallop adductor myosin is regulated by its subunits; the regulatory light chain (R-LC) and essential light chain (E-LC). Myosin light chains suppress muscle activity in the absence of calcium and are responsible for relaxation. The binding of Ca2+ to the myosin triggers contraction by releasing the inhibition imposed on myosin by the light chains....
Gap junctions permit the passage of ions and chemical mediators from cell to cell. To identify the molecular genetic basis for this coupling in the human heart, we have isolated clones from a human fetal cardiac cDNA library which encode the full-length human cardiac gap junction (HCGJ) mRNA. The predicted amino acid sequence is homologous to the r...
Vertebrate sarcomeric myosin heavy chains (MHC) are encoded by multigene families whose members show tissue-specific and developmentally-regulated patterns of expression. Molecular genetic studies have allowed the cloning of a small number of complete genes or cDNAs encoding MHC isoforms [see Warrick and Spudich, Annu. Rev. Cell Biol. 3 (1987) 379-...
Distinct atrial and ventricular isoforms of myosin light chain 1 (LC1) exist in mammals. The atrial LC1 is also expressed in fetal ventricular and skeletal muscle. Here we present a full length cDNA encoding a rat atrial LC1, based upon homology with previously reported LC1 sequences and its atrial-specific pattern of RNA hybridization in adult car...
Myosin is a ubiquitous eukaryotic contractile protein that generates the force responsible for such diverse cellular movements as muscle contraction and cytokinesis. Although there have been numerous studies of sarcomeric myosin heavy chain (MHC) genes, no molecular clones have been reported that encode mammalian nonmuscle MHC. This study presents...
The rat alpha-myosin heavy-chain (alpha-MHC) gene is regulated by 3,5,3'-triiodo-L-thyronine (T3) in ventricular myocardium and is constitutively expressed in atrial tissue. Less is known about regulation of the human gene, but conservation of sequences in the 5'-flanking region between the rat and human alpha-MHC genes suggests that the human gene...
The two cardiac myosin heavy chain isoforms, alpha and beta, differ functionally, alpha Myosin exhibits higher actin-activated ATPase than does beta myosin, and hearts expressing alpha myosin exhibit increased contractility relative to hearts expressing beta myosin. To understand the molecular basis for this functional difference, we determined the...
Vertebrate myosin heavy chains (MHC) are represented by multiple genes that are expressed in a spatially and temporally distinct pattern during development. In order to obtain molecular probes for developmentally regulated human MHC isoforms, we used monoclonal antibodies to screen an expression cDNA library constructed from primary human myotube c...
We have isolated a human cDNA which corresponds to a developmentally regulated sarcomeric myosin heavy chain. RNA hybridization and DNA sequence analysis indicate that this cDNA, called SMHCP, encodes a perinatal myosin heavy chain isoform. The nucleotide and deduced amino acid sequences of the 3.4-kb cDNA insert show strong homology with other sar...
Cardiac myosin heavy chain (MHC) isoform distribution has been shown to undergo changes during development, in response to
hormonal stimuli, and during pathologic states like hypertension. We initiated a study of myosin light chain 1 (MLC1) expression
in cardiac tissue to determine whether MLC1 undergoes changes similar to those seen for MHC. We is...
On or before Oct 31, 2000 this sequence version replaced gi:531199, gi:34863.
Previous studies investigating the cellular origins of several collagens in young adult rat hearts (Eghbali et al., 1988) demonstrated that the mRNAs for types I and III collagen occurred in non-myocyte cells, mostly fibroblasts, whereas the mRNA for type IV collagen was observed in both myocytes and non-myocyte cells. In the present study, cellula...
A fragment of the Dictyostelium discoideum myosin heavy chain gene representing heavy meromyosin was coexpressed in Escherichia coli with the entire essential myosin light chain from the scallop. The expressed myosin heavy chain and essential myosin light chain copurify through ammonium sulfate fractionation, anion exchange, and gel filtration chro...
A mouse cDNA clone corresponding to an abundantly transcribed poly(A)+ mRNA was found to be represented by 200 copies in mammalian genomes. To understand the origin and nature of this sequence family, we studied two genomic members and two cDNA clones from mouse liver. The DNA sequence of the coding strand of a full-length cDNA clone was shown to h...
A mouse cDNA clone corresponding to an abundantly transcribed poly(A)+ mRNA was found to be represented by 200 copies in mammalian genomes. To understand the origin and nature of this sequence family, we studied two genomic members and two cDNA clones from mouse liver. The DNA sequence of the coding strand of a full-length cDNA clone was shown to h...
The amino acid sequence of the myosin tail determines the specific manner in which myosin molecules are packed into the myosin filament, but the details of the molecular interactions are not known. Expression of genetically engineered myosin tail fragments would enable a study of the sequences important for myosin filament formation and its regulat...
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The scallop system has several properties that make it ideal for studying the function of light chains in myosin regulation. To use a molecular genetic approach to dissect light chain function, cDNA clones of the regulatory and essential myosin light chains from the scallop (Aequipecten irradians) have been isolated from a lambda gt11 expression li...
Human myosin heavy chains are encoded by a multigene family consisting of at least 10 members. A gene-specific oligonucleotide
has been used to isolate the human β myosin heavy chain gene from a group of twelve nonoverlapping genomic clones. We have
shown that this gene (which is expressed in both cardiac and skeletal muscle) is located 3.6kb upstr...
The 2116-amino acid myosin heavy chain sequence from Dictyostelium discoideum was determined from DNA sequence analysis of the cloned gene. The gene product can be divided into two distinct regions, a globular head region and a long alpha-helical, rod-like tail. In comparisons with nematode and mammalian muscle myosins, specific areas of the head r...