Syncytin-1 in differentiating human myoblasts

Department of Plant and Environmental Sciences

Syncytin-1 in differentiating human myoblasts: relationship to caveolin-3 and myogenin

Research output: Contribution to journal › Journal article › Research › peer-review

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Syncytin-1 in differentiating human myoblasts : relationship to caveolin-3 and myogenin. / Bjerregard, Bolette; Ziomkiewicz, Iwona; Schulz, Alexander; Larsson, Lars-Inge.

In: Cell and Tissue Research, Vol. 357, No. 1, 2014, p. 355-362.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Bjerregard, B, Ziomkiewicz, I, Schulz, A & Larsson, L-I 2014, 'Syncytin-1 in differentiating human myoblasts: relationship to caveolin-3 and myogenin', Cell and Tissue Research, vol. 357, no. 1, pp. 355-362. https://doi.org/10.1007/s00441-014-1930-9

APA

Bjerregard, B., Ziomkiewicz, I., Schulz, A., & Larsson, L-I. (2014). Syncytin-1 in differentiating human myoblasts: relationship to caveolin-3 and myogenin. Cell and Tissue Research, 357(1), 355-362. https://doi.org/10.1007/s00441-014-1930-9

Vancouver

Bjerregard B, Ziomkiewicz I, Schulz A, Larsson L-I. Syncytin-1 in differentiating human myoblasts: relationship to caveolin-3 and myogenin. Cell and Tissue Research. 2014;357(1):355-362. https://doi.org/10.1007/s00441-014-1930-9

Author

Bjerregard, Bolette ; Ziomkiewicz, Iwona ; Schulz, Alexander ; Larsson, Lars-Inge. / Syncytin-1 in differentiating human myoblasts : relationship to caveolin-3 and myogenin. In: Cell and Tissue Research. 2014 ; Vol. 357, No. 1. pp. 355-362.

Bibtex

@article{e7cf49d1361849e88886e9c6f979c46f,

title = "Syncytin-1 in differentiating human myoblasts: relationship to caveolin-3 and myogenin",

abstract = "Myoblasts fuse to form myotubes, which mature into skeletal muscle fibres. Recent studies indicate that an endogenous retroviral fusion gene, syncytin-1, is important for myoblast fusions in man. We have now expanded these data by examining the immunolocalization of syncytin in human myoblasts induced to fuse. Additionally, we have compared the localization of syncytin with the localization of caveolin-3 and of myogenin, which are also involved in myoblast fusion and maturation. Syncytin was localized to areas of the cell membrane and to filopodial structures connecting myoblasts to each other and to myotubes. Weaker staining was present over intracellular vesicles and tubules. Caveolin-3 was detected in the sarcolemma and in vesicles and tubules in a subset of myoblasts and myotubes. The strongest staining occurred in multinucleated myotubes. Wide-field fluorescence microscopy indicated a partial colocalization of syncytin and caveolin-3 in a subset of myoblasts. Super-resolution microscopy showed such colocalization to occur in the sarcolemma. Myogenin was restricted to nuclei of myoblasts and myotubes and the strongest staining occurred in multinucleated myotubes. Syncytin staining was observed in both myogenin-positive and myogenin-negative cells. Antisense treatment downmodulated syncytin-1 expression and inhibited myoblast cell fusions. Importantly, syncytin-1 antisense significantly decreased the frequency of multinucleated myotubes demonstrating that the treatment inhibited secondary myoblast fusions. Thus, syncytin is involved in human myoblast fusions and is localized in areas of contact between fusing cells. Moreover, syncytin and caveolin-3 might interact at the level of the sarcolemma.",

keywords = "Caveolin 3, Cell Differentiation, Cells, Cultured, Gene Products, env, Humans, Male, Muscle, Skeletal, Myoblasts, Myogenin, Pregnancy Proteins, Transfection",

author = "Bolette Bjerregard and Iwona Ziomkiewicz and Alexander Schulz and Lars-Inge Larsson",

