Sarcoplasmic body myopathy--a rare hereditary myopathy with characteristic inclusions.

OBJECTIVES: To characterise a Swedish family with a rare hereditary myopathy with unique sarcoplasmic inclusion bodies in the muscle biopsy. MATERIALS AND METHODS: Part of the pedigree was described in 1980. Nine new members of the included and the phenotype further characterised through clinical, neurophysiological and radiological investigations. RESULTS: Six of the nine subjects displayed clinical and/or laboratory evidence of myopathy with sarcoplasmic inclusions. CONCLUSIONS: Sarcoplasmic body myopathy is distinguished from other distal myopathies by a more malignant course and early involvement of thenar muscles and hand flexors. Five to ten years after onset the affected subjects develop distal, as well as proximal, weakness and atrophy and the majority require a wheelchair after ten to fifteen years of disease. The disorder is manifested through elevated creatine kinase levels and the presence of the pathognomonic sarcoplasmic inclusions prior to clinical signs and symptoms.

Changes in diaphragm structure following prolonged mechanical ventilation in piglets.

BACKGROUND: Prolonged mechanical ventilation and inactivity negatively affect muscle function. The mechanisms for this dysfunction are unclear and clinical studies of respiratory muscle are difficult to carry out. An animal model simulating the critical care environment was used to investigate the effects of 5 days' mechanical ventilation and diaphragm inactivity on diaphragm muscle morphology. METHODS: Twelve 2-4-month-old piglets weighing 23-30 kg were studied. Seven animals received controlled mechanical ventilation and sedation such that spontaneous breathing efforts were inhibited over 5 days. Five control animals were ventilated for only 4-6 h following surgical preparation. Diaphragm biopsies were obtained from the left costal region at the end of all experiments. RESULTS: Morphometric, morphologic, electron microscopic and enzyme histochemical examination of costal diaphragm biopsies was carried out. Contractile properties were studied over 5 days and the results have been previously reported. Cross-sectional area of alI fiber types was increased compared with controls. The proportion of type IIb/x fibers increased following inactivity (P < 0,05) and the proportion of type I and IIa fibers tended to decrease although not significantly. Focal areas of diaphragm fiber regeneration were found without signs of inflammation. Increased appearance of cytoplasmic vacuoles consisting of lipid accumulation was noted in type I fibers. Several study animals developed focal areas with weak myofibrillar ATPase activity and disrupted fiber organization. There were areas of myofibrillary destruction and loss of sarcomeric pattern, without evidence of selective thick filament loss or a change in the myosin to actin ratio. CONCLUSION: Five days' mechanical ventilation with sedation and complete diaphragm inactivity resulted in changes in muscle fiber structure. A causal relationship can not be concluded but the acute changes in fiber type distribution and structure suggest that previously reported diaphragm contractile impairment occurs at the level of muscle fibers.

Huntington disease phenocopy is a familial prion disease.

Huntington disease (HD) is a common autosomal dominant neurodegenerative disease with early adult-onset motor abnormalities and dementia. Many studies of HD show that huntingtin (CAG)n repeat-expansion length is a sensitive and specific marker for HD. However, there are a significant number of examples of HD in the absence of a huntingtin (CAG)n expansion, suggesting that mutations in other genes can provoke HD-like disorders. The identification of genes responsible for these "phenocopies" may greatly improve the reliability of genetic screens for HD and may provide further insight into neurodegenerative disease. We have examined an HD phenocopy pedigree with linkage to chromosome 20p12 for mutations in the prion protein (PrP) gene (PRNP). This reveals that affected individuals are heterozygous for a 192-nucleotide (nt) insertion within the PrP coding region, which encodes an expanded PrP with eight extra octapeptide repeats. This reveals that this HD phenocopy is, in fact, a familial prion disease and that PrP repeat-expansion mutations can provoke an HD "genocopy." PrP repeat expansions are well characterized and provoke early-onset, slowly progressive atypical prion diseases with an autosomal dominant pattern of inheritance and a remarkable range of clinical features, many of which overlap with those of HD. This observation raises the possibility that an unknown number of HD phenocopies are, in fact, familial prion diseases and argues that clinicians should consider screening for PrP mutations in individuals with HD-like diseases in which the characteristic HD (CAG)n repeat expansions are absent.

