J. Linggen scite author profile

J. Linggen

2Publications

19Citation Statements Received

26Citation Statements Given

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Affiliations

Montreal Clinical Research Institute, State Council of the People's Republic of China

Publications

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Alterations in antigenic structure of gonadotropins following deglycosylation

Sairam

Linggen

Bhargavi

1988

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Radioimmunological techniques were utilized to probe possible changes in conformation of gonadotropins (human chorionic gonadotropin--hCG; and ovine luteinizing hormone--oLH) following chemical deglycosylation (DG-hCG and DG-LH). All antisera produced in rabbits, rats or mice contained antibodies that were specific to the deglycosylated hormones with the native hormones showing weak and non-parallel cross-reaction (less than 5%), but with rabbit antibodies to native hormones the deglycosylated hormones were fully reactive. Using hCG, asialo-hCG (A-hCG) and DG-hCG, we have shown that removal of sugars internal to sialic acid is required to produce these specific antibodies. These are in complete agreement with the observations that extensive deglycosylation of these hormones is necessary to induce changes in biological activity at the cellular level. Based on these data, we suggest that chemical deglycosylation results in changes in antigenic structure of these hormones by generation of new determinants or exposure of previously buried sites and these changes are of no consequence to receptor recognition.

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Influence of carbohydrates on the antigenic structure of gonadotropins: distinction of agonists and antagonists

Sairam¹,

Linggen²,

Sairam³

et al. 1990

Biochem. Cell Biol.

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The biological properties of glycosylated (native) and deglycosylated gonadotropins are different. The immunological characteristics of antibodies prepared against deglycosylated lutropin and human chorionic gonadotropin were investigated. Distinct antibodies of rabbit polyclonal antisera against deglycosylated lutropin and deglycosylated chorionic gonadotropin were separated by affinity chromatography on divinylsulfonyl-Sepharose-immobilized hormone or antagonist columns, respectively, in successive runs. Antibodies that could discriminate between agonist and antagonistic forms of the hormones could thus be obtained. In radioimmunoassays using 125I-labeled antagonists and respective antagonist antibodies, only the deglycosylated hormones or their deglycosylated alpha-subunits showed preferential reaction. Based on recombinations using different deglycosylated subunits, it was concluded that the loss of antennary sugars in the alpha-subunits was mainly responsible for the changes that led to the formation of antagonist-specific antibodies. Only the agonist-specific antibody could neutralize hormone action. Thus, the type and extent of glycosylation appears to influence the antigenic structure of these secreted glycoproteins.

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J. Linggen

Alterations in antigenic structure of gonadotropins following deglycosylation

Influence of carbohydrates on the antigenic structure of gonadotropins: distinction of agonists and antagonists

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