Isoprostanes in dystrophinopathy: Evidence of increased oxidative stress

Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are degenerative disorders of muscle. Although the mechanisms underlying muscle degeneration are still uncertain, oxidative-damage has been proposed to play a key role. Isoprostanes are markers of free radical-catalyzed lipid peroxidation; the aim of our study was to evaluate plasma isoprostane levels in group of patients affected by Duchenne and Becker muscular dystrophies. PF₂-isoprostane levels were measured by colorimetric enzyme immunoassay in the plasma of 17 patients with DMD and 24 with BMD. When compared to a group of healthy controls, affected patients showed significantly higher plasma levels of isoprostanes (p = 0.001). When patients were stratified according to the clinical diagnosis, isoprostane levels were not statistically different between DMD and BMD patients. In conclusion whether the condition of oxidative stress found in plasma depends on the degenerative process occurring in muscles or on different mechanisms, such as the release of myoglobin in the blood, should be ascertained. However, our study confirms that oxidative stress findings in DMD/BMD patients are effectively present at the plasma levels. The condition of oxidative stress might act as an adjunctive cause of extra-muscular cell damage to which these patients are exposed for their entire life.     

Dystrophin-associated protein abnormalities in dystrophin-deficient muscle fibers from symptomatic and asymptomatic Duchenne/Becker muscular dystrophy carriers

The absence of dystrophin in muscle fibers is associated with a major reduction in dystrophin-associated proteins (DAPs) and disruption of the linkage between the subsarcolemmal cytoskeleton and the extracellular matrix. We investigated the expression of the DAPs β-dystroglycan, α-sarcoglycan, γ-sarcoglycan and syntrophin as well as utrophin in the muscles of 13 Duchenne muscular dystrophy (DMD) carriers (with variable percentages of dystrophin-deficient fibers and with a range of clinical symptoms), 2 Becker muscular dystrophy (BMD) carriers (expressing a highly truncated protein in some fibers), 2 girls with a DMD-like phenotype, and 11 BMD carriers with almost normal dystrophin expression (reduced or patchy distribution in a few fibers only and rare dystrophin-deficient fibers). DAPs were highly reduced in all fibers lacking dystrophin in the DMD carriers, but were almost normal in the dystrophin-deficient fibers of the 2 BMD carriers with highly truncated dystrophin. In the 11 BMD carriers with nearly normal dystrophin, the few fibers with reduced or patchy dystrophin immunostaining also showed reduced DAP expression in correlation with dystrophin expression. Immunoblot for β-dystroglycan and α-sarcoglycan confirmed the immunohistochemical findings. Utrophin expression was slightly increased in a proportion of fibers in the DMD and BMD carriers with dystrophin mosaicism. We found no correlation between utrophin expression and DAP expression. We conclude that absence or reduction of dystrophin in muscle fibers of DMD and BMD carriers causes a reduction of DAPs in the same fibers, as observed in DMD and BMD patients, while utrophin does not seem to play a role in DAP expression in adult muscle. Received: 11 January 1996 / Revised, accepted: 16 April 1996     

Atypical form of X-linked proximal pseudohypertrophic muscular dystrophy

Summary A series of 95 families, consisting of 317 patients with severe and mild X-linked proximal pseudohypertrophic muscular dystrophy (MD), was analysed by the use of two different and rigid clinical criteria based on the age when the patient became chairbound. Using these criteria the families from Erfurt and Warsaw could be clearly separated into classical Duchenne (DMD) and classical Becker (BMD) type patients. A third group of patients was found with atypical clinical course, who could not be identified as neither Duchenne nor Becker cases. Statistically highly significant differences were found between the groups of classical DMD and atypical MD cases on the one hand and between the groups of atypical MD and classical BMD cases on the other, especially with respect to age when chairbound and age at death. The comparisons of progression of the disease, life expectancy and of fertility between the three groups of X-linked MD show that classical DMD and atypical MD may be considered as separate types of severe X-linked proximal pseudohypertrophic MD. On the basis of these findings the authors offer conclusions for the general practice of neurology, paediatrics and genetic counselling.     