Properly formed but improperly localized synaptic specializations in the absence of laminin alpha4.

Precise apposition of pre- to postsynaptic specializations is required for optimal function of chemical synapses, but little is known about how it is achieved. At the skeletal neuromuscular junction, active zones (transmitter release sites) in the nerve terminal lie directly opposite junctional folds in the postsynaptic membrane. Few active zones or junctional folds form in mice lacking the laminin beta2 chain, which is normally concentrated in the synaptic cleft. beta2 and the broadly expressed gamma1 chain form heterotrimers with alpha chains, three of which, alpha2, alpha4 and alpha5, are present in the synaptic cleft. Thus, alpha2beta2gamma1, alpha4beta2gamma1 and alpha5beta2gamma1 heterotrimers are all lost in beta2 mutants. In mice lacking laminin alpha4, active zones and junctional folds form in normal numbers, but are not precisely apposed to each other. Thus, formation and localization of synaptic specializations are regulated separately, and alpha4beta2gamma1 (called laminin-9) is critical in the latter process.

Independent regulation of the myotonic dystrophy 1 locus genes postnatally and during adult skeletal muscle regeneration.

Myotonic dystrophy is caused by a CTG(n) expansion in the 3'-untranslated region of a serine/threonine protein kinase gene (DMPK), which is flanked by two other genes, DMWD and SIX5. One hypothesis to explain the wide-ranging effects of this expansion is that, as the mutation expands, it alters the expression of one or more of these genes. The effects may vary in different tissues and developmental stages, but it has been difficult to develop these hypotheses as the normal postnatal developmental expression patterns of these genes have not been adequately investigated. We have developed accurate transcript quantification based on fluorescent real-time reverse transcription-polymerase chain reaction (TaqMan) to develop gene expression profiles during postnatal development in C57Bl/10 mice. Our results show extensive independent postnatal regulation of the myotonic dystrophy-locus genes in selected tissues and demonstrate which are the most highly expressed of the genes in each tissue. All three genes at the locus are expressed in the adult lens, questioning a previous model of cataractogenesis mediated solely by effects on Six5 expression. Additionally, using an in vivo model, we have shown that Dmpk levels decrease during the early stages of muscle regeneration. Our data provide a framework for investigation of tissue-specific pathological mechanisms in this disorder.

Acute quadriplegia and loss of muscle myosin in patients treated with nondepolarizing neuromuscular blocking agents and corticosteroids: mechanisms at the cellular and molecular levels.

OBJECTIVE: Long-term treatment with nondepolarizing neuromuscular blocking agents and corticosteroids in the intensive care unit is not benign, and an increasing number of patients with acute quadriplegic myopathy have been reported with increased use of these drugs. The purpose of this study was to investigate the mechanisms underlying acute quadriplegic myopathy. DESIGN: Percutaneous muscle biopsy samples were obtained, and electrophysiologic examinations were performed during the acute phase and during recovery in patients with acute quadriplegic myopathy. Regulation of muscle contraction and myofibrillar protein synthesis was studied using cell physiologic techniques, ultrasensitive electrophoresis, in situ hybridization, and histopathologic techniques. SETTING: All patients were seen in the intensive care unit of different university hospitals. PATIENTS: All patients were critically ill with sepsis. They had been given massive doses of corticosteroids in combination with variable doses of neuromuscular blocking agents. All patients developed paralysis of spinal nerve-innervated muscles. On the other hand, cranial nerve-innervated muscle and sensory and cognitive functions were well maintained after discontinuation of treatment with neuromuscular blocking agents. INTERVENTION: Muscle biopsy samples were obtained and electrophysiologic examinations were performed in all patients. MEASUREMENTS AND MAIN RESULTS: The major observations in patients with acute quadriplegic myopathy were, as follows: a) a general decrease in myofibrillar protein content; b) specific but highly variable partial or complete loss of myosin and myosin-associated proteins; c) very low thick-filament/thin-filament protein ratios; d) absence of myosin messenger RNA; and e) a dramatically impaired muscle cell force-generating capacity in the acute phase of acute quadriplegic myopathy. During clinical improvement, normal expression of myosin messenger RNAs, reexpression of thick-filament proteins, and increased specific tension were observed. CONCLUSIONS: Acute quadriplegic myopathy is associated with a specific decrease in thick-filament proteins related to an altered transcription rate. Although the decreased content of thick-filament proteins is important for prolonged muscle weakness, it is not the primary cause of muscle paralysis in the acute stage, during which impaired muscle membrane excitability probably plays a more significant role. Several factors contribute to this condition, but the action of corticosteroids seems to be the predominant one, along with potentiation by neuromuscular blocking agents, immobilization, and probably also concurrent sepsis.

