UMLS:C0026850 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0026850 (muscular dystrophy)
5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genetic studies of alcoholics, their families and controls have given credence to the idea that genetic influences in alcoholism exist, and set the stage for efforts to identify alcoholism-susceptibility genes (Devor and Cloninger, 1989). My purpose is not to review the genetics of alcoholism, but rather to review the genetic approaches that have been successful in identifying the genes responsible for genetic conditions such as muscular dystrophy and cystic fibrosis. In these disorders our current knowledge of the basic biochemical defect was derived directly from the cloning of the gene that is defective in the disorder. The cloned gene provides DNA probes for carrier identification and prenatal diagnosis, while knowledge of the basic defect allows new and direct investigation of potential therapeutic strategies. The genetic approach is much less definitive when it comes to the study of polygenic or multifactorial disorders such as schizophrenia or Alzheimer's disease. In the case of alcoholism the problem is exacerbated not only by environmental factors but also by phenotypic and genetic heterogeneity. The lack of a clear inheritance pattern means that plausible modes of inheritance must be invoked and tested on families with multiple affected members. Direct segregation analysis may not be possible and the less informative analysis of sib-pairs may be the method of choice. Ultimately, however, it should be possible to identify and clone those genes that play a major role in determining susceptibility to alcoholism. Once cloned, the protein products can be identified, and study of their function should lead to new understanding of the complex biological processes involved in this disorder.
...
PMID:Molecular genetic approaches to the study of individual risk in alcoholism. 184 36

A significant number of major neurogenetic diseases have been defined at the molecular level in recent years, making it possible to determine precisely the genotype for familial Alzheimer's disease, Huntington's disease, Machado-Joseph disease, dominantly inherited ataxia, Charcot-Marie-Tooth disease, myotonic muscular dystrophy, Duchenne-Becker muscular dystrophy, familial amyotrophic lateral sclerosis, and neurofibromatosis. This information has made it possible to identify the abnormal genotype of at-risk persons for these diseases and for at-risk pregnancies for several of them. Precise molecular diagnoses are thus possible using applied molecular markers. Prevention of disease can be achieved using these molecular markers with genetic counseling and appropriate family planning. Significant progress is being made in this regard with Tay-Sachs disease, Huntington's disease, the dominantly inherited ataxias, and the muscular dystrophies. Further, this molecular genotyping will be of indispensible value to families with these diseases when somatic cell gene therapy becomes available. The field of molecular neurogenetics is moving forward rapidly, and advances in gene identification for these diseases will lead in the near future to the means to prevent many of them.
...
PMID:The prevention of neurogenetic disease. 771 Mar 70

In various neuromuscular diseases, the most significant muscle degeneration is muscle fiber necrosis as seen in Duchenne muscular dystrophy (DMD). A certain membrane instability is probably responsible for muscle fiber necrosis, because defects in membrane proteins have been proposed to associate with progressive muscular dystrophies including dystrophin in DMD, a 50 KD subunit of dystrophin associated glycoprotein (DAG) in severe childhood autosomal recessive muscular dystrophy (SCARMD), and subunit M of laminin (merosin) in congenital muscular dystrophy and dy mouse. The vulnerable muscle surface membrane may permit extracellular calcium influx into the sarcoplasm resulting in focal myofibrillar hypercontraction (opaque fiber) and activation of proteases such as calpain and cathepsins. The muscle fiber then undergoes necrosis and allows macrophage invasion, followed by muscle fiber regeneration. Focal myofibrillar degeneration involving rimmed vacuole (RV) formation is an another striking muscle fiber degeneration seen in various neuromuscular diseases including inclusion body myositis (IBM) and distal myopathy with rimmed vacuole formation (DMRV). Abnormal accumulation of ubiquitin, beta-amyloid protein precursor and tau protein has been described in IBM by Askanas et al. The similar findings are also recognizable in DMRV and in an experimentally induced myopathy after long-term chloroquin administration to rat. Therefore, if we clarify the pathomechanism of degenerative process involved in the rimmed vacuole formation, the results may provide some insights into the understanding the process involved in amyloid plaque formation in Alzheimer's disease.
...
PMID:[Muscle pathologic diagnosis--mechanism in muscle fiber degeneration]. 777 35

Life span, causes of death, weight of heart, liver, brain, and main pathological changes of internal organs were analysed on 329 autopsy cases of muscular dystrophies. These included 249 cases of Duchenne muscular dystrophy (DMD), 3 Becker muscular dystrophies (BMD), 14 limb-girdle muscular dystrophies (LGMD), 3 fascioscapulohumeral muscular dystrophies (FSH), 18 Fukuyama type congenital muscular dystrophies (FCMD) and 17 myotonic dystrophies (MyD). In DMD the life span has definitely prolonged in recent years. Pulmonary infection, which was once the major cause of death, has greatly decreased in recent years. Instead, respiratory and cardiac failures caused by dystrophic changes of respiratory and cardiac muscles were more closely related to the causes of death in many recent cases. Myocardial fibrosis was observed in most of the patients with DMD, BMD, LGMD, FCMD and MyD. The distribution of cardiac lesions was similar in BMD, LGMD and FCMD as in DMD. In MyD the disorders involved more frequently conductive muscles resulting in arrhythmias. The dystrophic cardiomyopathy seemed to be a part of the essential changes in all types of muscular dystrophy, although different in intensity and rate of morbidity. Alzheimer's neurofibrillary changes were observed in the brain of some cases of FCMD and MyD, suggesting the possibility of precocious aging of the brain in some patients of the muscular dystrophies.
...
PMID:Autopsy analyses of the muscular dystrophies. 821 86