Localization and characterization of dystrophin in muscle biopsy specimens from Duchenne muscular dystrophy and various neuromuscular disorders

Dystrophin, surmised to be the causative protein of Duchenne muscular dystrophy (DMD), was studied for its intracellular localization and characterization by immunostaining and Western blotting using antidystrophin antibodies. In normal controls and in patients with various neuromuscular diseases other than DMD and Becker's muscular dystrophy (BMD), dystrophin was detected homogeneously on the entire surface membrane of the muscle fibers, whereas it was absent in DMD patients and partially observed in BMD cases. The density of dystrophin was low in BMD and female DMD patients. In mouse skeletal and cardiac muscles, too, dystrophin localized in the muscle surface membrane, and its presence in the brain was also suggested. However, dystrophin was not detected in mdx mice. These data suggest that myofiber necrosis in DMD patients and mdx mice is likely to be the result of plasma membrane instability.     

Lack of anionic phospholipid calcium binding sites in Duchenne muscular dystrophy.

We studied membrane ultrastructural localization of anionic phospholipids (AP) and sialic acid (SA) calcium binding sites in muscle biopsies from Duchenne muscular dystrophy (DMD) and 3 Becker's muscular dystrophy (BMD) patients using polymyxin B (PXB) and limulus polyphemus (LP) as cytochemical markers. We found that AP calcium binding sites are lacking at muscle cell surface in all DMD muscle tissues, in both intact and degenerating muscle fibers. In BMD, AP have an unusual distribution along plasma membrane. Sialic acid calcium binding sites have the same localization along plasma membrane and basal lamina in DMD, BMD, and control muscles. The absence or alterations of structures involved in calcium binding in DMD and BMD may alter membrane calcium permeability, leading to abnormal Ca2+ influx into cells causing muscle necrosis.     

Serum levels of vascular endothelial growth factor elevated in patients with muscular dystrophy

In patients with muscular dystrophy, such as Duchenne muscular dystrophy (DMD), microcirculation abnormalities and hypoxic ischemic conditions in muscle tissues are suspected to be induced by non-symptomatic coagulation fibrinolysis abnormalities and vascular dysfunction. Vascular endothelial growth factor (VEGF) is a critical regulating factor in angiogenesis that is known to be induced by hypoxic and/or ischemic conditions. To examine whether VEGF is associated with muscular dystrophy, we measured serum levels of VEGF in 52 patients with DMD, 15 with Becker muscular dystrophy (BMD), 20 with Fukuyama congenital muscular dystrophy (FCMD), eight with myotonic dystrophy (DM), and four with spinal muscular atrophy (SMA), as well as in 15 healthy and eight disease controls. The serum level of VEGF in the DMD patients was 267.7 ± 25.3 pg/ml (10.5–800.0), while it was 358.8 ± 96.3 pg/ml (0.2–1320.0) in the BMD patients, 261.4 ± 45.6 pg/ml (0.1–758.0) in the FCMD patients, 165.0 ± 63.4 pg/ml (2.6–479.0) in the DM patients, 96.0 ± 30.3 pg/ml (41.0–168.0) in the SMA patients, 148.3 ± 20.1 pg/ml (46.5–298.0) in the healthy controls, and 154.1 ± 54.0 pg/ml (7.2–343.0) in the disease controls. The level of VEGF in BMD was significantly elevated, as compared with DM, SMA, and control groups. Further, the level of VEGF in the bedridden sub-group of DMD patients was significantly elevated as compared with chair-bound DMD, DM, SMA, and control groups. We concluded that VEGF may reflect hypoxic and/or ischemic conditions in muscle tissue, and have a relationship with the process of disease progression in DMD and BMD patients.     

Detection of deletions within the dystrophin gene in Polish families affected with Duchenne/Becker muscular dystrophy

DNA analysis was performed in 190 cases of Duchenne and Becker muscular dystrophies (DMD/BMD), including 150 cases with DMD and 40 cases with BMD, using Southern blotting and PCR multiplex techniques with application of 25 pairs of primers. Deletions in the overall material were found in 109 cases: 81 (54%) in patients with DMD and 28 (70%) in patients with BMD. All the deletions in DMD were out of frame with the exception of two cases, whereas in BMD all the deletions but two were in frame. Junction fragments were detected in 12 cases of DMD. In five cases duplications were found: four in patients with DMD and one in a patient with BMD.     

