In order to identify the molecular weight forms of bioactive and immunoactive inhibin in human plasma, plasma/serum was sequentially fractionated by immunoaffinity chromatography (using immobilised inhibin α subunit antiserum), reversed phase HPLC and preparative SDS-PAGE. The electroeluted gel fractions were assayed for inhibin in vitro bioactivity and immunoactivity, the latter by RIA. Initial experiments examined human follicular fluid as an inhibin-rich source. Bioactive and immunoactive fractions of 30, 35, 53, 65 and ∼120 kDa were identified in addition to bio-inactive, immunoactive fractions of 26 kDa and 32 kDa. These molecular weights correspond to those of known inhibin forms and are attributed to differing degrees of glycosylation of the inhibin α subunit and variable processing of the α and β inhibin subunits.
Fractionation of male plasma pools revealed the presence of higher molecular weight immunoactive forms (55–120 kDa) as well as 28–31 kDa forms although the molecular weight distribution of activity between pools varied. To assess if the molecular weight pattern was modified by storage and/or subsequent fractionation, protease inhibitors were added initially to plasma and fractionated as above. The molecular weight distribution of immunoactivity was largely unaffected by the treatment, indicating that minimal processing had occurred. Postmenopausal serum itself showed low to undetectable activity. The addition of recombinant human 31 kDa inhibin to postmenopausal serum resulted in a molecular weight profile of inhibin immunoactivity consistent with the presence of 31 kDa inhibin. Fractionation of a serum pool from women undergoing gonadotrophin stimulation, in which inhibin levels were elevated, showed a range of bioactive and immunoactive inhibin forms over the 30–120 kDa range. A good correspondence between activities was observed.
It is concluded that: 1. inhibin exists in plasma/serum as a range (28–120 kDa) of molecular weight forms. 2. In female serum, the majority of inhibin isoforms appear to be bioactive. 3. This fractionation procedure provides a basis for investigating the forms of inhibin in plasma and provides a means of assessing the specificity of new assay methods.
Journal of Endocrinology (1995) 144, 261–269
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