Mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes. Report of an autopsy

We present an autopsy report on a 14-year-old girl with mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes (MELAS), placing emphasis on the mitochondrial enzymatic histochemistry of the 3 types skeletal muscle and cardiomyocytes. Generalized muscular atrophy, cardiac hypertrophy, cerebral cortical laminar necrosis, basal ganglia calcification and liver steatosis were observed. In the skeletal muscles, modified Gomori's trichrome staining demonstrated scattered ragged red fibers, and histochemical staining for mitochondrial enzymes showed intense positivity in the subsarcolemmal zones of some muscle fibers. Some of the hypertrophic cardiomyocytes also showed a ragged red appearance with the modified Gomori's trichrome stain. Histochemical staining for mitochondrial enzymes showed patchy loss of enzymatic activity in the myocardium. Electron microscopically, extreme accumulation of enlarged mitochondria and severe loss of myofibrils was observed in both skeletal muscle fibers and cardiomyocytes. The arteriolar smooth muscle cells also showed a mild increase in mitochondria.     

Mitochondrial Myopathy, Encephalopathy, Lactic Acidosis, and Stroke-like Episodes

We present an autopsy report on a 14-year-old girl with mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes (MELAS), placing emphasis on the mitochondrial enzymatic histochemistry of the 3 types skeletal muscle and cardiomyocytes. Generalized muscular atrophy, cardiac hypertrophy, cerebral cortical laminar necrosis, basal ganglia calcification and liver steatosis were observed. In the skeletal muscles, modified Gomori's trichrome staining demonstrated scattered ragged red fibers, and histochemical staining for mitochondrial enzymes showed intense positivity in the subsarcolemmai zones of some muscle fibers. Some of the hypertrophic cardiomyocytes also showed a ragged red appearance with the modified Gomori's trichrome stain. Histochemical staining for mitochondrial enzymes showed patchy loss of enzymatic activity in the myocardium. Electron microscopically, extreme accumulation of enlarged mitochondria and severe loss of myofibrils was observed in both skeletal muscle fibers and cardiomyocytes. The arteriolar smooth muscle cells also showed a mild increase in mitochondria. Acta Pathol Jpn 39: 599 606, 1989.     

Mitochondrial metabolism impairment in muscle fibres of rats chronically intoxicated with Senna occidentalis seeds.

The chronic administration of S. occidentalis seeds was found to induce a mitochondrial myopathy in hens. This study was undertaken to determine if the chronic treatment with S. occidentalis seeds of rats (as a mammalian model) would induce a mitochondrial myopathy similar to those described in humans and to determine if the histological changes could be correlated with the amount of ingested seeds. Twenty-one days old rats were fed S. occidentalis seeds at different diet concentrations (1, 2, 3%). Rats fed 1% S. occidentalis seeds had only a few COX-negative muscle fibers in the pectoralis major muscle. Rats fed 3% Senna occidentalis seeds had a greater number of COX-negative fibers. Rats fed 2% had an intermediate number of COX-negative fibers. Activity of SDH and NADH-tr were decreased in rats of groups 2% and 3%. Our data indicate that a progressive mitochondrial metabolism impairment can be produced in rats fed S. occidentalis seeds and that this impairment can be correlated with the amount of ingested seeds.     

Gene shifting: a novel therapy for mitochondrial myopathy.

