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  • Activation of endoproteolytic processing of insulin-like growth factor-II in fetal, early postnatal, and pregnant rats and persistence of circulating levels in postnatal life.

Activation of endoproteolytic processing of insulin-like growth factor-II in fetal, early postnatal, and pregnant rats and persistence of circulating levels in postnatal life.

Endocrinology (2007-07-14)
Qing Qiu, Jin-Yi Jiang, Michael Bell, Benjamin K Tsang, Andrée Gruslin
ZUSAMMENFASSUNG

The process of posttranslational modifications of IGF-II likely has important physiological consequences. In addition to mature IGF-II, glycosylated proIGF-II(156-amino acid peptide) and two glycosylated big IGF-II forms, IGF-II(1-104) and IGF-II(1-87), have been identified in the human circulation. Due to lack of an appropriate methodology, different IGF-II isoforms have not been demonstrated and characterized in the rat circulation, thus preventing a better understanding of the physiological and pathological roles of IGF-II. In the present study, we characterized each IGF-II form and assessed its content in the rat circulation throughout life time by using a highly sensitive Western blot analysis, which is void of the IGF binding protein interference and distinguished all IGF-II forms. For the first time, we demonstrated the presence of IGF-II variants, including proIGF-II, IGF-II(1-87), and mature IGF-II, in the rat circulation during postnatal life, challenging the current impression that IGF-II is absent from sera of adult rats. ProIGF-II is glycosylated and is the predominant form in the rat circulation. Endoproteolytic processing of proIGF-II was clearly activated in fetal, neonatal, and pregnant rats, likely reflecting its involvement in fetal development through the generation of specific forms of IGF-II (e.g. mature IGF-II) that are required for their distinct biological functions. Taken together, our data also suggest that serum IGF-II profiles may reflect underlying physiological conditions.

MATERIALIEN
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Marke
Produktbeschreibung

Sigma-Aldrich
Anti-IGF-2-Antikörper, Klon S1F2, clone S1F2, Upstate®, from mouse