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  • Mitochondria  (5)
  • Immunohistochemistry  (4)
  • 1
    ISSN: 1432-0533
    Keywords: Cytoplasmic body myopathy ; Immunohistochemistry ; Desmin ; Intermediate filaments ; Actin filaments
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary In a fine structural and immunocytochemical study, the latter performed on semithin sections of epoxy resin embedded skeletal muscle fibers, three types of cytoplasmic bodies were identified in a case of cytoplasmic body myopathy: (1) The first type, the classical type, showed a central core and a light halo with radiating actin filaments at the periphery. (2) The second type, the spheroid body was characterized by irregularly arranged granular masses associated with intermediate filaments. Desmin immunoreactivity occurred in the central and peripheral parts, where filaments of intermediate size were visualized by electron microscopy. Desmin immunoreactivity was noted also at the Z-bands of striated annulets, within areas of disordered myofibrils, such as sarcoplasmic masses, and in atrophic muscle fibers. (3) The third type of the cytoplasmic body was composed mainly of large masses of uneven granularity and electron density. The center of this type reacted to anti-actin antibody suggesting that the 5- to 6-nm filaments, which ultrastructurally proved to be a major component, were of the actin type. By contrast, neither intermediate filaments nor actin microfilaments were found by electron microscopy in cytoplasmic bodies in a second case where no immunoreaction to desmin or actin occurred. Anti-vimentin antibody stained only the cytoplasm of endomysial cells, but not the inclusion bodies. Some other, unusual inclusions with 18- to 20-nm tubulo-filamentous structures have to be distinguished from the various types of filaments in cytoplasmic bodies. It is concluded, that pleomorphism and heterogeneity of “cytoplasmic bodies” have to be taken into consideration when classifying cytoplasmic body myopathies.
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  • 2
    ISSN: 1432-0533
    Keywords: Key words: Perineurial cells ; Nerve regeneration ; Immunohistochemistry ; Epithelial membrane antigen
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Abstract Perineurial cells are specialized connective tissue cells that form a barrier between endoneurium and epineurium in normal nerves. In the present study, the formation of the perineurium after transection of rat sciatic nerves was investigated. The cord bridging the gap between proximal and distal stumps through silicone tubes was studied 3, 7, 12, 18, and 21 days after surgery using electron microscopy and antibodies against epithelial membrane antigen (EMA), a marker for perineurial cells that has thus far not been applied to the study of differentiating cells in nerve tubulation systems. Initially, a thin cord consisting of fibrin bridged the gap between the stumps. At 7 days, longitudinal cells had migrated from both stumps toward the center of the tubes on the surface of the fibrin cord. These cells were immunoreactive with anti-EMA. At 12 days, ultrastructural features of perineurial cells (desmosomes, tight junctions, actin filaments with dense bodies, tonofilaments) were prominent in these cells. Subsequently, the gap was bridged through the perineurial tube by endothelial cells, pericytes, fibroblasts, Schwann cells, and axons. At 21 days, a single large nerve fascicle ensheathed by a mature perineurium was found between the stumps. Thus, the first cells to connect proximal and distal stumps in the investigated nerve regeneration silicon chamber system are perineurial cells. Through the tube formed by these cells, blood vessels and nerve fibers bridge the gap. Therefore, establishment of a perineurial connection between nerve stumps appears to be important in the sequence of events during nerve regeneration.
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  • 3
    ISSN: 1432-0533
    Keywords: Perineurial cells ; Nerve regeneration ; Immunohistochemistry ; Epithelial membrane antigen
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Abstract Perineurial cells are specialized connective tissue cells that form a barrier between endoneurium and epineurium in normal nerves. In the present study, the formation of the perineurium after transection of rat sciatic nerves was investigated. The cord bridging the gap between proximal and distal stumps through silicone tubes was studied 3, 7, 12, 18, and 21 days after surgery using electron microscopy and antibodies against epithelial membrane antigen (EMA), a marker for perineurial cells that has thus far not been applied to the study of differentiating cells in nerve tubulation systems. Initially, a thin cord consisting of fibrin bridged the gap between the stumps. At 7 days, longitudinal cells had migrated from both stumps toward the center of the tubes on the surface of the fibrin cord. These cells were immunoreactive with anti-EMA. At 12 days, ultrastructural features of perineurial cells (desmosomes, tight junctions, actin filaments with dense bodies, tonofilaments) were prominent in these cells. Subsequently, the gap was bridged through the perineurial tube by endothelial cells, pericytes, fibroblasts, Schwann cells, and axons. At 21 days, a single large nerve fascicle ensheathed by a mature perineurium was found between the stumps. Thus, the first cells to connect proximal and distal stumps in the investigated nerve regeneration silicon chamber system are perineurial cells. Through the tube formed by these cells, blood vessels and nerve fibers bridge the gap. Therefore, establishment of a perineurial connection between nerve stumps appears to be important in the sequence of events during nerve regeneration.