Heterogeneity of dystrophin expression in patients with Duchenne and Becker muscular dystrophy

Summary This report documents the results of an integrated biochemical and immunocytochemical investigation into the expression of dystrophin (the protein product of the Duchenne muscular dystrophy gene) in muscle biopsies from 226 patients. It is the first study in which dystrophin has been analysed on blots and on tissue sections in such a large number of patients using the same (monoclonal) antibody. The 140 patients with Xp21 muscular dystrophy who were included in this study represent a continuous spectrum of disease severity and this range was reflected in the heterogeneity of dystrophin expression which was observed with respect to abundance, size and the pattern of tissue localisation. Approximately 40% of biopsies obtained from patients diagnosed as having Duchenne muscular, dystrophy (DMD) contained isolated clearly positive fibres and a further 20% had very weak labelling on a large number of fibres. Biopsies from patients with Becker muscular dystrophy (BMD) showed labelling patterns which varied from weak labelling on the majority of fibres to clear labelling on all fibres. Typically, however, there was inter-and intra-fibre variation in labelling intensity. Approximately 85% of the 52 BMD and 54 DMD patients who had unequivocal labelling on blots demonstrated a protein of abnormal size. The remaining 15% had a protein of normal size but reduced abundance. Overall, the estimated abundance of dystrophin correlated well with clinical assessments of the disease severity expressed in patients: We conclude that dystrophin analysis is an essential and dependable technique for the differential diagnosis of patients with Xp21 muscular dystrophy.Supported by the University of Newcastle-upon-Tyne Research Committee, the Muscular Dystropy Group of Great Britain and the Medical Research Council     

Multiple episodes of thrombosis in a patient with Becker muscular dystrophy with marked expression of utrophin on the muscle cell membrane

We previously reported a patient with Becker muscular dystrophy (BMD) who exhibited a benign clinical phenotype and marked expression of utrophin on the muscle cell membrane. The patient developed multiple episodes of thrombosis (middle cerebral and femoral arteries) in the course of the disease. We re-examined the biopsy muscle specimen from the patient immunohistochemically as to the expression of procoagulant or anticoagulant factors. We found a lower expression of thrombomodulin on the muscle cell membrane in the BMD patient compared with other BMD or Duchenne muscular dystrophy (DMD) patients. Although utrophin up-regulation in muscle is thought to prevent the muscle wasting in dystrophin-deficient DMD or BMD, the data obtained in the present study indicate that up-regulated utrophin may have an unexpected influence on the function of the vascular or coagulation system. Received: 24 November 1998 / Revised, accepted: 19 February 1999     

Parental attitudes toward newborn screening for Duchenne/Becker muscular dystrophy and spinal muscular atrophy

Introduction: Disease inclusion in the newborn screening (NBS) panel should consider the opinions of those most affected by the outcome of screening. We assessed the level and factors that affect parent attitudes regarding NBS panel inclusion of Duchenne muscular dystrophy (DMD), Becker muscular dystrophy (BMD), and spinal muscular atrophy (SMA). Methods: The attitudes toward NBS for DMD, BMD, and SMA were surveyed and compared for 2 categories of parents, those with children affected with DMD, BMD, or SMA and expectant parents unselected for known family medical history. Results: The level of support for NBS for DMD, BMD, and SMA was 95.9% among parents of children with DMD, BMD, or SMA and 92.6% among expectant parents. Conclusions: There was strong support for NBS for DMD, BMD, and SMA in both groups of parents. Given advances in diagnostics and promising therapeutic approaches, discussion of inclusion in NBS should continue. Muscle Nerve 49 : 822–828, 2014     

Expression of tissue inhibitor of metalloproteinase-1 in progression muscular dystrophy