Mutations in mitochondrial DNA (mtDNA) are the most frequent causes of mitochondrial myopathy in adults. In the majority of cases mutant and wild-type mtDNAs coexist, a condition referred to as mtDNA heteroplasmy; however, the relative frequency of each species varies widely in different cells and tissues. Nearly complete segregation of mutant and wild-type mtDNAs has been observed in the skeletal muscle of many patients. In such patients mutant mtDNAs pre-dominate in mature myofibers but are rare or undetectable in skeletal muscle satellite cells cultured in vitro. This pattern is thought to result from positive selection for the mutant mtDNA in post-mitotic myofibers and loss of the mutant by genetic drift in satellite cells. Satellite cells are dormant myoblasts that can be stimulated to re-enter the cell cycle and fuse with existing myofibers in response to signals for muscle growth or repair. We tested whether we could normalize the mtDNA genotype in mature myofibers in a patient with mitochondrial myopathy by enhancing the incorporation of satellite cells through regeneration following injury or muscle hypertrophy, induced by either eccentric or concentric resistance exercise training. We show a remarkable increase in the ratio of wild-type to mutant mtDNAs, in the proportion of muscle fibers with normal respiratory chain activity and in muscle fiber cross-sectional area after a short period of concentric exercise training. These data show that it is possible to reverse the molecular events that led to expression of metabolic myopathy and demonstrate the effectiveness of this form of 'gene shifting' therapy.     

Multicore myopathy--a case report.

Multicore myopathy is a rare congenital myopathy. The multicores consist of numerous small areas of decreased oxidative enzyme activity. The long axis of the lesion is perpendicular or parallel to the long axis of the muscle fiber. These cores are usually smaller than central cores. For this reason they are also called minicores. Although the multicores represent a nonspecific change in that they can be observed in malignant hyperthermia, muscular dystrophy, inflammatory myopathy, etc. Muscular weakness dating from early infancy is combined large proportion of the muscle fibers. In about half of the reported cases the muscular weakness has not been progressive, while in the others a slow progression has occurred. This 9-year-old boy presented with congenital nonprogressive myopathy associated with thoracic scoliosis and bilateral equinovarus deformity. The serum creatine phosphokinase and lactic dehydrogenase levels were normal. Electromyography showed "myopathic" features. The biopsy revealed a marked size variation in myofibers, ranging from 10 microns to 100 microns. A few small angular fibers and slight endomyseal fibrosis were also noted. There was type I fiber predominance. NADH-TR reaction disclosed more well-defined cores with loss of intermyofibrillary mitochondrial activity. These cores were usually located with loss of intermyofibrillary mitochondrial activity. These cores were usually located in the peripheral portions of the myofibers and the core size measured 10-30 microns in diameter. Electron microscopic examination revealed circumscribed areas of disintegrated Z band material and disorganized sarcomeric units near the sarcolemma. A decrease in the number of mitochondria and glycogen particles was noted.     

Histochemical changes in skeletal muscles of racehorses susceptible to rhabdomyolysis after exertion. I. Early myopathological changes

In this communication, the results of an enzyme histochemical study on m. gluteus medius of horses, sensitive to exertional myopathy, during attacks of rhabdomyolysis are presented. The activity and location of about 25 enzymes were examined. In the present report, the early metabolic changes are discussed. Within 6 min after an attack, some large rounded fibres (approximately 2%) were seen, which showed an intense red staining in the haematoxylin and eosin sections. These hypercontracted fibres showed an increase in activity of mitochondrial adenosine triphosphatase, indicating the presence of uncoupling and/or loose coupling of the mitochondria. This finding may point to a deficient production of ATP in the m. gluteus medius of horses sensitive for exertional myopathy and this deficiency may lead to pathological alterations in the skeletal muscles. The pathological fibres revealed a changed activity of other mitochondrial enzymes as well.     

Scanning electron microscopic observations on muscle cells of experimental mitochondrial myopathy produced by 2, 4-dinitrophenol

The morphological changes of the skeletal muscle cells of the rat experimental myopathy induced by 2, 4-dinitrophenol were examined by scanning electron microscopy in comparison with the ultrastructure of normal muscle cells. Specimens were prepared by the Aldehyde-Osmium-DMSO-Osmium method which permits the three-dimensional demonstration of intracellular structures under SEM. In the specimen prepared by the method, myofibrils having been completely dissolved, intracellular membranous structures such as the sarcoplasmic reticulum, T-tubules and mitochondria were clearly demonstrated in three dimensions. In the experimental mitochondrial myopathy, large accumulations of mitochondria were observed at the subsarcolemmal region. Mitochondria in the perinuclear and intermyofibrillar region showed swelling and occasionally accompanied abnormal concentric cristae. The sarcoplasmic reticulum which showed regular network in normal muscle cells entirely disappeared in the mitochondrial myopathy. Although the mitochondrial changes obtained in this study were almost identical to those previously reported by transmission electron microscopy, the changes in the sarcoplasmic reticulum have not been described in previous works.     

