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)

We compared the myotoxic effect of chlorpromazine on mitochondria of gastrocnemius muscle in X-related muscular dystrophy (mdx) and control mice relative to changes in calmitine and calcium concentrations before and 3 and 6 days after a single injection of the drug. The results indicate that mdx mouse mitochondria are less sensitive to the myotoxic effect of chlorpromazine; calmitine and calcium binding were only slightly reduced compared to controls. Our observations indicate that the calmitine structure could differ in mdx and control mice with respect to calcium binding structures, and that the presence of calmitine in the mitochondria of mdx mouse skeletal muscle could explain why muscle degeneration does not occur in these animals. However, the muscles of patients with Duchenne muscular dystrophy (DMD) are lacking in calmitine and are subject to extensive progressive degeneration.
 ...
PMID:Mdx mouse skeletal muscle: could a mitochondrial factor be responsible for the absence of progressive necrosis? 804 1

Two paediatric cases are reported in which unexpected, life-threatening arrhythmias occurred. Routine induction of general anaesthesia with thiopentone, 5 mg.kg-1, in one and with halothane in the other, and succinylcholine 1.25-1.5 mg.kg-1 i.v. was followed by the development of wide complex tachyarrhythmia with hypotension in the first case and asystole in the second case despite pre-treatment with atropine in both cases. The first patient was resuscitated with tracheal intubation, 100% oxygen, manual ventilation and intravenous lidocaine and bicarbonate. The second patient required intubation, manual ventilation, 12 min of CPR and i.v. calcium, epinephrine and bicarbonate, as well as DC counter shock. Neither patient received dantrolene. Early recovery in both patients was uneventful with no neurological sequelae. Subsequent investigations revealed the presence of a dystrophin-deficient muscular dystrophy, Duchenne muscular dystrophy and Becker muscular dystrophy respectively, previously unsuspected, in both patients. The aetiology of the observed arrhythmias was presumably hyperkalaemia, secondary to succinylcholine-induced rhabdomyolysis. It is suggested that when faced with sudden, life-threatening arrhythmias following succinylcholine at induction of anaesthesia for paediatric patients, clinicians should include occult myopathy in the differential diagnosis, and thus consider the aggressive management of hyperkalaemia in addition to basic resuscitative efforts.
 ...
PMID:Succinylcholine-induced cardiac arrest in children with undiagnosed myopathy. 791 8

Membrane-mediated excessive intracellular calcium accumulation (EICA), and diminished cellular energy charge are invariably present in the myocardium of CHF-146 strain dystrophic hamsters (DH) with hereditary muscular dystrophy (HMD) and hypertrophic cardiomyopathy (HC). Therefore, we investigated respiratory dysfunctions and Ca2+ overloading in the isolated cardiac mitochondria from young and old DH, and whether these abnormalities can be reversed by controlling EICA in the in vitro mitochondria upon chelating excessive Ca2+ from the isolation medium with EDTA. Age- and sex-matched CHF-148 strain albino normal hamsters (NH) served as the disease controls. As an index of membrane-mediated EICA and chronic cellular degeneration, Ca and Mg concentrations were quantitated in the ventricular myocardium and in the cardiac mitochondria harvested in two different isolation media. Mitochondria from young and old DH, isolated in the absence of 10 mM EDTA (B0 medium), revealed poor coupling of oxidative phosphorylation, diminished stimulated oxygen consumption rate, and lower respiratory control and ADP/O ratios, than those seen in NH. However, incorporation of 10 mM EDTA in the isolation medium (B medium) restored the mitochondrial functions and reduced massive Ca(2+)-overloading in the dystrophic organelles. Ca concentration in the in vitro mitochondria from DH was significantly higher than in NH, irrespective of the composition of the isolation medium and age of the hamsters. Furthermore, the dystrophic organelles isolated in B medium had a much lower Ca concentration, and markedly improved oxidative phosphorylation as seen in the cardiac mitochondria from NH, compared to those prepared using B0 medium.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:Reversal of impaired oxidative phosphorylation and calcium overloading in the in vitro cardiac mitochondria of CHF-146 dystrophic hamsters with hereditary muscular dystrophy. 813 8

Although Ca in small quantities plays a fundamental role in cell activation, excessive intracellular Ca accumulation results in severe cellular damage and is a major factor in the pathophysiology of multiple diseases. Paradoxically, high Ca intake may be beneficial in unrelated disorders such as arterial hypertension, nephrolithiasis and in the prevention of colon cancer. Parathyroid hormone (PTH) could be the link capable to explain this paradox. PTH stimulates cellular calcium influx. Under normal conditions, this effect takes place only in target tissues for the hormone, but in the presence of altered cell-membrane permeability for calcium, normal plasma PTH may be detrimental, enhancing cellular calcium influx. Thus, the suppression of PTH secretion by a high Ca intake would result in a reduced PTH-induced cellular Ca accumulation in genetically predisposed tissues with a loose cellular Ca control. Thus, parathyroid ablation in dystrophic hamster reduces the elevated muscle Ca observed in muscular dystrophy and causes histological improvement without altering the serum Ca concentration. The amount of dietary Ca required is not firmly established, but anthropological observations suggest a daily intake of approximately 1600 mg, much higher than the present average Ca intake in Western societies. Thus, a higher Ca intake would be beneficial in the treatment, and more importantly, in the prevention of multiple diseases.
 ...
PMID:[New perspectives in calcium metabolism]. 820 35