Many genetic markers that relate to common multifactorial disease in adults have been identified during the past 15 years. Their use as adjuncts for the diagnosis, prognosis, prediction of disease or targeting therapy for these disorders has begun, good examples being the Factor V Leiden mutation for venous-thromboembolism, lipoprotein lipase mutations for hypertriglyceridaemia and the apolipoprotein E4 variant for Alzheimer's dementia. However, extensive gene-gene and gene-environment interactions make their use more complex than markers for the simpler monogenic disorders (such as cystic fibrosis, or Duchenne's muscular dystrophy). Possible misapplication of the genetic markers for multifactorial disease in the fields of risk prediction, direct sales to the public, life assurance, employment rights, and legislation for regulation of their use are discussed.
...
PMID:Genetic markers to predict polygenic disease: a new problem for social genetics. 1039 11

A growing number of medical research teams have begun to explore the experimental advantages of using a genetic animal model, the nematode worm Caenorhabditis elegans, with a view to enhancing our understanding of genes underlying human congenital disorders. In this study, we have compared sequences of positionally cloned human disease genes with the C.elegans database of predicted genes. Drawing on examples from spinal muscular atrophy, polycystic kidney disease, muscular dystrophy and Alzheimer's disease, we illustrate how data from C.elegans can yield new insights into the function and interactions of human disease genes.
...
PMID:A role for Caenorhabditis elegans in understanding the function and interactions of human disease genes. 1076 9

It seems plausible to hypothesize that in all forms of neurodegeneration or other forms of tissue degeneration, a common pathway exists that, when deciphered, could lead to our understanding of a variety of diseases that result in tissue necrosis, as well as offer potential for therapeutic intervention. In recent years progress toward elucidating this common pathway has been accelerated through the studies of a number of laboratories, including our own, on the role of the protease calpain in this process. Thus, in a variety of disorders, such as stroke, spinal cord injury, traumatic nerve injury, Parkinson's disease, amyotrophic lateral sclerosis (ALS), Alzheimer's disease, muscular dystrophy, cataract formation, unregulated calpain proteolysis, initiated via dysregulation of calcium ion homeostasis, participates in the pathogenesis and is a potentially unifying mechanistic event. In order to demonstrate the feasibility of the approach we have taken in using the calpain inhibitor leupeptin as a therapeutic agent, I will describe two areas of research in which we have been engaged over the past 20 years. One is our long-standing interest in muscular dystrophy. The other is of more recent vintage, and involves the use of calpain inhibitors to protect sensory hair cells and spiral ganglion neurons from damage associated with acoustic trauma, this latter in collaboration with Dr. R. Salvi at SUNY-Buffalo and Dr. A. Shulman at SUNY-Downstate.
...
PMID:Calpain inhibitors as therapeutic agents in nerve and muscle degeneration. 1084 83

Caveolae are small invaginations of the plasma membrane found in many cell types, and caveolins are integral membrane proteins that form the framework of caveolae. In the past several years, research on caveolae has developed explosively, and caveolae and/or caveolins have been shown to play many important roles in cell physiology: in particular, they are thought to be related to signal transduction, cholesterol transport, endocytosis and tumor suppression. On the other hand, some studies have suggested that another membrane domain called rafts is also involved in the same processes, and some confusion remains concerning the relationship between these two domains. Abnormalities in caveolae and/or caveolins have been found in various diseases, including cancer, atherosclerosis, muscular dystrophy and the Alzheimer's disease, which may make this domain a new focus for pharmacological research. This review will focus on the cell biology of caveolae, caveolins and rafts, and then summarize the implications of these findings for clinical studies.
...
PMID:Cell biology of caveolae and its implication for clinical medicine. 1091 16

Many genetic markers that relate to common multifactorial disease in adults have been identified during the past 15 years. Their use as adjuncts for the diagnosis, prognosis, prediction of disease or targeting therapy for these disorders has commenced; good examples being the Factor V Leiden mutation for venous-thromboembolism, lipoprotein lipase mutations for hypertriglyceridemia and the apolipoprotein E4 variant for Alzheimer's dementia. However, extensive gene-gene interactions and gene-environment interactions make their use more complex than markers for the simpler monogenic disorders (eg, cystic fibrosis, or Duchennne's muscular dystrophy). Possible misapplications of the use of genetic markers for multifactorial disease are discussed.
...
PMID:Genetic markers to predict polygenic disease. 1112 97

WW domains are protein modules that bind proline-rich ligands. WW domain-ligand complexes are of importance as they have been implicated in several human diseases such as muscular dystrophy, cancer, hypertension, Alzheimer's, and Huntington's diseases. We report the results of a protein array aimed at mapping all the human WW domain protein-protein interactions. Our biochemical approach integrates parallel synthesis of peptides, protein expression, and high-throughput screening methodology combined with tools of bioinformatics. The results suggest that the majority of the bioinformatically predicted WW peptide ligands and most WW domains are functional, and that only about 10% of the measured domain-ligand interactions are positive. The analysis of the WW domain protein arrays also underscores the importance of the amino acid residues surrounding the WW ligand core motifs for specific binding to WW domains. In addition, the methodology presented here allows for the rapid elucidation of WW domain-ligand interactions with multiple applications including prediction of exact WW ligand binding sites, which can be applied to the mapping of other protein signaling domain families. Such information can be applied to the generation of protein interaction networks and identification of potential drug targets. To our knowledge, this report describes the first protein-protein interaction map of a domain in the human proteome.
...
PMID:A map of WW domain family interactions. 1499 88

1 2 3 4 Next >>