Mouse alpha 1-fetoprotein and albumin. A comparison of their binding properties with estrogen and fatty acid ligands

The binding of estradiol-17 beta (E2), diethylstilbestrol (DES), and polyene fatty acids, in particular arachidonate (C20:4), to alpha 1-fetoprotein (alpha-FP) and albumin purified from mouse embryo sera was studied using equilibrium dialysis and electrophoretic techniques. E2, arachidonate, and DES all bind to alpha-FP, but with decreasing strength. E2 is a high affinity, low capacity ligand (Ka approximately 0.8 X 10(8) M-1 and approximately 0.3 sites/mol of alpha-FP at 25 degrees C); arachidonate is a weaker ligand disposing of more sites (Ka approximately 0.3 X 10(7) M-1 and 4-5 sites/mol of alpha-FP); the binding of DES is of comparatively low affinity and capacity (Ka approximately 0.2 X 10(7) M-1 and n approximately 0.7/mol of alpha-FP). In spite of different structures and equilibrium parameters, E2, DES, and arachidonate are able to compete with each other for binding to the fetoprotein. The C22:4 and C22:6 fatty acids are also efficient concentration-dependent inhibitors of E2 or DES binding. Albumin binds the fatty acids and DES, but equilibrium parameters are different from those of alpha-FP. In particular, arachidonate is a better ligand for albumin, where it interacts with at least two classes of apparent sites (Ka1 approximately 0.3 X 10(8) M-1 and n1 approximately 1; Ka2 approximately 0.2 X 10(7) M-1 and n2 approximately 30). In contrast to alpha-FP, albumin virtually does not bind E2. Also, no competition could be demonstrated between DES and fatty acid ligands for binding to albumin. None of the studied interactions, with either albumin or alpha-FP, was modified even by high doses of bilirubin. The possible functions of the various binding activities present in fetal sera in the process of growth are discussed.     

Androgen and estrogen binding in rat skeletal and perineal muscles.

Specific in vitro binding of [3H]testosterone (T), 5ALPHA[3H]dihydrotestosterone (DHT), and [3H[estradiol (E2) was demonstrated in the 30 000 X g supernatant (cytosol) of thigh muscles (TM) and of the levator ani - bulbocavernosus muscle complex (LA-BC) by gel filtration through Sephadex G-25 columns. In TM cytosol, T and E2 [are bound with high affinity (Ka = 1.1 X 10(9) M-1, and 2.3 X 10(9) M-1 respectively) whereas DHT binding is of lower affinity (Ka = 5.0 X 10(7) M-1).] In LA-BC cytosol, T, E2, and DHT are bound with high affinity (Ka = 1.9 X 10(9) M-1, 0.3 X 10(9) M-1, and 0.5 X 10(9) M-1, respectively). Competition experiments suggest that the binding of the three hormones (T, E2, and DHT) is due to different proteins. In addition to TM and LA-BC, T and E2 binding was found in other muscles of male and female rats, including gastrocnemius, the pectoralis, diaphragm, and heart.     

Binding activities of thyroxine binding globulin versus thyroxine binding prealbumin in rat sera: differential modulation by thyroid hormone ligands, oleic acid and pharmacological drugs

We use gel equilibration and electrophoretic techniques to compare the binding properties of thyroxine binding globulin and thyroxine binding prealbumin in rat sera. The evidence indicates that TBG bears the serum lowest capacity highest affinity sites for thyroxine (T4) and triiodothyronine (T3) (Ka1 greater than or equal to 10(9) M-1) as well as weaker saturable T3 sites (Ka2 approximately 10(8) M-1). TBPA bears for T4 only Ka2 approximately 10(8) M-1 sites and for T3 only Ka approximately 10(6) M-1 sites. Consistent with these parameters are the specific responses of TBG and TBPA binding activities to varying serum concentrations of T4, T3, oleic acid, the drugs diphenylhydantoin or salicylate. The primary attack of these compounds is aimed at TBG. Small T4, oleate or DPH doses chase the TBG-bound T4 to TBPA, high doses of T4 or oleate but not of DPH inhibiting the T4 binding to both proteins. In the T3-serum interactions, all tested compounds displace the TBG-bound hormone without chasing it to TBPA. The high reactivity of TBG sites designates the protein as crucially involved in modulating the free vs bound serum levels of T4 and T3 against physiological or pathological variations of binding competitors.     