Objective Tissue inhibitor of metalloproteinase-1(TIMP-1) is a multifunctional protein that has the capacity to modify cellular activities and to modulate matrix turnover. This paper revealed the contributive role of TIMP-1 in progressive muscular dystrophy (PMD). Methods We examined the expression and cellular localization of TIMP-1 protein using biopsied frozen muscle from patients with Duchenne muscular dystrophy ( DMD) , Becker muscular dystrophy (BMD) , congenital muscular dystrophy (CMD) by immunohistochemistry, double immunofluorescence and Western blot analysis. Results The results of immunohistochemistry and double immunofluorescence showed that TIMP-1 was positive only in vascular endothelial cells of normal muscles. Immunohistochemistry and Western blot analysis showed that the staining intensity was distinctly increased in some dystrophic muscles of PMD for TIMP-1. Double immunofluorescence revealed that TIMP-1 strongly expressed in the regenerating muscle fibers, macrophages and macrophage infiltrating necrotic fibers. Some activated fibroblasts in endomysium and perimysium of DMD and CMD muscles were also positive for TIMP-1. Conclusion The functional consequence of overexpression of TIMP-1 in the dystrophic muscles is unknown, but the elevated local expression of TIMP-1 in diseased muscles of PMD and their distinct distribution pattern provide evidence that TIMP-1 may participate in the pathogenesis of PMD.     

假肥大型肌营养不良症患者及携带者的致病基因突变检测

目的 检测假肥大型肌营养不良症患者及携带者的dystrophin基因致病突变类型,为防止假肥大型肌营养不良症的再发提供信息.方法 利用多重引物连接依赖式扩增技术和变性高效液相色谱技术检测临床研究发现的20例假肥大型肌营养不良症患者的DMD基因突变.结果 缺失突变10例,重复突变1例,终止密码子突变4例,5例未发现致病突变.结论 通过致病突变的检测可以为防止患者家庭假肥大型肌营养不良症的再发提供优生优育指导.     

Expression of tissue inhibitor of metalloproteinase-1 in progression muscular dystrophy

Objective Tissue inhibitor of metalloproteinase-1 （TIMP-1） is a muhifunctional protein that has thc capacity to modify cellular activities and to modulate matrix turnover. This paper revealed the contributive role of TIMP-1 in progressive muscular dystrophy （PMD）. Methods We examined the expression and cellular localization of TIMP-1 protein using biopsied frozen muscle from patients with Duchenne muscular dystrophy （DMD）, Becker muscular dystrophy （BMD） , congenital muscular dystrophy （CMD） by immunohistochemistry, double immunofluorescence and Western blot analysis. Results The results of immunohistochemistry and double immunofluorescence showed that TIMP-1 was positive only in vascular endothelial cells of normal muscles. Immunohistochemistry and Western blot analysis showed that the staining intensity was distinctly increased in some dystrophic muscles of PMD for TIMP-1. Double immunofluorescence revealed that TIMP-1 strongly expressed in the regenerating muscle fibers, macrophages and macrophage infiltrating necrotic fibers. Some activated fibroblasts in endomysium and perimysium of DMD and CMD muscles were also positive for TIMP- 1. Conclusion The functional consequence of overexpression of TIMP-1 in the dystrophic muscles is unknown, but the elevated local expression of TIMP-1 in diseased muscles of PMD and their distinct distribution pattern provide evidence that TIMP-1 may participate in the pathogenesis of PMD.     

Mutual interference of myotonia and muscular dystrophy in the mouse: a study on ADR-MDX double mutants

