Abstract
Corticosteroid-binding globulin (CBG) is a glycoprotein that functions as a specific
carrier of cortisol in the circulation. CBG contains six sites for N-glycosylation
with, on average, five sites occupied by a mixture of biantennary and triantennary
oligosaccharides with variable additional terminal sialic acid residues leading to
glycoforms with significant heterogeneity in mass and isoelectric points. During pregnancy,
a form of CBG possessing only triantennary oligosaccharides comprising approximately
10 % of total CBG appears specifically. We describe the first application of two-dimensional
gel electrophoresis to the separation of human CBG glycoforms. This technique resolved
a greater degree of charge heterogeneity than previous studies, and allowed simultaneous
visualization of changes to the size and isoelectric points of CBG during pregnancy.
Profiles of CBG glycoforms during pregnancy showed a general increase in size followed
by a shift to lower pI in a large proportion of the glycoprotein. This may result
from the enhancement of triantennary glycosylation, with the extent of incorporation
of sialic acid increasing with the number of available sites for its addition. The
pregnancy-specific CBG previously defined probably represents a subset of the acidic
and high molecular weight glycoforms we have resolved by two-dimensional electrophoresis
and now describe as pregnancy-associated CBG.
Key words
Glycosylation - Glycoforms - Isoelectric focussing - Two-dimensional electrophoresis
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Dr. D. Torpy
Endocrine and Metabolic Unit · Royal Adelaide Hospital
Adelaide, SA 5000 · Australia ·
Phone: + 61 (8) 82 22 55 20
Fax: + 61 (8) 82 22 59 08
Email: dtorpy@mail.rah.sa.gov.au