Characterisation of monoclonal antibodies raised against testosterone

Using the antigens testosterone-17 beta-hemisuccinate and testosterone-3-(o-carboxymethyl) oxime, each coupled to bovine serum albumin, we have produced 44 monoclonal antibodies to testosterone. Of the 17 monoclonal antibodies raised against the 17 beta-linked antigen 8 showed extremely low affinity for testosterone (Ka less than or equal to 8 X 10(7) M-1) and none had an affinity greater than 5 X 10(9) M-1. Of the 27 monoclonal antibodies raised against the 3-linked antigen 2 had affinities less than 8 X 10(7) M, 7 had affinities greater than 5 X 10(9) M-1 and one had an affinity (Ka = 9 X 10(10) M-1) greater than that of a high affinity rabbit antiserum (Ka = 6 X 10(10) M-1). The affinity constant (Ka = 5 X 10(9) M-1) measured in the serum of the mouse whose spleen gave rise to the greatest number of high affinity antibodies, was significantly higher than those measured in the sera of the remaining mice (Ka = 0.7 - 3 X 10(8) M-1). The cross-reactions of the monoclonal antibodies varied widely but none showed an overall improvement in specificity when compared with the corresponding rabbit antisera. Results suggest that as well as the structure of the steroid antigen careful selection of the spleen donor facilitates the development of monoclonal antibodies with good binding characteristics.     

Rabbit mammary prolactin receptors. Demonstration of a late puerperal increase in affinity.

Crude receptor preparations of rabbit mammary gland were made by differential centrifugation and reacted with lactoperoxidase-iodinated ovine prolactin (oPRL) in order to determine their binding characteristics. Receptors prepared from the mammary glands of animals less than 4 days postpartum bound oPRL with high affinity (Ka = 3.50 X 10(9) M-1), in good agreement with previous results of other investigators. The binding capacity of these preparations was 107 +/- 16.3 fmol/mg of protein. In contrast, receptors prepared from the mammary glands of late lactating rabbits (Days 25 to 30 of lactation) showed a 2.5-fold increase in binding affinity (Ka = 8.63 X 10(9) M-1, p less than 0.001) without a significant increase in binding capacity (135 +/- 21.4 fmol/mg, p greater than 0.2). Kinetic experiments revealed that the rates of association of hormone and receptor were identical in early and late receptor preparations, and that the 2.5-fold decrease the dissociation rate observed in the late preparations was fully explanatory of the differences in equilibrium binding. The mechanism of this affinity increase is not known. Such a change in binding characteristics, which would tend to enhance tissue responsiveness, may underlie the well characterized maintenance of full lactation in women despite falling concentrations of prolactin.     

Test of a theory relating to the cross-linking of IgE antibody on the surface of human basophils

Recent mathematical models of bivalent hapten-induced histamine release from basophils predict that under appropriate conditions histamine release is maximum when cross-link formation is maximum, at a hapten concentration equal to 1/(2Ka), where Ka is the average affinity constant of the hapten for a single IgE binding site. To test this prediction we sensitized human basophils with a monoclonal anti-dinitrophenol IgE and generated histamine release dose-response curves with a bivalent hapten, alpha, epsilon-DNP-lysine. The monoclonal IgE has a published affinity constant of 7.1 X 10(7) M-1 for epsilon-DNP-lysine as determined by equilibrium dialysis. From the position of the maximum of the histamine dose-response curves, both in the presence and in the absence of monovalent DNP hapten, we determine that the sensitizing IgE has an intrinsic affinity constant of 6.9 +/- 0.5 X 10(7) M-1 for epsilon-DNP-lysine and 1.2 +/- 0.6 X 10(6) M-1 for alpha-DNP-lysine. The agreement between the two estimates of the epsilon-DNP-lysine affinity constant, one from histamine release experiments involving surface bound IgE and one from binding experiments involving IgE free in solution, 1) is consistent with a central prediction of the theory of cross-linking and 2) indicates that the hapten-binding properties of the IgE are unaffected by its being bound to Fc epsilon receptors on the basophil surface.     

