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

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

Modern molecular biology has revealed vast numbers of large and complex proteins and genes that regulate body function. By contrast, discoveries over the past ten years indicate that crucial features of neuronal communication, blood vessel modulation and immune response are mediated by a remarkably simple chemical, nitric oxide (NO). Endogenous NO is generated from arginine by a family of three distinct calmodulin- dependent NO synthase (NOS) enzymes. NOS from endothelial cells (eNOS) and neurons (nNOS) are both constitutively expressed enzymes, whose activities are stimulated by increases in intracellular calcium. Immune functions for NO are mediated by a calcium-independent inducible NOS (iNOS). Expression of iNOS protein requires transcriptional activation, which is mediated by specific combinations of cytokines. All three NOS use NADPH as an electron donor and employ five enzyme cofactors to catalyze a five-electron oxidation of arginine to NO with stoichiometric formation of citrulline. The highest levels of NO throughout the body are found in neurons, where NO functions as a unique messenger molecule. In the autonomic nervous system NO functions NO functions as a major non-adrenergic non-cholinergic (NANC) neurotransmitter. This NANC pathway plays a particularly important role in producing relaxation of smooth muscle in the cerebral circulation and the gastrointestinal, urogenital and respiratory tracts. Dysregulation of NOS activity in autonomic nerves plays a major role in diverse pathophysiological conditions including migraine headache, hypertrophic pyloric stenosis and male impotence. In the brain, NO functions as a neuromodulator and appears to mediate aspects of learning and memory. Although endogenous NO was originally appreciated as a mediator of smooth muscle relaxation, NO also plays a major role in skeletal muscle. Physiologically muscle-derived NO regulates skeletal muscle contractility and exercise-induced glucose uptake. nNOS occurs at the plasma membrane of skeletal muscle which facilitates diffusion of NO to the vasculature to regulate muscle perfusion. nNOS protein occurs in the dystrophin complex in skeletal muscle and NO may therefore participate in the pathophysiology of muscular dystrophy. NO signalling in excitable tissues requires rapid and controlled delivery of NO to specific cellular targets. This tight control of NO signalling is largely regulated at the level of NO biosynthesis. Acute control of nNOS activity is mediated by allosteric enzyme regulation, by posttranslational modification and by subcellular targeting of the enzyme. nNOS protein levels are also dynamically regulated by changes in gene transcription, and this affords long-lasting changes in tissue NO levels. While NO normally functions as a physiological neuronal mediator, excess production of NO mediates brain injury. Overactivation of glutamate receptors associated with cerebral ischemia and other excitotoxic processes results in massive release of NO. As a free radical, NO is inherently reactive and mediates cellular toxicity by damaging critical metabolic enzymes and by reacting with superoxide to form an even more potent oxidant, peroxynitrite. Through these mechanisms, NO appears to play a major role in the pathophysiology of stroke, Parkinson's disease, Huntington's disease and amyotrophic lateral sclerosis.
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PMID:Endogenous nitric oxide synthesis: biological functions and pathophysiology. 1063 Jun 82

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.
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PMID:Calpain inhibitors as therapeutic agents in nerve and muscle degeneration. 1084 83

Upper-limb orthotic systems have been designed for restoring the upper-limb functions of individuals with disabilities resulting from spinal cord injury (SCI), stroke and muscular dystrophy. These systems employ either functional electrical stimulation or external power. It is proposed that, instead of time-consuming and complicated monitoring using sensors and motion analysis, a software simulator with both angular displacement and acceleration parameters can facilitate the design of a control strategy for an orthosis. Reaching movements of three cervical SCI subjects are used to verify the simulator. A motion analysis system is used to measure the range of motion and joint angles during hand reaching. Results indicate that quaternion and spline curve techniques are suitable for interpolation of the hand reaching movements. The information needed for good simulation only compress the shoulder and elbow joint angles in a few key postures. Stimulated acceleration signals on the upper-arm segment have a high correlation coefficient (> 0.9) and a small root mean squared error (< 0.11 g) with a real bi-axial accelerometer.
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PMID:Development of computer-based environment for simulating the voluntary upper-limb movements of persons with disability. 1152 29