The fetal cleft palate: II. Scarless healing after in utero repair of a congenital model.

The role of fetal surgery in the treatment of non-life-threatening congenital anomalies remains a source of much debate. Before such undertakings can be justified, models must be established that closely resemble the respective human anomalies, and the feasibility and safety of these in utero procedures must be demonstrated. The authors recently described and characterized a congenital model of cleft palate in the goat. The present work demonstrates the methodology they developed to successfully repair these congenital cleft palates in utero, and it shows palatal healing and development after repair. A surgically created cleft model was developed for comparative purposes. Palatal shelf closure normally occurs at approximately day 38 of gestation in the caprine species. Six pregnant goats were gavaged twice daily during gestational days 32 to 41 (term, 145 days) with a plant slurry of Nicotiana glauca containing the piperidine alkaloid anabasine; the 12 fetuses had complete congenital clefts of the secondary palate. Repair of the congenital clefts was performed at 85 days of gestation using a modified von Langenbeck technique employing lateral relaxing incisions with elevation and midline approximation of full-thickness, bilateral, mucoperiosteal palatal flaps followed by single-layer closure. Six congenitally clefted fetuses underwent in utero repair, six remained as unrepaired controls. Twelve normal fetuses underwent surgical cleft creation by excision of a 20 x 3 mm full-thickness midline section of the secondary palate extending from the alveolus to the uvula, at 85 days of gestation. Six surgically clefted fetuses underwent concurrent repair of the cleft at that time; six clefted fetuses remained as unrepaired controls. At 2 weeks of age, no congenitally or surgically created clefts repaired in utero demonstrated gross or histologic evidence of scar formation. A slight indentation at the site of repair was the only remaining evidence of a cleft. At 6 months of age, normal palatal architecture, including that of mucosal, muscular, and glandular elements, was seen grossly and histologically. Cross-section through the mid-portion of the repaired congenitally clefted palates demonstrated reconstitution of a bilaminar palate, with distinct oral and nasal mucosal layers, after single-layer repair. In utero cleft palate repair is technically feasible and results in scarless healing of the mucoperiosteum and velum. The present work represents the first in utero repair of a congenital cleft palate model in any species. The use of a congenital cleft palate model that can be consistently reproduced with high predictability and little variation represents the ideal experimental situation. It provides an opportunity to manipulate specific variables, assess the influence of each change on the outcome and, subsequently, extrapolate such findings to the clinical arena with a greater degree of relevance.

Genetic linkage of Welander distal myopathy to chromosome 2p13.

Welander distal myopathy (WDM) is an autosomal dominant myopathy with late-adult onset characterized by slow progression of distal muscle weakness. The disorder is considered a model disease for hereditary distal myopathies and is almost only seen in Sweden and some parts of Finland. A genomewide screening has been performed in initially two Swedish families with 400 highly polymorphic microsatellite markers. We report here that the disease is linked to chromosome 2p13. Seven additional nonrelated families have subsequently been mapped to the same area where a maximum two-point LOD score of 17.97 was obtained with the marker D2S2113 at 0.0 recombination fraction. The region has been restricted by recombinations and the finding of a common shared haplotype through all analyzed families. This restricts the gene locus region to 2.4 cM. These findings provide evidence for the involvement of a single locus for WDM. The WDM region overlaps with the linkage region for Miyoshi myopathy and limb-girdle muscular dystrophy 2B. The dysferlin gene responsible for these disorders is considered a primary candidate gene for WDM.