Specific antisera for the radioimmunoassay of estradiol-3-sulfate

Antisera were prepared against two types of estradiol-3-sulfate-bovine serum albumin (BSA) conjugates. The haptens were coupled to BSA through the C-6 position in the steroid molecule by the glutaraldehyde (A) or the carbodiimide method (B). In comparison the antiserum produced by method A had a high affinity for estradiol-3-sulfate (Ka = 5.64 X 10(8) M-1); that produced by method B had an even higher affinity (Ka = 2.62 X 10(9) M-1). Furthermore the latter had no significant cross-reaction with other estrogen sulfates (less than 3.83%), and no cross-reaction with other steroids (less than 0.03%). The former revealed a little cross-reactivity with some of related steroids.     

Calcium binding to cardiac myocytes protected from proteolytic enzyme activity

Excitation-contraction coupling in cardiac muscle is dependent on extracellular calcium and calcium bound to the surface of the myocardial cell. In this study, we examined the physical characteristics of calcium binding to adult guinea pig ventricular myocytes disaggregated mechanically in oxygenated tissue culture medium containing a proteinase inhibitor (aprotinin), and separated from cellular debris by Cytodex beads. Cells prepared in this manner excluded Trypan blue and showed no evidence of spontaneous contraction or contracture. Scatchard plots of calcium binding determined by continuous flow equilibrium dialysis revealed a high-affinity, low-capacity pool, Ka = 65 X 10(3) M-1 and Bt = 1.3 nmol X mg-1 and a low-affinity, high-capacity pool, Ka = 141 M-1 and Bt = 138 nmol X mg-1. The low-affinity pool was not detectable after lanthanum, trypsin or collagenase treatment or in cells prepared without aprotinin in the isolation medium. Both neuraminidase and phospholipase C reduced Bt of the low-affinity pool by one half, but only neuraminidase affected the affinity constant of this pool. Ka was increased to 516.7 M-1, similar to the apparent affinity constant for calcium binding estimated from dP/dtmax measured at several extracellular calcium concentrations (470 M-1). The results suggest that calcium bound to sarcolemmal phospholipids represents the superficial calcium involved in excitation-contraction coupling in the heart.     

Plasma sex steroid-binding protein in mature heifers: effects of reproductive status, nutritional level, and porcine growth hormone, and estradiol-17 beta treatments

In heifers, the specific 5 alpha-dihydrotestosterone (5 alpha-DHT) binding to sex steroid-binding protein (SBP) was 53 nM in midluteal phase and was 20% lower (p less than 0.05) in early luteal phase. In ovariectomized heifers on a high (H) or a low (L) energy diet, SBP bound testosterone with high specificity and estradiol-17 beta (E2) with a lower specificity; the affinity constant with 5 alpha-DHT was similar in the two groups independent of diet (Ka = 1.0 and 1.3 x 10(9) x M-1 for H and L heifers, respectively). Electrophoretic mobility of SBP was not affected by undernutrition. The specific 5 alpha-DHT binding to SBP in anestrous heifers compared to heifers in early luteal phase was 17% lower 18 days after cessation of ovarian activity (p less than 0.05) and 35% lower after 78 days of anestrus (p less than 0.001). Specific 5 alpha-DHT binding to SBP was 33% lower (p less than 0.001) in L heifers than in H heifers (40 nM). Porcine growth hormone (pGH) and E2 injections increased specific 5 alpha-DHT binding to SBP in both H and L heifers, but the effect depended on diet. Simultaneous injections of pGH and E2 increased specific binding in H heifers (p less than 0.02), whereas it had no effect in L heifers. We conclude that SBP binding capacity varies with ovarian activity in heifers and that nutritional status is one factor of regulation of SBP binding capacity because it affects binding and modifies the SBP response to stimulating factors such as pGH and E2.     