Nuclear factor-kappaB (NF-kappaB) is a major transcription factor that plays an essential role in several aspects of human health including the development of innate and adaptive immunity. The dysregulation of NF-kappaB is associated with many disease states such as AIDS, atherosclerosis, asthma, arthritis, cancer, diabetes, inflammatory bowel disease, muscular dystrophy, stroke, and viral infections. Recent evidence also suggests that the dysfunction of NF-kappaB is a major mediator of some human genetic disorders. Appropriate regulation and control of NF-kappaB activity, which can be achieved by gene modification or pharmacological strategies, would provide a potential approach for the management of NF-kappaB related human diseases. This review summarizes the current knowledge of the physiological and pathophysiological functions of NF-kappaB and its possible role as a target of therapeutic intervention
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PMID:Nuclear factor-kappaB: its role in health and disease. 1517 63

With improved screening of patients with primary and secondary myopathies and more comprehensive investigations it turns out that an increasing number of patients with myopathies develops cardiac disease (cardiac involvement), before or after onset of the neuromuscular abnormalities. Cardiac involvement in myopathies manifests within the myocardium or the cardiac conduction system with impulse generation or conduction disturbances. An increasingly recognized rhythm abnormality in these patients is atrial fibrillation/flutter (AFI/AFL), which carries an increased risk for stroke embolism and represents an absolute indication for oral anticoagulation (OAC). Primary myopathies, in which AFI/AFL has been described so far include dystrophinopathies, Emery-Dreifuss muscular dystrophy, facio-scapulo-humeral muscular dystrophy, limb girdle muscular dystrophies, congenital myopathies, myofibrillar myopathies, myotonic dystrophies, glycogenoses, mitochondrial disorders, Barth syndrome, McLeod syndrome, and non-specific myopathies. Secondary myopathies, in which AFI/AFL has been described comprise polymyositis, dermatomyositis, colchicine-induced myopathy, and hyperthyroid myopathy. Myopathies most commonly associated with AFI/AFL are myotonic dystrophy and Emery-Dreifuss muscular dystrophy. Information about the frequency of stroke/embolism in these patients is rudimentary but there are indications that it is not increased in these patients. Only a few patients with AFI/AFL receive OAC to prevent from stroke/embolism. Patients with myopathy and AFI/AFL require thorough surveillance. If additional cardiovascular risk factors develop, OAC should be considered as in patients with other causes of AFI/AFL.
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PMID:Atrial fibrillation/flutter in myopathies. 1834 11

Aquaporin (AQP) 4 is a water-specific channel protein and is abundant in central nervous tissues and skeletal muscles. Recently, the AQP4 molecule has been increasingly highlighted in its pathophysiological role of several neurological diseases, such as stroke, muscular dystrophy and neuromyelitis optica. We therefore measured the levels of AQP4 mRNA and glyceraldehyde-3 phosphate dehydrogenase mRNA (an internal control) in muscle and brain tissues of wild-type mice (C57BL10/ScSn) and age-matched dystrophin-deficient mdx mice (C57BL10/ScSn mdx) by real-time quantitative RT-PCR. The relative AQP4 mRNA level was highest in the spinal cord among the neuromuscular tissues examined in wild-type mice. Among the muscle tissues of wild-type mice, the relative AQP4 mRNA level was higher in extensor digitorum longus (EDL) muscles, and its descending order was EDL, quadriceps femoris, soleus and heart muscles. It is noteworthy that there was no difference in the relative AQP4 mRNA levels in the brain tissues between wild-type mice and age-matched mdx mice. In contrast, the AQP4 mRNA level in the quadriceps femoris muscle was significantly lower in mdx mice than in wild-type mice. The fact that the spinal cord contains the highest AQP4 mRNA may be related to the pathogenesis of neuromyelitis optica, in which AQP4 protein is the target antigen. In addition, the low expression level of AQP4 mRNA in the mdx mouse muscle suggests a functional link between AQP4 and dystrophin in the muscle tissue. We suggest that a similar pathomechanism may underlie the phenotypic consequences of the mdx mouse and Duchenne muscular dystrophy.
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PMID:Aquaporin 4 mRNA levels in neuromuscular tissues of wild-type and dystrophin-deficient mice. 1867 5

