Cristina Presotto scite author profile

Cristina Presotto

3Publications

63Citation Statements Received

58Citation Statements Given

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University of Padua

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Dystrophin is phosphorylated by endogenous protein kinases

Luise

Presotto

Senter

et al. 1993

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Dystrophin, the protein coded by the gene missing in Duchenne muscular dystrophy, is assumed to be a component of the membrane cytoskeleton of skeletal muscle. Like other cytoskeletal proteins in different cell types, dystrophin bound to sarcolemma membranes was found to be phosphorylated by endogenous protein kinases. The phosphorylation of dystrophin was activated by cyclic AMP, cyclic GMP, calcium and calmodulin, and was inhibited by cyclic AMP-dependent protein kinase peptide inhibitor, mastoparan and heparin. These results suggest that membrane-bound dystrophin is a substrate of endogenous cyclic AMP- and cyclic GMP-dependent protein kinases, calcium/calmodulin-dependent kinase and casein kinase II. The possibility that dystrophin could be phosphorylated by protein kinase C is suggested by the inhibition of phosphorylation by staurosporin. On the other hand dystrophin seems not to be a substrate for protein tyrosine kinases, as shown by the lack of reaction of phosphorylated dystrophin with a monoclonal antiphosphotyrosine antibody. Sequence analysis indicates that dystrophin contains seven potential phosphorylation sites for cyclic AMP- and cyclic GMP-dependent protein kinases (all localized in the central rod domain of the molecule) as well as several sites for protein kinase C and casein kinase II. Interestingly, potential sites of phosphorylation by protein kinase C and casein kinase II are located in the proximity of the actin-binding site. These results suggest, by analogy with what has been demonstrated in the case of other cytoskeletal proteins, that the phosphorylation of dystrophin by endogenous protein kinases may modulate both self assembly and interaction of dystrophin with other cytoskeletal proteins in vivo.

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Interaction of Dystrophin with Cytoskeletal Proteins: Binding to Talin and Actin

Senter

Luise

Presotto

et al. 1993

Biochemical and Biophysical Research Communications

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A Novel Muscle Protein Located inside the Terminal Cisternae of the Sarcoplasmic Reticulum

Presotto

Agnolucci

Biral³

et al. 1997

Journal of Biological Chemistry

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An immunofluorescence study of adult rat muscle tissues with a polyclonal antibody against the RGD-directed fibronectin receptor of Friend's erythroleukemia cells (␣ 5 ␤ 1 -integrin) unexpectedly revealed a pattern of intracellular antigen distribution. Western blotting analysis of rat and rabbit membrane fractions indicated that the antibody recognizes a 167-kDa protein expressed both in heart and in skeletal muscle (relative abundance: heart > slow muscle > fast muscle), but not in liver and kidney. The 167-kDa protein did not show altered electrophoretic mobility upon reduction and failed to bind several lectins, including wheat germ agglutinin. A study of its subcellular distribution in rabbit skeletal muscle revealed that the 167-kDa protein is mostly associated with the terminal cisternae of the sarcoplasmic reticulum (SR) and, to a smaller extent, with the sarcolemma, while it is absent in the longitudinal tubules of the SR. The 167-kDa protein is not an integral membrane protein since it can be extracted at pH 10. This protein can be proteolytically cleaved only in the presence of detergent, indicating that it resides on the luminal side of the SR. The 167-kDa protein could be resolved from the closely spaced sarcalumenin and histidine-rich protein by column chromatography followed by detergent dialysis and two-dimensional gel electrophoresis. The N terminus and the internal sequences did not match any known sequence in protein and DNA data bases, indicating that the 167-kDa protein is a novel muscle protein selectively localized to the SR. Integrins from rat kidney fibroblasts were not recognized by either (i) a polyclonal antiserum against the purified 167-kDa protein or (ii) the anti-␣ 5 ␤ 1 -integrin antiserum after affinity purification onto the 167-kDa protein. These data indicate that the 167-kDa protein is not immunologically cross-reactive with integrins, despite its reaction with a polyclonal anti-integrin antibody.Skeletal muscle is a specialized tissue converting chemical energy into mechanical work. For this reason, both the endoand exosarcomeric compartments are equipped with a very well developed cytoskeleton, ensuring structural stability to the sarcomeres and to the myofibrils (1). In addition, skeletal muscle is equipped with a complex meshwork of skeletal muscle proteins, ensuring mechanical stability to the sarcolemma. Mechanical stress of membrane cytoskeletal actin filaments can be discharged to the extracellular matrix in at least two ways: the first is represented by the ␣-and ␤-dystroglycan complex, which binds dystrophin and actin-binding protein at the cytoplasmic side of the sarcolemma and merosin at the extracellular matrix side; the second is represented by vinculin (2), talin, spectrin, and ankyrin localized to the costameres (3, 4).In recent years, it has become clear that integrins play a major role in mediating interactions of muscle cells with the extracellular matrix and in muscle differentiation. Integrin receptors are heterodimeric transmembrane glycoproteins compose...

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