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  • Title: The dystrophic murine skeletal muscle cell plasma membrane is structurally intact but "leaky" to creatine phosphokinase. A freeze-fracture analysis.
    Author: Shivers RR, Atkinson BG.
    Journal: Am J Pathol; 1984 Sep; 116(3):482-96. PubMed ID: 6476081.
    Abstract:
    Skeletal muscle cells of genetically dystrophic mice (dy/dy) of the REJ-129 Bar Harbor strain exhibit reduced cytoplasmic levels of the enzyme creatine phosphokinase (CPK) when compared with normal (+/+) mice following SDS-gel electrophoresis of sarcoplasmic proteins. This observation has been thought to reflect "leakage" of CPK from dystrophic muscle cells through lesions in the sarcolemma. The present study has employed the freeze-fracture method to examine vast expanses of sarcolemma fracture face for determination of whether lesions do exist in the membrane or an alternate route is present for extravasation of CPK from dystrophic muscle cells. Most of the dystrophic cells examined in this study appeared intact and were therefore presumed viable. The intramembrane lipoprotein particles characteristic of PF-fracture face membrane were reduced in dystrophic as compared with normal murine skeletal muscle, and the plasmalemma possessed a greatly amplified population of caveolae as compared with nondiseased sarcolemma. No abnormal structural feature of these dystrophic muscle plasma membranes could be interpreted as a perforating focal "delta" lesion, such as the structures seen in thin plastic sections by other investigators. However, a second group of cells, generally few in number, that exhibited features indicative of necrosis (and loss of viability), were seen in both thin sections and platinum replicas. These moribund cells were usually embedded in dense sheaves of connective tissue along with other dystrophic cells that lacked signs of necrosis. The cytoplasm of the necrotic muscle cells was disorganized, as was the contractile machinery. The sarcolemma showed numerous perforations, through which CPK could escape into the tissue extracellular compartment. We conclude on the basis of our observations that the "focal lesions" reported by other investigators are not a structural feature of viable dystrophic muscle cell plasma membranes and are found only in necrotic or dying cells, and that the elevated serum levels of CPK associated with muscular dystrophy may result either from escape of the enzyme through lesions present in necrotic or dying cells or by extravasation along avenues provided by the hyperplastic mass of membrane caveolae present in dystrophic sarcolemma.
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