A second locus for autosomal dominant myopathy with proximal muscle weakness and early respiratory muscle involvement: a likely chromosomal locus on 2q21.

We recently mapped a locus for a new variant of autosomal dominant myopathy (Swedish families) with proximal muscle weakness, early respiratory muscle involvement, and unique muscle biopsy findings to chromosomal region 2q24-31. In this study, a French family with a similar clinical phenotype and pathology (muscle biopsy) was investigated to see whether the disease gene associated with the myopathy is mapped to the same region as the one in the Swedish families; however, chromosomal region 2q24-q31 was completely excluded. In order to localise the disease gene for the French family, a genome-wide scan was performed using polymorphic microsatellite markers. A maximum two-point lod score of 2.11 (the highest lod score that can be achieved in this family) was obtained for the markers in the region between D2S1272 and D2S1260, spanning 4 cM. This result suggests that the gene responsible for the French form is likely to be located on chromosome 2q21.

Simultaneous analysis of expression of the three myotonic dystrophy locus genes in adult skeletal muscle samples: the CTG expansion correlates inversely with DMPK and 59 expression levels, but not DMAHP levels.

The causative mutation in the majority of cases of myotonic dystrophy has been shown to be the expansion of a CTG trinucleotide repeat, but the mechanism(s) by which this repeat leads to the very complex symptomatology in this disorder remains controversial. We have developed a highly sensitive and quantifiable assay, based on competitive RT-PCR, to test the hypothesis that the expansion disrupts the expression of the genes in its immediate vicinity, DMPK, 59 and DMAHP. In order to avoid cell culture-induced artifacts we performed these experiments using adult skeletal muscle biopsy samples and analysed total cytoplasmic poly(A)+mRNA levels for each gene simultaneously, as this is more physiologically relevant than allele-specific levels. There was considerable overlap between the expression levels of the three genes in myotonic dystrophy patient samples and samples from control individuals. However, in the myotonic dystrophy samples we detected a strong inverse correlation between the repeat size and the levels of expression of DMPK and 59. This is the first report of a possible effect of the CTG expansion on gene 59. Our results indicate that whilst a simple dosage model of gene expression in the presence of the mutation is unlikely to be sufficient in itself to explain the complex molecular pathology in this disease, the repeat expansion may be a significant modifier of the expression of these two genes.

Levels of transforming growth factor alpha (TGF-alpha) in human cerebrospinal fluid.

In this study, we investigated cerebrospinal fluid of patients with various neurological symptoms for the presence of transforming growth factor alpha (TGF-alpha). 41 samples of cerebrospinal fluid were collected by lumbar puncture performed routinely due to the clinical suspicion of neurological disease from 22 females (age 15-80 years, median 42 years) and from 19 males (age 18-82 years, median 48 years). A highly sensitive and specific radioimmunoassay was used to determine the concentration of TGF-alpha in the samples. The detection limit of the assay was about 200 pg TGF-alpha. There was no cross-reactivity to human EGF. We showed CSF indeed does contain TGFalpha. As TGF-alpha was detected in all 41 samples investigated, this growth factor appears to be a constant component of CSF. The mean concentration was 5.5 ng TGF-alpha (S.D. +/- 2.7 pg/ml, range 1.1 to 13.9 pg/ml). There was no significant correlation between TGF-alpha concentration in CSF and age (r = -0.006) and there was no significant difference between females (mean 5.8+/-3.10 pg/ml) and males (mean 5.2+/-1.96 pg/ml). No diagnosis was over represented in patients with TGF-alpha concentrations above or below 1 S.D. off the mean. However, highest concentrations of TGF-alpha were found in the group of patients with peripheral neurological sensory dysfunctions and polyneuropathy. We conclude that TGF-alpha is not only a constant component of human cerebrospinal fluid in adults but could also be significantly involved in the pathophysiology of various neurological diseases. The earlier hypothesis that TGF-alpha could mainly have a role in brain development needs hence to be re-evaluated.

