Inhibins and activins are produced by a variety of tissues and may have important endocrine and paracrine roles in development, reproduction, and hematopoiesis. However, little is known regarding the physical properties or concentrations of inhibin and activin in biological fluids. Binding proteins for inhibin or activin in serum or at production or target sites may have important implications for restricting the bioactivity of these hormones and may alter the immunoreactivity of these molecules in biological fluids. The objective of this study was to identify inhibin- and activin-binding proteins in human serum (HS) and follicular fluid (hFF) and determine the ability of these proteins to alter biological or immunological activity. In HS, [125I]activin and inhibin bound to a protein identified as alpha 2-macroglobulin (alpha 2M) using three criteria: 1) [125I]inhibin and activin bind purified alpha 2M, but not several other serum proteins tested; 2) complexes formed by [125I]inhibin and activin in HS and in the presence of purified alpha 2M elute with similar retention times on HPLC; and 3) preadsorption of HS with alpha 2M antiserum inhibits inhibin and activin binding to this protein while antiserum directed against follistatin or other serum proteins had no effect. A small amount of a lower mol wt [125I]activin-follistatin complex was also found in HS. This complex eluted with a retention time similar to that of activin bound to purified porcine follistatin. Binding of inhibin to follistatin could not be detected in HS. In contrast, follistatin was the major binding protein of both activin and inhibin in hFF. Concentrations up to 100 micrograms/ml purified alpha 2M had no effect on the bioactivity or immunoreactivity of either inhibin or activin. In contrast, follistatin inhibited both activin-stimulated pituitary FSH release and K562 hemoglobin production as well as antiserum binding in a specific activin-A immunoassay. Follistatin did not interfere with inhibin immunodetection. These data indicate that two inhibin- and activin-binding proteins are present in different relative amounts in HS and hFF, alpha 2M, the primary binding protein in HS, did not alter inhibin or activin bio- or immunoactivity under the conditions of these experiments, while follistatin, the major binding protein in hFF, may mask activin's bio- and immunoactivities.
The tissue distribution of recombinant human inhibin A (rh-inhibin A) and rh-activin A was determined in immature female Sprague Dawley-derived rats after iv administration of radiolabeled proteins. [125I]rh-Inhibin A and [125I]rh-activin A diverge in their distribution to tissues of the immature female rat as examined histologically (whole body autoradiography and thin section analysis) and by computing the percent dose and tissue to blood ratios for individual tissues. [125I]rh-inhibin A accumulated in the spleen, adrenal, bone marrow, and ovary after iv injection. Iodinated rh-inhibin A was also found in the anterior and posterior pituitary. [125I]rh-activin A was found in the ovary and pituitary after iv injection. Little specific binding was found in the spleen or adrenal. The bone marrow accumulated some [125I]rh-activin A which was competed by rh-activin A. The primary route of excretion for radioactivity was the kidney, with the label appearing in the bladder by 10 min after iv injection. Not only do rh-inhibin A and rh-activin A have different pharmacokinetics, but fewer tissues accumulate radioactive rh-activin A than rh-inhibin A.
The serum pharmacokinetics of recombinant human inhibin A (rh-inhibin A) and rh-activin A were examined in immature female Sprague Dawley-derived rats after iv and sc injection of the drugs. After iv administration of rh-inhibin A (120 micrograms/kg), the serum concentrations were described by a biexponential equation. The weight-normalized clearance was 21.3 ml/min.kg, and the initial (t1/2 alpha) and terminal (t1/2 beta) half-lives were 2.9 min and 37.9 min, respectively. Subcutaneous administration of 120 micrograms/kg rh-inhibin A resulted in a peak serum concentration of 10.6 ng/ml at 30.8 min after injection. Approximately 24% of the sc administered material was absorbed. Serum concentrations of rh-activin A also declined biexponentially after iv injection of the drug (120 micrograms/kg). The clearance of rh-activin A was 5.1 ml/min.kg, the t1/2 alpha was 6.1 min, and the t1/2 beta was 46.3 min. The peak serum concentration of rh-activin A (104.7 ng/ml) was achieved 24.7 min after sc delivery of the drug. The bioavailability of the sc dose was 38%. Iodinated rh-inhibin A and rh-activin A were used to examine the serum forms and metabolites of the drugs. [125I]rh-inhibin A and [125I]rh-activin A associated with two serum-binding proteins. Within 2 min of iv injection, the labeled hormones bound follistatin and alpha-2-macroglobulin. Even though rh-inhibin A and rh-activin A are structurally similar and appear to bind to the same serum proteins, their disposition in the immature rat differ.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.