Manganese, calcium, and saccharide binding to concanavalin A, as studied by ultrafiltration

The binding of the ligands Mn2+, Ca2+, and methyl alpha-D-glucopyranoside to concanavalin A, purified as described (A.J. Sophianopoulos and J.A. Sophianopoulos (1981) Prep. Biochem. 11, 413-435), was studied by ultrafiltration in 0.2 M NaCl, pH 5.2 and pH 6.5 to 7, and at 23 to 25 degrees C. The association constant (Ka) of methyl alpha-D-glucopyranoside to concanavalin A was (2 +/- 0.2) X 10(3) M-1, both at pH 5.2 and 7. At pH 5.2 and in the absence of Ca2+, the Ka of Mn2+ to concanavalin A was (5 +/- 1) X 10(3) M-1, and in the presence of 1 mM Ca2+, the Ka was (9.1 +/- 2.1) X 10(5) M-1. At pH 6.5 Mn2+ bound to concanavalin A with a Ka of (7.3 +/- 1.8) X 10(5) M-1, and the binding affinity was virtually independent of the presence of Ca2+. Experiments of binding of 4-methylumbelliferyl alpha-D-mannopyranoside to concanavalin A indicated that at pH 5.2, binding of a single Mn2+ per concanavalin A monomer was sufficient to induce a fully active saccharide binding site. Ca2+ is not necessary for such activation, but rather it increases the affinity of concanavalin A for binding Mn2+.     

An investigation of sites that bind human somatotropin (growth hormone) in the liver of the pregnant rabbit.

The binding of 125I-labelled human somatotropin (growth hormone) to a crude membrane preparation from the liver of pregnant rabbit, and to receptors solubilized from this fraction by Triton X-100, was dependent on time, temperature and receptor concentration. At 4 degrees C a steady state was reached after 20 h, and maximum specific binding (as a percentage of total tracer added) was approx. 50% for both membrane-bound and solubilized receptors. Solubilization did not significantly affect the binding properties of the receptor at low concentrations of Triton X-100 (less than 0.05%, v/v, in the assay tube). However, at higher concentrations (approx. 0.1%, v/v), the detergent lowered the ability of some hormones, for example ovine prolactin, to displace 125I-labelled human somatotropin, but did not affect other hormones such as bovine somatotropin. Some somatogenic hormones, such as bovine somatotropin, and some lactogenic hormones, such as ovine prolactin, displaced 125I-labelled human somatotropin from membrane-bound and solubilized receptor preparations. Furthermore, 85% of 125I-labelled bovine somatotropin was displaced from membrane-bound receptors by ovine prolactin, and 125I-labelled ovine prolactin was almost completely displaced by bovine somatotropin. Scatchard analysis of the binding data for human somatotropin suggested a single class of binding sites in the membrane-bound receptor preparation, with an affinity (Ka) of 1.9 X 10(9) M-1 and a capacity of 1726 fmol/mg of protein; these values were slightly increased by solubilization (Ka = 3.2 X 10(9) M-1, capacity = 2103 fmol/mg of protein). Scatchard analysis of binding to membrane-bound receptors also indicated a single class of high-affinity binding sites for bovine somatotropin (Ka = 4.8 X 10(9) M-1, capacity = 769 fmol/mg) and for ovine prolactin (Ka = 6.1 X 10(9) M-1, capacity = 187 fmol/mg).     

A high affinity thyroid hormone binding protein in the cytosol of embryonic rat brain cells in primary cultures

A thyroid hormone binding protein(s) has been characterized in the cytosol of fetal rat brain cells in primary cultures. This protein is closely related to the one described in brain supernatants with respect to its electrophoretic mobility, binding kinetic parameters and estimated molecular weight (65 000 daltons). However, in contrast to the brain cytosolic binding protein, two classes of affinity sites for triiodothyronine (T3) and thyroxine (T4) have been demonstrated: a high affinity site (KA = 1.2-3.7(3) X 10(9) M-1 for T3 and KA = 3.7-5 X 10(8) M-1 for T4) and a low affinity site (KA = 0.8-1.4 X 10(8) M-1 for T3 and 1.6-2.9 X 10(7) M-1 for T4). The results are discussed with respect to their cellular significance.     