Histochemical and molecular genetic study of MELAS and MERRF in Korean patients

Mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episode (MELAS) and myoclonic epilepsy and ragged-red fibers (MERRF) are rare disorders caused by point mutation of the tRNA gene of the mitochondrial genome. To understand the pathogenetic mechanism of MELAS and MERRF, we studied four patients. Serially sectioned frozen muscle specimens with a battery of histochemical stains were reviewed under light microscope and ultrastructural changes were observed under electron microscope. The polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) analysis was performed and the tRNA genes were sequenced to confirm mutations. In two patients with MELAS, strongly succinyl dehydrogenase positive blood vessels (SSVs) and many cytochrome oxidase (COX) positive ragged-red fibers (RRFs) were observed, and A3243G mutations were found from the muscle samples. In two patients with MERRF, neither SSV nor COX positive RRFs were seen and A8344G mutations were found from both muscle and blood samples. In the two MERRF families, the identical mutation was observed among family members. The failure to detect the mutation in blood samples of the MELAS suggests a low mutant load in blood cells. The histochemical methods including COX stain are useful for the confirmation and differentiation of mitochondrial diseases. Also, molecular biological study using muscle sample seems essential for the confirmation of the mtDNA mutation.     

Mitochondrial myopathy in rats fed with a diet containing beta-guanidine propionic acid,an inhibitor of creatine entry in muscle cells.

In rats with phosphoryl-creatine depletion (fed a standard Randoin-Causeret diet containing 1% beta-guanidine propionic acid) abnormal mitochondria were observed in slow skeletal muscles, often containing paracrystalline inclusions very like those induced by ischaemia or mitochondrial poisons and in human mitochondrial myopathy.     

Mitochondrial myopathy in rats fed with a diet containing beta-guanidine propionic acid, an inhibitor of creatine entry in muscle cells

In rats with phosphoryl-creatine depletion (fed a standard Randoin-Causeret diet containing 1% beta-guanidine propionic acid) abnormal mitochondria were observed in slow skeletal muscles, often containing paracrystalline inclusions very like those induced by ischaemia or mitochondrial poisons and in human mitochondrial myopathy.     

地塞米松诱导的危重病性肌病大鼠骨骼肌p62和泛素的表达

目的　探讨危重病性肌病大鼠骨骼肌自噬相关因子p62和泛素的表达情况。 方法　将健康SD大鼠分为对照组和实验组;实验组又分为7、9、11 d 3个时相点（n=10）。实验组采用5 mg/kg地塞米松连续腹腔注射,每天1次,对照组腹腔注射等量的生理盐水。采用肌功能缺损评分判定肌功能缺损情况。利用免疫组化和Western blot检测骨骼肌自噬相关因子p62和泛素的表达情况。 结果　与对照组相比,实验组大鼠出现不同程度肌肉功能缺损症状,以11 d时大鼠缺损程度最为严重。免疫组化检测结果显示,对照组骨骼肌纤维可见少量泛素阳性表达细胞,无p62阳性细胞表达,实验组肌纤维胞质中可见明显p62和泛素表达,随时间延长表达量逐渐减少,以11 d时相点降低表达最为明显。 Western blot也证实了同一趋势。 结论　地塞米松诱导的大鼠CIM可能通过抑制p62和泛素的表达从而发挥对细胞自噬的调节作用。     

Sarcoplasmic lipase and non-specific esterase inhibition in myofibers of rats intoxicated with the organophosphate isofenphos.