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  • 4
    ISSN: 1432-0533
    Keywords: Key words Zidovudine ; Myopathy ; Nucleus ; Mitochondria ; AIDS
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Abstract Long-term zidovudine (also termed azidothymidine, AZT) treatment of AIDS patients may cause severe myopathy characterized by conspicuous mitochondrial and nuclear changes. The mitochondrial changes are attributed to an inhibitory effect of AZT on the mitochondrial γ-polymerase in a variety of cells. Inhibition of the nuclear α-polymerase is another well-known side effect of AZT, whereas the (nuclear) β-polymerase appears to be rather insensitive. The nuclear changes seen in AIDS patients are usually considered secondary to the human immunodeficiency virus infection. To eliminate the influence of the virus on the nuclei, we studied the effect of AZT on non-infected, organotypic co-cultures of spinal ganglia, spinal cord, and skeletal muscle from fetal rats. We noted significant changes not only in the mitochondria but also in the nuclei of spinal ganglia, spinal cord, and muscle cells, which depended more on the duration of AZT application (1, 3, 5, and 8 days) than on the concentration (0.1, 1, 10, 100 and 1000 μM). The alterations of the mitochondria consisted mainly of swelling, loss of cristae and, finally, disappearance. The nuclei showed nucleolar segregation, marginal condensation of heterochromatin, formation of interchromatin and perichromatin granules, nuclear protrusions and pseudoinclusions and, finally, disintegration. The changes were not as pleomorphic as those seen in biopsy specimens from AIDS patients who had received long-term treatment with AZT. However, this difference can easily be attributed to the short duration of drug application in tissue culture compared to the long-term medication in patients.
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  • 5
    ISSN: 1432-0533
    Keywords: Zidovudine ; Myopathy ; Nucleus ; Mitochondria ; AIDS
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary Zidovudine (formerly azidothymidine) is a potent inhibitor of the human immunodeficiency virus (HIV) reverse transcriptase and represents the first approved drug showing clinical efficacy in HIV-associated diseases. However, considerable toxicity causing macrocytic anemia, neutropenia, and myopathy has been reported, with severe mitochondrial alterations as a special feature of this myopathy. The mitochondrial changes are consistent with the fact that zidovudine acts as an inhibitor of the mitochondrial gamma-polymerase. Electron microscopically, we could confirm the presence of severely altered mitochondria in a 32-year-old male, who developed a necrotizing myopathy after daily administration of 1,000 mg zidovudine over a period of 15 months. In addition, there were even more severe nuclear changes that, for the most part, have not been documented electron microscopically in HIV-related myopathy either with or without zidovudine treatment, especially in non-necrotic and non-regenerating fibers. Since various in vitro studies have shown interference of zidovudine with nuclear DNA metabolism even in human cell lines, we assume that the nuclear changes that we observed are at least in part related to zidovudine treatment.
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  • 6
    ISSN: 1432-0533
    Keywords: Muscle spindle ; Denervation ; Reinnervation ; Muscle fiber atrophy ; Mitochondria
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary The fine structure of normal, denervated, and reinnervated muscle spindles in lower lumbrical muscles of rats was studied morphometrically at time intervals ranging from 3–14 months. In control spindles, the mean transverse area of mitochondria was estimated to be more than twice as large in nuclear chain than in typical nuclear bag fibers. Following denervation, there was a severe decrease of the mean number and transverse area of mitochondria, and a moderate, but statistically significant decrease of the mean transverse area of intrafusal muscle fibers (IMFs) despite an increase of the number of IMFs. At 12–14 months of reinnervation, changes of the transverse areas of IMFs were statistically insignificant, but the mean values for the mitochondria were incompletely restored. At 4×3 months, after fourfold repeated crush injuries to the nerve, most of the values estimated (transverse area of mitochondria; number, shape, and transverse area of IMFs and nuclei) tended to approach those in denervated rather than in reinnervated IMFs. The differences of the reactions of intra- and extrafusal muscle fibers following complete motor and sensory denervation appeared to be in accordance with their normal dimensional dissimilarities.
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  • 7
    Electronic Resource
    Electronic Resource
    Springer
    Acta neuropathologica 16 (1970), S. 324-341 
    ISSN: 1432-0533
    Keywords: Spinal Cord ; Spinal Ganglia ; Neuromuscular Spindles ; Mitochondria ; Isoniazid
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Description / Table of Contents: Zusammenfassung Entgegen anderslautender Angaben in der Literatur werden bei der INH-Neuropathie auch die sensorischen Nervenendigungen in den Muskelspindeln betroffen. Die Veränderungen bestehen in einem Verlust der synaptischen Vesikel, in Mitochondrienschwellungen und-Verdichtungserscheinungen, in terminalen Axonfragmentationen und Reaktionen der zugehörigen intrafusalen Muskelfasern. Außerdem lassen sich schon in frühesten Stadium der INH-Neuropathie, am 4. Tag nach Beginn der INH-Applikation, Veränderungen in den lumbosacralen Spinalganglien und im Rückenmark nachweisen. Die Veränderungen in den Perikaryen gleichen denen bei der retrograden Zellveränderung weitgehend. Über die Spezifität der Alterationen an den sensorischen Nervenendigungen ist vorest keine sichere Aussage möglich, da vergleichbare Untersuchungen über pathologisch veränderte Muskelspindeln, insbesondere nach der einfachen Durchschneidung des Nerven, bisher fehlen.