Identification of receptors in a system of functionally heterogeneous proteins specifically bound to androgens in rat liver cytosol

The methods of androgen receptor (RA) isolation and identification in rat liver cytosol were studied. It was shown that male rat liver contains a system of specific androgen (A)-binding proteins consisting of at least three main components: RA, delta 4-androstendione (delta 4-A)-binding component and an unusual estrogen-binding protein interacting also with A and the first two components in females. The identity of one of A-binding components to RA was proved by cumulative properties of this component which are similar to those of RA from other tissues. These properties are as follows: 1) high values of apparent association constant, Ka, for 3H-R1881 (2.8 +/- 0.3 X 10(8) M-1) and 3H-5 alpha-dihydrotestosterone (3H-DHT) (5.0 +/- 0.4 X 10(8) M-1); 2) low binding capacity--approximately 10 fmol/mg of protein of nonfractionated cytosol; 3) pronounced specificity of affinity for active A (DHT, R1881, testosterone); 4) large size of the protein molecule (6.5 +/- 0.25 nm); 5) ability to decrease this size to 3.2 +/- 0.08 nm in a high ionic strength buffer; 6) precipitation at low concentrations of ammonium sulfate: 7) strong interaction with heparin-Sepharose. The properties of the delta 4-A-binding component do not coincide with those of RA: it has a low Ka for 3H-delta 4-A (1.15 +/- 0.5 X 10(6) M-1), a high binding capacity (1.22 +/- 0,12 pmol/mg of protein of nonfractionated cytosol) and can bind various delta 4-3-ketosteroids irrespective of the degree and nature of their biological activity. It was concluded that preliminary isolation of rat liver RA on heparin-Sepharose can be used for differential identification and characterization of this protein.     

The dynamics of the interaction between myosin subfragment 1 and pyrene-labelled thin filaments, from rabbit skeletal muscle

We have used actin labelled in Cys-374 with N-(1-pyrenyl)iodoacetamide to monitor the dynamics and equilibria of the interaction between myosin subfragment 1 and the actin-troponin-tropomyosin complex in the presence of calcium. These results are compared with those obtained for pure actin and myosin subfragment 1. The sensitivity of this fluorescent label allowed us to measure the binding affinity of myosin subfragment 1 for actin directly by fluorescence titration. The affinity of subfragment 1 for actin is increased sixfold by troponin-tropomyosin in the presence of calcium. Kinetic studies of the interaction of subfragment 1 and actin have revealed an isomerization of the actin-subfragment 1 complex from a state in which actin is weakly bound (Ka = 5.9 X 10(4) M-1) to a more tightly bound complex (Ka = 1.7 X 10(7) M-1) (Coates, Criddle & Geeves (1985) Biochem. J. 232, 351). Results in the presence of troponin-tropomyosin show the same isomerization. The sixfold increase in affinity of subfragment 1 for actin is shown to be due to a decrease in the rate of dissociation of actin from the weakly bound complex.     

Involvement of heparin chain length in the heparin-catalyzed inhibition of thrombin by antithrombin III

The mechanism of the heparin-promoted reaction of thrombin with antithrombin III was investigated by using covalent complexes of antithrombin III with either high-affinity heparin (Mr = 15,000) or heparin fragments having an average of 16 and 12 monosaccharide units (Mr = 4,300 and 3,200). The complexes inhibit thrombin in the manner of active site-directed, irreversible inhibitors: (Formula: see text) That is, the inhibition rate of the enzyme is saturable with respect to concentration of complexes. The values determined for Ki = (k-1 + k2)/k1 are 7 nM, 100 nM, and 6 microM when the Mr of the heparin moieties are 15,000, 4,300, 3,200, respectively, whereas k2 (2 S-1) is independent of the heparin chain length. The bimolecular rate constant k2/Ki for intact heparin is 3 X 10(8) M-1 S-1 and the corresponding second order rate constant k1 is 6.7 X 10(8) M-1 S-1, a value greater than that expected for a diffusion-controlled bimolecular reaction. The bimolecular rate constants for the complexes with heparin of Mr = 4,300 and 3,200 are, respectively, 2 X 10(7) M-1 S-1 and 3 X 10(5) M-1 S-1. Active site-blocked thrombin is an antagonist of covalent antithrombin III-heparin complexes: the effect is monophasic and half-maximum at 4 nM of antagonist against the complex with intact heparin, whereas the effect is weaker against complexes with heparin fragments and not monophasic. We conclude that virtually all of the activity of high affinity, high molecular weight heparin depends on binding both thrombin and antithrombin III to heparin, and that the exceptionally high activity of heparin results in part from the capacity of thrombin bound nonspecifically to heparin to diffuse in the dimension of the heparin chain towards bound antithrombin III. Increasing the chain length of heparin results in an increased reaction rate because of a higher probability of interaction between thrombin and heparin in solution.     