The expression of sarcoplasmic esterases, lipases as well as the lipid content in the myofibers of the diaphragm of rats intoxicated with the organophosphate isofenphos was studied. Lipid accumulation was documented at light, electron microsopic and by morphometric studies.The distribution of these lipid droplets was irregular and abundant in myofibers with numerous mitochondria (predominantly oxidative fibers). Histochemical inhibition of sarcoplasmic esterases and lipases was observed in the intoxicated animals. This sarcoplasmic inhibition of esterases occurs roughly in parallel to the inhibition of plasma cholinesterase activity. The inhibition of sarcoplasmic lipases may explain, at least partially, the accumulation of lipids. This inhibition probably makes difficult the use of lipids as fuel, especially in the oxidative fibers. In contrast to the small amount of muscle necrosis, (1.30+/-0.745), metabolic muscle impairment was intense and extensive, i.e., decreased activities of esterases and lipases in the sarcoplasm, that should contribute to muscle weakness. Therefore, because segmental necrosis was most prominent in oxidative fibers (and these fibers use lipids as the principal fuel and contain the greater amount of lipases in the sarcoplasm), it is possible that inhibition of activity of lipases is responsible for the segmental necrosis. Although the exact role of these metabolic changes is not known, it is possible that they contribute not only to the induction and evolution of muscle cell necrosis but also to the muscle weakness and clinical impairment of animals and humans in the acute intoxication by these compounds.     

Enzyme histochemical study of germanium dioxide-induced mitochondrial myopathy in rats

The purpose of this study were 1) to determine the earliest pathological changes of germanium dioxide (GeO2)-induced myopathy; 2) to determine the pathomechanism of GeO2-induced myopathy; and 3) to determine the minimal dose of GeO2 to induce myopathy in rats. One hundred and twenty five male and female Sprague-Dawley rats, each weighing about 150 gm, were divided into seven groups according to daily doses of GeO2. Within each group, histopathological studies were done at 4, 8, 16, and 24 weeks of GeO2 administration. Characteristic mitochondrial myopathy was induced in the groups treated daily with 10 mg/kg of GeO2 or more. In conclusion, the results were as follows: 1) The earliest pathological change on electron microscope was the abnormalities of mitochondrial shape, size and increased number of mitochondria; 2) The earliest pathological change on light microscope was the presence of ragged red fibers which showed enhanced subsarcolemmal succinate dehydrogenase and cytochrome c oxidase reactivity; 3) GeO2 seemed to affect the mitochondrial oxidative metabolism of muscle fibers; 4) GeO2 could induce mitochondrial myopathy with 10 mg/kg of GeO2 for 4 weeks or less duration in rats.     

Effects of long-term administration of Senna occidentalis seeds in the large bowel of rats

Plants of the genus Senna that contain anthranoides derivatives are frequently used as cathartics. Radiological studies have demonstrated that patients with chronic constipation who have used stimulant laxative have colonic redundancy and dilatation more frequently than patients who have not. The objective of the present work was to study morphological and histochemical changes of the lower gut after administration of Senna occidentalis seeds for a long period to rats, as observed in skeletal muscle fibers. Fragments of the lower gut of young and adult rats treated with S. occidentalis seeds (2% for 171 days and 3% for 61 days in the diet) were submitted to histological and histochemical analysis and to densitometry. The most important finding was decreased oxidative enzyme activity in smooth muscle cells and in myenteric neurons of the large bowel. As oxidative metabolism is essential for ATP and energy production, these results suggest that the functional intestinal disturbance caused by the chronic use of Senna occidentalis as a laxative can be due to a metabolic effect involving energy production, which would decrease colonic motility and cause functional colonic dilatation, but without any irreversible anatomic change.     