Membrane-mediated excessive intracellular calcium accumulation (EICA) is a fundamental pathogenetic event associated with chronic muscle degeneration in patients with Duchenne muscular dystrophy (DMD), and in animals with hereditary muscular dystrophy (HMD). Because of potential Ca(2+)-channel blocking properties, we investigated the relative efficacies of chronic diltiazem (DTZM) (50 mg/kg/d), nifedipine (NFDN) (6 mg/kg/d), and verapamil (VPML) (25 mg/kg/d) therapies in reducing EICA and improving dystrophic pathobiology beginning in 30-day-old male BIO-14.6 strain dystrophic hamsters (DH). Each agent, and sterile distilled water as vehicle control, was given in a single daily oral dose for 180 days to four groups each of DH and BIO-F1B strain normal hamsters (NH). Plasma [Ca] and [Mg]; plasma aldolase (ALD), creatine kinase (CK), and lactate dehydrogenase (LDH) activities; relative cardiac hypertrophy and relative soleus hypertrophy; tissue [Ca] and [Mg] of the heart and rectus femoris muscle, histology of rectus femoris, and overall mortality rate were quantitated. Muscle Mg was not modified in DH, or by any of these agents. NFDN produced significant edema in the soleus and myocardium. During the 6-month therapeutic trial, 45% DH and 18% NH died on VPML, 27% DH and 9% NH on NFDN, and 20% DH controls on distilled water, but none on DTZM; suggesting that DTZM treated DH lived longer than DH controls. Relative efficacy in regulating EICA in both the cardiac and skeletal muscles; plasma ALD, CK, and LDH; and improving associated dystrophic pathobiology was found to be DTZM >>> NFDN > VPML. DTZM appears to be the most effective and safest agent in mitigating EICA in cardiac and skeletal muscles, efflux of intracellular enzymes, histopathology of dystrophic muscle with sporadic necrosis, and chronic muscle degeneration in DH with HMD. DTZM therapy also halted the high morbidity and mortality associated with the dystrophic pathobiology inherent in DH.
 ...
PMID:Regulation of membrane-mediated chronic muscle degeneration in dystrophic hamsters by calcium-channel blockers: diltiazem, nifedipine and verapamil. 846 95

Notexin, a myotoxic phospholipase, was used to induce focal necrosis in the sartorius muscles of normal mixed-breed adult dogs and in 12-week-old beagles. Notexin injury caused pathologic changes similar to those of Duchenne muscular dystrophy (DMD) and its canine homologue, golden retriever muscular dystrophy (GRMD). All three conditions are characterized by increased serum creatine kinase (CK) levels, sarcolemmal defects, delta lesions, hyaline degeneration of myofibers, calcium-positive myofibers, and minimal effects on neurovascular structures. Four and 24 h after exposure to notexin, serum CK levels were elevated, and many myofibers were necrotic. In addition, by 24 h the necrotic areas were heavily invaded by mononuclear cells, and calcium-positive myofibers were prominent. Capillaries appeared intact even in areas of marked myonecrosis. Massive cellular infiltrate and myotube formation was evident at 3 days post injury. By 7 days, most affected fascicles were occupied by small immature myofibers. Regeneration was largely complete at 21 days. Our results suggest that notexin-induced muscle injury in dogs will be useful in the evaluation of potential therapies for DMD such as myoblast transplantation.
 ...
PMID:Notexin-induced muscle injury in the dog. 850 6

Calcium overload is a fundamental pathogenic event associated with chronic muscle degeneration in muscular dystrophies. The possibility that L-type voltage-dependent calcium channels were involved in the etiology of chicken muscular dystrophy was investigated by studying the dihydropyridine receptors in transverse tubule membranes isolated from skeletal muscle of normal (line 412) and dystrophic (line 413) chickens. The yield of T-tubular protein from dystrophic muscle was considerably increased compared with that from normal muscle (2.51 +/- 0.18 vs 1.04 +/- 0.31 mg protein x 100 g muscle-1). The binding of the calcium channel antagonist (+) [3H]PN200-110 to the dihydropyridine receptor in transverse tubule preparations was relatively slow, markedly affected by temperature and required divalent cations. (+) [3H]PN200-110 equilibrium binding assays revealed a single class of high-affinity sites and showed that maximum binding capacity (Bmax) (3.17 +/- 0.47 for normal and 3.51 +/- 0.52 pmol x mg protein-1 for dystrophic transverse tubules) and dissociation constant (Kd) (0.32 +/- 0.07 and 0.26 +/- 0.09 nM, respectively) were not significantly different in normal and dystrophic membranes. Kinetic studies indicated that normal and dystrophic transverse tubules did not differ significantly in association (2.54 x 10(6) and 2.27 x 10(6) M(-1)s(-1), respectively) and dissociation (8.5 x 10(-4) and 9.3 x 10(-4)s(-1), respectively) rate constants. Since dissociation kinetics for both preparations were monoexponential under all the experimental conditions employed, no low-affinity binding sites for (+) [3H]PN200-110 could be detected in chicken transverse tubules membranes. However, immunoblot assay, using a monoclonal antibody, revealed that dystrophic transverse tubules as compared with normal membranes were enriched twofold with the alpha 1-subunit of the dihydropyridine receptor. Therefore, although dihydropyridine-binding sites were not altered in transverse tubule membranes from dystrophic chicken skeletal muscle, both the increased yield in T-tubule vesicles and the enhanced immunodetection of the alpha 1-subunit of the dihydropyridine receptor, suggest that total content in dihydropyridine receptor is higher in dystrophic than in normal muscle.
 ...
PMID:Dihydropyridine receptors in transverse tubules from normal and dystrophic chicken skeletal muscle. 856 40