Binding constants of NZB myeloma antidextrans for dextrans and isomaltose oligosaccharides determined by affinity electrophoresis.

Association constants of dextrans (Ka) and oligosaccharides (Kia) from NZB myeloma antidextrans (PC3858 and PC3936) were studied by affinity electrophoresis. With linear dextrans or with those with a low degree of branching, Ka ranged from 2.7 X 10(3) to 5.4 X 10(4) ml/g for PC3858 and from 1.3 X 10(4) to 2.6 X 10(5) ml/g for PC3936. Completely linear alpha-(1 leads to 6)-linked dextrans, LD7 and D3, showed relatively high affinities for the two NZB antidextrans. With oligosaccharides, the Kia value increased as the number oa alpha-(1 leads to 6)-linked glycosyl residues increased. Isomaltoheptaose (IM7) showed the highest Kia (1.9 X 10(4) M-1 for PC3858 and 1.63 X 10(4) M-1 for PC3936), whereas isomaltose (IM2) had the lowest Kia (2.36 X 10(2)M-1 for PC3858 and 1.32 X 10(2)M-1 for PC3936). Pullulan and glycogen showed very weak affinity for PC3936, but they did not react at all with PC3858. These findings indicate that NZB myeloma antidextrans, PC3858 and PC3936, are specific for internal chains of alpha-(1 leads to 6)-linked dextrans. Data on the precision with which Ka and Kia can be determined are presented.     

Thyroxine-binding proteins in liver and tail of Rana catebeiana undergoing metamorphosis.

Presence of a thyroxine-binding protein was demonstrated in vivo in cell sap of tail and liver of metamorphosing Rana catesbeiana tadpoles. Thyroxine-binding protein was not present in tail of prematamorphic tadpoles while it appeared during progressing metamorphosis roughly coinciding with the beginning of tail resorption. Susceptibility to pronase indicates that this thyroxine-binding macromolecule is protein in nature. Thyroxine-binding in liver was already present during premetamorphic stages and increased further during metamorphosis. A further difference between tail and liver thyroxine-binding protein was evidenced by molecular sieve chromatography on Sephadex G-200 indicating a molecular weight of thyroxine-binding protein in the tail of 60 000 as opposed to 42 000 for liver. Scatchard analysis of tail cell sap of tadpoles in metamorphic climax revealed a high affinity thyroxing binding site (Kd of 2 - 10(-10) M) of low capacity (1.7 pmol per mg protein) while tadpoles in premetamorphic stage had a thyroxine-binding site of lower affinity (9 - 10(-10) M) and higher capacity (4.8 pmol per mg protein). Thus affinity of thyroxine binding is 4-fold in metamorphic climax and appears to reflect the appearance of thyroxine binding observed in vivo.     

Detection of carrier heterogeneity by rate of ligand dialysis: medium-chain fatty acid interaction with human serum albumin and competition with chloride

Binding equilibria for decanoate, octanoate, and hexanoate to defatted human serum albumin were investigated by dialysis exchange rate determinations in 66 mM sodium phosphate buffer, pH 7.4, 37 degrees C. The binding isotherms for decanoate and octanoate could not be fitted by the general binding equation. It was necessary to assume the presence of two albumin components, one with high affinity and one with low affinity, about 0.65 of the albumin having high binding affinity. The first stoichiometric binding constants for the high- and low-affinity albumin components were 1.1 X 10(7) and 1.4 X 10(5) M-1, respectively, for decanoate; 1.6 X 10(6) and 3.5 X 10(4) for octanoate; and 7.1 X 10(4) and 8.0 X 10(2) M-1 for hexanoate. The high-affinity albumin component binds 1 mol decanoate, 1 mol octanoate, or 2 mol hexanoate more than is bound to the low-affinity component. Chloride ions compete with the high-affinity binding of all three ligands. Albumin dimer, present in the commercial human serum albumin, has approximately the same binding properties as the monomer. Mercaptalbumin, isolated from the preparation, also consists of two proteins, with first stoichiometric binding constants 8.0 X 10(6) and 1.4 X 10(5) M-1 for decanoate, approximately 0.5 of the mercaptalbumin having high affinity.     