Hyperthyroid Myopathy with Mitochondrial Paracrystalline Rectangular Inclusions

The ultrastructural features of a case of severe hyperthyroid myopathy are presented. Along with the moderate increase in mitochondrial size and number usually observed in most patients with hyperthyroid myopathy, some of the skeletal muscle mitochondria in the present case also contained paracrystalline rectangular inclusions. This finding has not been previously reported in hyperthyroid myopathy and further supports the current view that mitochondrial abnormalities play a major role in the pathogenesis of muscle dysfunction in hyperthyroid patients.     

组织化学和免疫组织化学技术对脂质沉积性肌病和糖原沉积性肌病的鉴别

目的脂质沉积性肌病和糖原沉积性肌病是罕见的肌肉疾病,其常规病理形态十分相似。本文探讨这两种疾病组织化学和免疫组化反应,寻找其鉴别诊断的形态差异。方法采用三磷酸腺苷(ATP)酶、还原性尼克酰胺腺嘌呤二核苷酸(NADH-Tr)、苏丹Ⅲ、PAS组织化学染色和抗肌萎缩蛋白(Dystrophin)免疫组化染色,分析2例脂质沉积性肌病和2例糖原沉积性肌病的组织形态特征和差别。结果脂质沉积性肌病和糖原沉积性肌病在常规HE染色均表现为肌纤维内出现大量的空泡,但前者空泡大小较一致,且边界清楚,后者空泡大小差异大,边界不清。ATP酶组化染色显示脂质沉积性肌病出现空泡变性的肌纤维均为Ⅰ型肌纤维,而糖原沉积性肌病出现空泡变性的肌纤维两型均有,以Ⅰ型严重。脂肪染色和糖原染色可作为这两种肌病的确诊依据。Dystrophin免疫组化染色显示脂质沉积性肌病的肌纤维强阳性,而在糖原沉积性肌病的反应为不连续弱阳性。结论组化和免疫组化检测可用于脂质沉积性肌病和糖原沉积性肌病的鉴别诊断。     

Disorders Associated with Depletion of Mitochondrial DNA

Quantitative defects of mtDNA have been recently described in patients with fatal mitochondrial disease of early infancy or mitochondrial myopathy of childhood. There was variable tissue expression and depletion of up to 98% of mtDNA in affected tissues. Pedigree analysis was compatible with mendelian inheritance, suggesting faulty communication between nuclear and mitochondrial genomes, but the primary molecular lesion is unknown. In muscle, morphological studies allowed to correlate mtDNA depletion, absence of mtDNA-encoded peptides, mitochondrial proliferation, and loss of cytochrome c oxidase (COX) activity in individual fibers.     

Automatic morphometric analysis of skeletal muscle fibers in the aging man

A qualitative and quantitative analysis of M. vastus lateralis fibers from 40 male sedentary subjects, ranging in age from 30 to 89 years, was carried out by light and electron microscopy and by an automatic Interactive Image Analysis System. Biopsies for enzyme histochemical and ultrastructural studies were taken from subjects subdivided into four age groups: 30-50, 60-70, 71-80, and 81-89 years. Attention was focused on the fiber type size and distribution, the size and the amount of mitochondria, and the amount of lipid droplets. Main changes observed in the four age groups are indicative of a sequence of events within senescent skeletal muscle fibers. With increasing age the enzyme histochemical reactions reveal changes in fiber type distribution characterized by decrease in muscle fiber diameter and by type I fiber predominance. Type II fiber atrophy is consistent. Type I fiber predominance seen in older subjects could be related to a selective decrease of type II fibers with age. It also suggests a possible conversion of type II fibers to type I fibers. Lipid droplet percentage per fiber area increases, while mitochondrial size and mitochondrial percentage per fiber area decrease with age. It is possible that energy requirements decline with age and that the decrease in mitochondrial size and percentage represents a response to a reduced metabolic demand.