For Duchenne muscular dystrophy (DMD, dystrophin deficiency) and Thomsen/Becker myotonia (muscular chloride channel deficiency) genetically homologous mouse models are available, the dystrophin-deficient MDX mouse and the myotonic ADR mouse. Whereas the latter shows more severe symptoms than human myotonia patients, the MDX mouse, in contrast to DMD patients, is only mildly affected. We have introduced, by appropriate breeding, the defect leading to myotonia (Clc1 null mutation, adr allele) into MDX mice, thus creating ADR-MDX double mutants. The expectation was that, due to mechanical stress during myotonic cramps, the ADR status should symptomatically aggravate the muscle fibre necrosis caused by the dystrophin deficiency. The overall symptoms of the double mutants were dominated by myotonia. Weight reduction and premature death rate were higher in ADR-MDX than in ADR mice. Sarcolemmal ruptures as indicated by influx into muscle fibres of serum globulins and injected Evans blue were found with great inter-individual variation in MDX and in ADR-MDX muscles. Affected fibres were found mainly in large groups in MDX but single or in small clusters in ADR-MDX leg muscles. The symptoms of myotonia (aftercontractions, shift towards oxidative fibres) were less pronounced in ADR-MDX than in ADR muscles. Conversely, numbers of damaged fibres as well as the percentage of central nuclei (an indicator of fibre regeneration) were significantly lower in ADR-MDX than in MDX skeletal muscles. Thus it appears that, at the level of the muscle fibre, myotonia and muscular dystrophy attenuate each other.     

假肥大型肌营养不良症40例临床特征与基因诊断

目的对假肥大型肌营养不良症（DMD／BMD）患者总结其临床特征并进行基因诊断,以提高对DMD／BMD疾病的认识及诊断水平。方法对40例DMD／BMD患者临床特征进行总结包括临床表现、血清肌酶、肌电图及肌肉活检等,并应用18对引物多重PCR的方法对其进行Dystrophin基因缺失诊断。结果DMD／BMD为儿童期隐匿起病、缓慢进行性加重,以肌无力和肌萎缩为特点,主要选择性侵犯四肢近端肌、盆带肌、腰带肌等,可有肌肉假性肥大,有些患者可有智能减退和心肌损害;血清肌酶水平异常增高,肌电图示肌源性损害,肌肉活检呈肌病特征。基因诊断27例存在外显子片段缺失,13例未检测到缺失。结论识别DMD／BMD的临床特征有助于提高对其的诊断水平,多重PCR作为一种简便快速的诊断方法可对DMD／BMD患者进行基因诊断。     

Molecular deletion patterns in Duchenne and Becker muscular dystrophy patients from KwaZulu Natal

There exists much phenotypic heterogeneity in Duchenne muscular dystrophy and its allelic variant, Becker muscular dystrophy. The molecular findings on 53 patients with Duchenne and 15 patients with Becker type muscular dystrophy in KwaZulu Natal, South Africa are reported. Multiplex PCR was performed using primers targeting 18 hot-spot exons throughout the dystrophin gene. Analysis of the multiplex PCR data revealed that 39/68 (57.0%) patients included in the study showed a deletion (33 DMD and 6 BMD patients). Twenty-five patients were Black, 4 were White and 10 were Indian. Using the Chamberlain and Beggs multiplex PCR assays, the region of the genome most frequently affected by a deletion includes exons 47-51. The distal region of the dystrophin gene was most frequently affected by the deletion in both Black and Indian patients. There were too few White patients for conclusions to be drawn concerning the most frequently affected part of the gene. Although the numbers are insufficient to determine whether ethnic differences are present, the Chamberlain and Beggs multiplex PCR assays detect deletions with the same frequency in South African DMD/BMD patients as that reported in the literature.     

Origins and early descriptions of "Duchenne muscular dystrophy"

One of the seminal events in the history of neurology was the identification of primary diseases of muscle and their separation from diseases in which muscle weakness was secondary to injury involving the anterior horns of the spinal cord ("progressive muscular atrophy"). Not surprisingly, one of the first groups of primary muscle diseases to be satisfactorily characterized belonged to what would today be classified as muscular dystrophies. Pride of place in this group belongs to Duchenne muscular dystrophy (DMD). DMD's primacy as the first well-characterized muscular dystrophy was due both to the fact that it is relatively common, as well as to the clinically striking feature, apparent in many cases, of apparent paradoxical enlargement of severely weakened muscles ("pseudo-hypertrophy"). This review traces the historical roots of DMD in the 19th century, from the early papers by Conte, Bell, Partridge, and Meryon through the classic monographs by Duchenne and Gowers. In addition, the first American contributions to DMD are reviewed, including those by Pepper, Hammond, and S. Weir Mitchell. Many of the original papers describing this disease are now unavailable outside of major medical libraries, and several important contributions, excepting those of Duchenne, which are recognized eponymously, are now virtually forgotten.     