In 2001, the Stem Cell Network was the first of its kind, a bold initiative to forge and nurture pan-Canadian collaborations involving researchers, engineers, clinicians and private and public sector partners. Canada's broad and deep pool of stem cell talent proved to be a fertile ground for such an initiative, giving rise to a strong, thriving network that, 7 years later, can list innovative cell expansion and screening technologies, early-phase clinical trials for stroke, pulmonary hypertension, muscular dystrophy and cornea replacement, and leading discourse on ethical, legal and social issues among its accomplishments. As it moves into its second and final phase of funding, the Stem Cell Network continues to push boundaries and has set its sights on overcoming the obstacles that impede the transfer of research findings to clinical applications, commercial products and public policy.
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PMID:Catalyzing stem cell research. 1872 99

In contrast with Steinert's disease (DM1), type 2 muscular dystrophy (DM2) is not known to be associated with a high prevalence of cardiac involvement. Our objective was to compare the results of detailed cardiac investigations in populations of DM2 and DM1 patients, and in controls. Thirty-eight DM2 patients (17 males; age=57.1+/-15.2years) were investigated for possible heart involvement, and their results compared with 76 age-sex matched DM1 patients and 76 controls. Cardiac abnormalities were present in 15 DM2 patients, including conductive defects in 14, systolic dysfunction in 6, supraventricular arrhythmias in 6 and stroke in 5 patients and were significantly more frequent than in controls. When compared to DM1 patients, conductive defects were less frequent, supraventricular arrhythmias had similar prevalence and there was a trend towards more frequent left ventricular dysfunction in DM2 patients. Our study suggests that systematic cardiac investigations should be recommended in these patients.
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PMID:Left ventricular dysfunction and cardiac arrhythmias are frequent in type 2 myotonic dystrophy: a case control study. 1948 39

Although the mitochondrial permeability transition pore (mPTP) was first discovered almost 30 years ago [1], it did not attract significant research attention until the 1990's when several studies implicated mPTP in apoptosis [2]. Today, the dogma suggests that opening of mPTP is detrimental to the cell and mPTP activation is widely thought to contribute to disease in cancer, neurodegenerative diseases, stroke, muscular dystrophy, and cardiac reperfusion injury [3]. Multiple factors including Ca(2+), OH(-), P(i), cyclophilin D, reactive oxygen and nitrogen species (ROS and RNS) trigger mPTP opening [4]. However, whether mPTP activation feeds back to alter mitochondrial ROS generation remains unclear. We recently demonstrated that under normal conditions, individual mitochondria undergo spontaneous transient bursts of quantal superoxide generation, termed "superoxide flashes" [5]. Superoxide flashes are observed in all cell types investigated to date and are triggered by a surprising functional coupling between mPTP activation and electron transport chain (ETC) dependent superoxide production. Additionally, reoxgenation following anoxia leads to uncontrolled superoxide flash genesis in cardiomyocytes. This positive feedback mechanism for mPTP/ETC-dependent ROS generation may drive localized redox signaling in individual mitochondria under physiological conditions, and when left unchecked, contribute to global cellular oxidative stress under pathological conditions in cardiac disease. The mPTP activity-dependent cell life and death determination imposes new challenges and opportunities in the pursuit of therapeutic agents for treating diseases in which oxidative stress has been implicated such as cardiac ischemia-reperfusion injury.
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PMID:Superoxide flashes: illuminating new insights into cardiac ischemia/reperfusion injury. 1964 73

Duchenne muscular dystrophy (DMD) is an X-linked form of muscular dystrophy characterized by progressive limb-girdle distribution of muscle weakness. Morbidity related to cardiomyopathy (CMO) is common, but cerebral infarction (CI) is relatively rare in these patients. We report a case of a pontine infarct in a patient with DMD and advanced CMO, and review the published data on CMO and CI in patients with DMD.
J Stroke Cerebrovasc Dis
PMID:Cerebral infarction in Duchenne muscular dystrophy. 2062 21


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