Dystrophin serves a variety of roles at the cell membrane through its associations, and defects in the dystrophin gene can give rise to muscular dystrophy and genetic cardiomyopathy. We investigated localization of cardiac dystrophin to determine potential intracellular sites of association. Subcellular fractionation revealed that while the majority of dystrophin was associated with the sarcolemma, about 35% of the 427-kDa form of dystrophin was present in the myofibrils. The dystrophin homolog utrophin was detectable only in the sarcolemmal membrane and was absent from the myofibrils as were other sarcolemmal glycoproteins such as adhalin and the sodium-calcium exchanger. Extraction of myofibrils with KC1 and detergents could not solubilize dystrophin. Dystrophin could only be dissociated from the myofibrillar protein complex in 5 M urea followed by sucrose density gradient centrifugation where it co-fractionated with one of two distinctly sedimenting peaks of actin. Immunoelectron microscopy of intracellular regions of cardiac muscle revealed a selective labeling of Z-discs by hystrophin antibodies. In the genetically determined cardiomyopathic hamster, strain CHF 147, the time course of development of cardiac insufficiency correlated with an overall 75% loss of myofibrillar dystrophin. These findings collectively show that a significant pool of the 427-kDa form of cardiac dystrophin was specifically associated with the contractile apparatus at the Z-discs, and its loss correlated with progression to cardiac insufficiency in genetic cardiomyopathy. The loss of distinct cellular pools of dystrophin may contribute to the tissue-specific pathophysiology in muscular dystrophy.
 ...
PMID:The association of cardiac dystrophin with myofibrils/Z-disc regions in cardiac muscle suggests a novel role in the contractile apparatus. 864 39

We studied the effect of mitochondrial extracts of skeletal muscle obtained from patients with Duchenne's muscular dystrophy (DMD) on calmitine of the mitochondrial matrix isolated from skeletal muscle of control mice. Our results in vitro clearly show that calmitine of the mitochondrial matrix of control muscle was degraded in the presence of mitochondrial extracts of muscle from DMD patients. The diseased muscle apparently contains an abnormal calmitine-specific proteolytic factor responsible for the calmitine deficiency previously observed in this tissue. As calmitine binds calcium and probably plays a role in regulating the balance of bound and free calcium within mitochondria, a calmitine deficiency could result in an overload of mitochondrial free calcium. Certain enzymes involved in ATP synthesis would be inhibited, resulting in the muscular degeneration characteristic of this myopathy. Our results suggest the cause of mitochondrial calcium overload and the events leading to muscular degeneration in this disease model. Abnormal protease activity could be the factor triggering all of these processes in the DMD patient. These findings suggest that it may now feasible to search for an efficient pharmacologic treatment for DMD.
 ...
PMID:Skeletal muscle of patients with Duchenne's muscular dystrophy: evidence of a mitochondrial proteolytic factor responsible for calmitine deficiency. 866 Mar 74

The objective of this study was to determine whether cardiac contractile force is altered in the dystrophin-deficient mdx mouse model of muscular dystrophy. Left atria from 12-14-week-old control and mdx mice were paced at 1 Hz in 1.25 mM external Ca2+ buffer. Twitch properties and effects of interposing intervals of 0.3 to 600 s on the force of subsequent beats (force-interval curves) were examined. Peak force and time-to-peak force were similar in both groups, but half-relaxation time was significantly prolonged in mdx heart. In control hearts, force-interval curves increased to an inflection point at about 1 s, then rose to a second peak near 60 s. In mdx heart, curves reached the early inflection more quickly, the second peak was diminished in magnitude and force was greatly depressed at long intervals. Curves were fitted to a four-parameter equation to quantify differences in shape. The parameter a, which reflects rate of rise to the first inflection, was significantly increased in mdx atria, while the parameter B, which reflects amplitude of the late peak, was significantly reduced. These differences in force production were more marked when external Ca2+ was raised to 2.5 mM. Results show contractile properties are markedly altered in atria from dystrophin-deficient mdx mice. These findings are consistent with the hypothesis that dystrophin deficiency affects cardiac contractile function, possibly through effects on SR function.
 ...
PMID:Contractile properties of myocardium are altered in dystrophin-deficient mdx mice. 890 14


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>