year = "2014",

doi = "10.1007/s00441-014-1930-9",

language = "English",

volume = "357",

pages = "355--362",

journal = "Cell and Tissue Research",

issn = "0302-766X",

publisher = "Springer",

number = "1",

}

RIS

TY - JOUR

T1 - Syncytin-1 in differentiating human myoblasts

T2 - relationship to caveolin-3 and myogenin

AU - Bjerregard, Bolette

AU - Ziomkiewicz, Iwona

AU - Schulz, Alexander

AU - Larsson, Lars-Inge

PY - 2014

Y1 - 2014

N2 - Myoblasts fuse to form myotubes, which mature into skeletal muscle fibres. Recent studies indicate that an endogenous retroviral fusion gene, syncytin-1, is important for myoblast fusions in man. We have now expanded these data by examining the immunolocalization of syncytin in human myoblasts induced to fuse. Additionally, we have compared the localization of syncytin with the localization of caveolin-3 and of myogenin, which are also involved in myoblast fusion and maturation. Syncytin was localized to areas of the cell membrane and to filopodial structures connecting myoblasts to each other and to myotubes. Weaker staining was present over intracellular vesicles and tubules. Caveolin-3 was detected in the sarcolemma and in vesicles and tubules in a subset of myoblasts and myotubes. The strongest staining occurred in multinucleated myotubes. Wide-field fluorescence microscopy indicated a partial colocalization of syncytin and caveolin-3 in a subset of myoblasts. Super-resolution microscopy showed such colocalization to occur in the sarcolemma. Myogenin was restricted to nuclei of myoblasts and myotubes and the strongest staining occurred in multinucleated myotubes. Syncytin staining was observed in both myogenin-positive and myogenin-negative cells. Antisense treatment downmodulated syncytin-1 expression and inhibited myoblast cell fusions. Importantly, syncytin-1 antisense significantly decreased the frequency of multinucleated myotubes demonstrating that the treatment inhibited secondary myoblast fusions. Thus, syncytin is involved in human myoblast fusions and is localized in areas of contact between fusing cells. Moreover, syncytin and caveolin-3 might interact at the level of the sarcolemma.

AB - Myoblasts fuse to form myotubes, which mature into skeletal muscle fibres. Recent studies indicate that an endogenous retroviral fusion gene, syncytin-1, is important for myoblast fusions in man. We have now expanded these data by examining the immunolocalization of syncytin in human myoblasts induced to fuse. Additionally, we have compared the localization of syncytin with the localization of caveolin-3 and of myogenin, which are also involved in myoblast fusion and maturation. Syncytin was localized to areas of the cell membrane and to filopodial structures connecting myoblasts to each other and to myotubes. Weaker staining was present over intracellular vesicles and tubules. Caveolin-3 was detected in the sarcolemma and in vesicles and tubules in a subset of myoblasts and myotubes. The strongest staining occurred in multinucleated myotubes. Wide-field fluorescence microscopy indicated a partial colocalization of syncytin and caveolin-3 in a subset of myoblasts. Super-resolution microscopy showed such colocalization to occur in the sarcolemma. Myogenin was restricted to nuclei of myoblasts and myotubes and the strongest staining occurred in multinucleated myotubes. Syncytin staining was observed in both myogenin-positive and myogenin-negative cells. Antisense treatment downmodulated syncytin-1 expression and inhibited myoblast cell fusions. Importantly, syncytin-1 antisense significantly decreased the frequency of multinucleated myotubes demonstrating that the treatment inhibited secondary myoblast fusions. Thus, syncytin is involved in human myoblast fusions and is localized in areas of contact between fusing cells. Moreover, syncytin and caveolin-3 might interact at the level of the sarcolemma.

KW - Caveolin 3

KW - Cell Differentiation

KW - Cells, Cultured

KW - Gene Products, env

KW - Humans

KW - Male

KW - Muscle, Skeletal

KW - Myoblasts

KW - Myogenin

KW - Pregnancy Proteins

KW - Transfection

U2 - 10.1007/s00441-014-1930-9

DO - 10.1007/s00441-014-1930-9

M3 - Journal article

C2 - 24902667

VL - 357

SP - 355

EP - 362

JO - Cell and Tissue Research

JF - Cell and Tissue Research

SN - 0302-766X

IS - 1

ER -

ID: 138899430