    Notes: Summary In INH-neuropathy sensory nerve endings of distal muscle spindles may be severely altered. The changes are characterized by a disappearance of synaptic vesicles, mitochondrial swelling or condensation, fragmentation of axon terminals and reactions of the corresponding intrafusal muscle fibers. Also, occasional alterations in lumbosacral spinal ganglia and spinal cord were seen occurring already in the initial stage of INH-neuropathy at the 4th day after the beginning of INH application. The perikaryal changes resemble those of the retrograde cell reaction. Any specificness of the alterations seen in the sensory endings of muscle spindles cannot be ruled out at the present time since there are no comparable fine structural studies of pathological alterations in muscle spindles after simple nerve section or other nerve lesions.
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  • 8
    Electronic Resource
    Electronic Resource
    Springer
    Acta neuropathologica 15 (1970), S. 156-175 
    ISSN: 1432-0533
    Keywords: Peripheral Nerve ; Nerve Degeneration ; Axon ; Mitochondria ; Isoniazid
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Description / Table of Contents: Zusammenfassung Im N. ischiadicus der Ratte kommen etwa doppelt so viele marklose als markhaltige Nervenfasern vor. Das normale zahlenmäßige Verhältnis dieser beiden Fasertypen schwankt in weiten Grenzen. Schon im ungeschädigten Nerven lassen sich bereits an einzelnen marklosen Nervenfasern verschiedenartige regressive Veränderungen wie Strukturverlust und perlschnurförmige Auftreibungen nachweisen; sie sind in der Regel von akuten, toxisch bedingten Veränderungen durch das Fehlen charakteristischer Schwann-Zellreaktionen zu differenzieren. Bei der INH-Neuropathie degenerieren anfangs im Verhältnis zu den markhaltigen nur wenige marklose Nervenfasern. Einige marklose Axone können unregelmäßig konturiert, geschwollen oder geschrumpft erscheinen; dabei lösen sich die Tubuli und Filamente auf; in manchen Fällen verdichtet sich ausch das Axolemm. Die Axonveränderungen werden von Störungen der normalen Axon-Schwann-Zellrelation begleitet. In den Anfangsstadien können manche Schwann-Zellen hochgradig deformiert sein; später verlieren sie ihre Oberflächendifferenzierung und runden sich (auf dem Querschnitt) ab. In der Regel zeigen die marklosen Nervenfasern bei der INH-Neuropathie die gleichen Veränderungen und Störungen der Axon-Schwann-Zellrelation wie bei der Wallerschen Degeneration. Extreme prolapsartige Verformungen von Axonen und Schwann-Zellen sowie mitochondriale Granula haben wir jedoch nur bei der INH-Neuropathie, nicht aber bei der Wallerschen Degeneration beobachtet.
    Notes: Summary In sciatic nerves of rats, there are more than twice as much unmyelinated than myelinated axons. Their ratio varies in a wide range from one area to the other. Some regressive changes are seen already in unmyelinated axons of normal controls (loss of structural components, axonal beading). Usually, these alterations can be distinguished from early experimental lesions by the lack of characteristic Schwann cell reactions. In the beginning of INH-neuropathy, fewer unmyelinated than myelinated nerve fibers are degenerating. Some of the unmyelinated axons may become irregularily folded, swollen, or shrunken while there is a progressive loss of tubules, filaments, normal mitochondria, and sometimes an increase in the thickness of the axolemma. The axonal changes are accompanied by a disturbance of the normal axon-Schwann cell relation. Initially, some Schwann cells may become extremely irregular; later they lose their surface differentiation while their cross sectional contour becomes rather rounded. In general, unmyelinated axons in INH-neuropathy show similar alterations and disturbances of the axon-Schwann cell relation as seen in Wallerian degeneration. Yet extremely deformed unmyelinated nerve fibers, axons as well as Schwann cells, and mitochondrial granules were only observed in INH-neuropathy.
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  • 9
    ISSN: 1432-1459
    Keywords: Mitochondrial myopathy ; Ragged-red fibres ; Immunohistochemistry
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary An immunohistochemical method is reported using the M-II68 monoclonal antibody, which detects mitochondrial accumulations (“ragged-red fibres”) in routinely processed (formalin-fixed, paraffin-embedded) muscle tissue. Ten cases with electron-microscopically and histochemically proven mitochondrial myopathy featured 4% to 24% ragged-red fibres. In a series of 50 muscle biopsies without mitochondrial myopathy, scattered ragged-red fibres (〈0.1%) were present in a few normal and pathological muscles. The immunohistochemical method is specific for mitochondria, does not require frozen tissue and permits rapid examination of large areas.
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