Proteasome expression in the skeletal muscles of patients with muscular dystrophy

Previous investigators have suggested that proteolysis by calpain, a Ca²⁺-dependent protease, causes muscle fiber degradation in Duchenne and Becker muscular dystrophies (DMD/BMD). Recent evidence indicates that the nonlysosomal ATP-ubiquitin-dependent proteolytic complex (proteasomes) participates in muscle wasting during various catabolic states and in muscle fiber degradation in physiological or pathological conditions. To elucidate the possible role of proteasomes in dystrophic muscles, routine histochemistry and immunohistochemistry of 26S proteasomes were performed on muscle biopsy specimens obtained from patients with various neuromuscular disorders including DMD/BMD, polymyositis (PM), amyotrophic lateral sclerosis, and peripheral neuropathies, and on normal human muscle specimens. Immunohistochemically, proteasomes were located in the cytoplasm in normal human muscle, but their staining intensity was faint. Compared to control muscles, abnormal increases in both proteasomes and ubiquitin were demonstrated mainly in the cytoplasm of necrotic fibers and to a lesser extent in regenerative fibers in DMD/BMD and PM. Non-necrotic, atrophic fibers in all diseased muscles showed moderate or weak immunoreactions for the proteins; their staining intensities were stronger than those of control muscle fibers. Both proteins often colocalized well. Not all dystrophin-deficient muscle fibers showed a strong reaction for proteasomes. Our results showed increased proteasomes in necrotic and regenerative muscle fibers in DMD/ PMD, although this may not be disease-specific up-regulation. We suggest that the ATP-ubiquitin-dependent proteolytic pathway as well as the nonlysosomal calpain pathway may participate in muscle fiber degradation in muscular dystrophy. Received: 9 July 1999 / Revised: 28 December 1999, 21 February 2000 / Accepted: 21 February 2000     

Morphometric analysis of mdx diaphragm muscle fibres. Comparison with hindlimb muscles

Histological, histochemical and morphometric characteristics of diaphragm muscles from mdx and control mice were compared with those of hindlimb muscles [extensor digitorum longus (EDL), tibialis anterior (TA) and soleus (SA) muscles]. In contrast to mdx limb muscles, regeneration after muscle necrosis does not restore diaphragm muscle structure. In mdx mice at 270 days of age, 70–80% of fibres in hindlimb muscles had central nuclei, compared with only 35% in diaphragm muscle. At 270 days of age, mdx diaphragm muscle was characterized by perimysial and endomysial fibrosis; this latter feature was absent from mdx hindlimb muscles. Fibre diameter remained smaller than the control in mdx diaphragm muscle. We suggest that the similarity in muscle pathology between the diaphragms of mdx mice and in patients suffering from Duchenne muscular dystrophy (DMD) makes these an appropriate model for DMD, since respiratory failure is the leading cause of death in DMD patients.     

Expression of myoglobin gene in skeletal muscle of patients with neuromuscular diseases

Expression of the myoglobin (Mb) gene in skeletal muscle was studied in patients with Duchenne muscular dystrophy (DMD), polymyositis (PM), or amyotrophic lateral sclerosis (ALS) by measuring Mb concentration by radioimmunoassay and Mb messenger ribonucleic acid (RNA) (MbmRNA) levels by Northern blot analysis. Mb concentrations in the muscle cells (Mb/noncollagenous protein) were decreased in patients with DMD, PM, or ALS. However, while Mb concentrations per MbmRNA content (Mb/MbmRNA) were decreased in DMD and PM patients, these values were normal in ALS patients. These results suggest that Mb synthesis is increased in muscles of DMD and PM patients, but is not sufficient to compensate for the excessive loss of Mb from the affected muscles, and that the synthesis is decreased in the muscles of ALS patients. © 1994 John Wiley & Sons, Inc.