Role of secretory component, a secreted glycoprotein, in the specific uptake of IgA dimer by epithelial cells.

The binding of secretory component (SC) to epithelial cells and its role in the specific uptake of immunoglobulin A (IgA) dimer has been studied in rabbit mammary gland and liver. SC, Mr approximately 80,000, secreted by epithelial cells of the mammary gland was found associated with the cell surface of mammary cells in intact tissue. Dispersed mammary cells and plasma membrane-enriched fractions obtained from mammary glands of midpregnant rabbits bound 125I-labeled SC in a saturable time- and temperature-dependent process. The association rate followed a second order reversible reaction (k+1 approximately equal to 2.7 x 10(6) M-1 min-1 at 4 degrees C) and equilibrium was reached in about 4 h at 4 degrees C. The dissociation rate for membranes was first order (k-1 approximately equal to 1.7 x 10(-2) min-1 at 4 degrees C), whereas displacement from cells was incomplete. The apparent affinity constant was similar for membranes and cells (Ka approximately equal to 5 x 10(8) M-1) with one class of binding sites. The number of binding sites varied from one animal to another (260 to 7,000 sites/mammary cell) in relation to endogenous occupancy by SC, which was assessed by immunocytochemistry and complement-mediated cytotoxicity. Rabbit liver and heart membranes did not bind SC, and serum proteins present in rabbit milk failed to interact with mammary cells or membranes. Mammary membranes or cells and liver membranes bound 125I-labeled IgA dimer in a saturable, reversible time- and temperature-dependent process. Association and dissociation rate constants at 4 degrees C (k+1 approximately equal to 5 x 10(6) M-1 min-1 and k-1 approximately equal to 5 x 10(-3) min-1, respectively) and the apparent affinity constant (Ka approximately equal to 10(9) M-1) were similar for liver and mammary membranes; these parameters differed, however, from those reported for free SC-IgA dimer interaction. The binding capacity of membranes for IgA dimer was directly related to the amount of free SC bound to membranes. Interaction of IgA dimer with mammary or liver membranes or cells was abrogated by excess of free SC and was prevented by preincubation of membranes or cells with Fab antibody fragments directed against SC. These data indicate that the first step in the translocation process of polymeric immunoglobulins across epithelia consists of binding of SC to the surface of epithelial cells which in turn acts as a receptor for the specific uptake of IgA dimer.     

Nuclear thyroxine and triiodothyronine binding in mononuclear cells in dependence of age

Nuclear binding of thyroxine (T4) and triiodothyronine (T3) in mononuclear blood cells was investigated in 12 young (age 16-30 years) healthy subjects (group A), in 12 middle-aged (age 31-60 years) healthy subjects (group B) and in 12 elderly (61-90 years) healthy subjects. Serum free T3 was depressed in group C as compared to the younger age groups, whereas serum free T4 and TSH did not differ between the groups. Maximal specific nuclear binding capacity for both T4 and T3 decreased with increasing age, T4 group A: 1.2 fmol T4/100 micrograms DNA, group B: 1.2 fmol T4/100 micrograms DNA, group C: 0.7 fmol T4/100 micrograms DNA; T3 group A: 1.7 fmol T3/100 micrograms DNA, group B: 1.0 fmol T3/100 micrograms DNA, group C: 0.9 fmol T3/100 micrograms DNA. The equilibrium association constant (Ka) for T4 increased with age, group A: Ka = 3.3 X 10(9) l/mol, group B: Ka = 3.2 X 10(9) l/mol, group C: Ka = 6.4 X 10(9) l/mol, whereas Ka for nuclear binding of T3 decreased with age group A: Ka = 3.9 X 10(9) l/mol, group B: Ka = 5.9 X 10(9) l/mol, group C: Ka = 1.8 X 10(9) l/mol. We conclude that, whereas the opposite variations of nuclear capacity and binding affinity for T4 tend to preserve the nuclear T4 concentration, the nuclear T3 concentration definitely decreases with age. The unaltered serum levels of TSH suggest that the decrease of both serum levels of free T3 and the nuclear T3 concentration might represent physiologically changes in old age.