Autosomal dominant myopathy with proximal weakness and early respiratory muscle involvement maps to chromosome 2q.

Two Swedish families with autosomal dominant myopathy, who also had proximal weakness, early respiratory failure, and characteristic cytoplasmic bodies in the affected muscle biopsies, were screened for linkage by means of the human genome screening set (Cooperative Human Linkage Center Human Screening Set/Weber version 6). Most chromosome regions were completely excluded by linkage analysis (LOD score <-2). Linkage to the chromosomal region 2q24-q31 was established. A maximum combined two-point LOD score of 4.87 at a recombination fraction of 0 was obtained with marker D2S1245. Haplotype analysis indicated that the gene responsible for the disease is likely to be located in the 17-cM region between markers D2S2384 and D2S364. The affected individuals from these two families share an identical haplotype, which suggests a common origin.

A symptomatic radial artery anomaly and its surgical treatment.

We report a case in which a bilateral superficial course of the radial artery at the wrist (A. antebrachialis superficialis dorsalis) became symptomatic, requiring surgical intervention bilaterally.

The fetal cleft palate: I. Characterization of a congenital model.

Any animal model of a human congenital anomaly established by iatrogenic methods involving intrauterine fetal manipulation has limited clinical applicability. A congenital model that more closely simulates the etiopathogenesis of a human anomaly may provide data that can more readily be extrapolated to that anomaly and, therefore, be used in diagnostic and management strategies. The present work provides a description and characterization of a congenital model of cleft palate in the goat. Palatal shelf closure normally occurs at approximately day 38 of gestation in the caprine species. Sixteen pregnant goats were gavaged twice daily during gestational days 32 through 41 [term, 145 days] with a plant slurry of Nicotiana glauca containing the piperidine alkaloid teratogen anabasine. Gross analysis and measurement of fetal clefts were performed at 60, 70, and 85 days gestation (four fetuses were studied at each time point). Seventeen clefted kids were sacrificed at specific intervals after birth (2 weeks, and 1, 3, and 6 months); after skull debridement and preparation, they were compared with 12 unclefted control kids. Complete clefting of the secondary palate occurred in 97 percent of the fetuses. In all cases, the cleft extended from the posterior aspect of the alveolar ridge to the uvula; the majority of these clefts were bilateral, with complete detachment of the vomer. Morphologically, these clefts were similar to human clefts. Eighteen percent of clefted newborn kids demonstrated gross maxillary hypoplasia and midfacial retrusion at birth with a relative Class III malocclusion. Direct measurement of the congenital caprine skulls confirmed these findings. The incidence of midfacial growth abnormalities in these clefted animals raises questions regarding the etiopathogenesis of facial dysmorphology that is unrelated to scarring of the maxilla. This congenital cleft palate model is currently being used to explore these questions and others related to craniofacial growth and palatal function after in utero repair.

Increasing its allocations for development cooperation. Sweden. The Hague Forum.

PIP: The 1994 International Conference on Population and Development (ICPD), the Fourth World Conference on Women, and ICPD+5 are but markers along a more long-term path and process of cooperation and dialogue between the world's governments and civil society organizations. Some groups are involved in implementing action, while others focus upon advocacy or act as watchdogs and pathfinders. Civil society organizations need space and financial resources to work upon their issues. In some areas, the ICPD program of action has not achieved what was expected. In particular, almost all countries have considerable work to do on gender equality, the needs of young people, the HIV/AIDS pandemic, and maternal mortality. These issues are discussed. More resources must be allocated to the social services in order to achieve the goals of the Cairo program of action. To that end, the government of Sweden is planning to increase its allocations for development cooperation over the next few years, moving upward from the 0.7 level adopted by the UN.^ieng