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).     

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.     

Characterization of prolactin receptors in pig mammary gland.

Prolactin receptors present in the particulate fraction of lactating pig mammary gland were solubilized by 7.5mM-3-[(3-cholamidopropyl)dimethylammonio]-1-propane-su lph onic acid (Chaps) and purified by affinity chromatography on prolactin coupled to Affi-Gel 10. Nearly 30% of the particulate receptors were solubilized by the detergent and over a 1000-fold purification from homogenates was achieved. A water-soluble fraction rich in receptors was observed during the preparation of membranes, although this fraction has not yet been purified. Prolactin binding to the receptors was a time-dependent, reversible and saturable reaction in particulate, Chaps-solubilized and purified receptors. In all forms, receptors showed the same specificity to peptide hormones. Prolactin and human growth hormone bound to the same receptors, whereas bovine growth hormone, follicle-stimulating hormone, luteinizing hormone, thyroid-stimulating hormone and insulin failed to bind. After solubilization, the dissociation constant (Kd) for prolactin was decreased 5-fold from 9.8 X 10(-11) M in the particulate receptors to 1.8 X 10(-11) M in solubilized and purified receptors, being due principally to an increase in the association rate constant from 1.0 X 10(9)M-1 X h-1 to (3.9-4.6) X 10(9)M-1 X h-1, respectively, with the dissociation rate constant remaining unchanged at (1.1-1.3) X 10(-2)h-1. Isoelectric focusing of the prolactin-receptor complex revealed two peaks, one at a pI of 5.5-5.6 and the other at 5.2-5.3. Microsomal receptors were covalently cross-linked to 125I-labelled ovine prolactin with ethylene glycol bis(succinimidyl succinate) and analysed by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. Autoradiography of the gel revealed a major subunit of Mr 28 000-35 000 and a minor one of Mr 67 000-69 000. Anti-(prolactin receptor) antibodies raised against rabbit mammary gland prolactin receptors were equally effective in inhibiting prolactin binding to particulate, solubilized and affinity-purified receptors, suggesting that purified prolactin receptors have a structure indistinguishable immunologically from particulate receptors and rabbit mammary gland prolactin receptors. The present demonstration shows that particulate prolactin receptors from a domestic animal can be solubilized and purified without losing the original properties of high affinity and binding specificity for hormones.     

Purification and protein sequence analysis of rat liver prolactin receptor

Prolactin receptors were purified from rat liver membranes by single-step immunoaffinity chromatography using a specific monoclonal antibody to the rat liver prolactin receptor. Scatchard analysis of 125I-human growth hormone binding to the purified receptor revealed two classes of specific binding sites with Ka = 18.5 x 10(9) and 1.2 x 10(9) M-1. Considering that both classes of binding sites are responsible for high affinity prolactin binding, the partially purified receptor preparation had a binding activity of 1.69 nmol/mg protein, representing 1000-fold purification over microsomal receptors with a recovery of 52%. From three separate purifications, 6 mg of partially purified prolactin receptor were obtained with a purity of approximately 4 to 6.5%. Thus, the use of monoclonal antibody for affinity chromatography resulted in a large improvement of prolactin receptor purification compared to previous hormone affinity chromatography (300-fold purification, 15% recovery). The purified receptor was run on preparative sodium dodecyl sulfate polyacrylamide gel electrophoresis, and a homogeneous preparation of prolactin receptor was obtained by electroelution from gel slices corresponding to Mr 38,000-43,000. Immunoblot analysis using a radiolabeled monoclonal antibody revealed two separate but closely located bands of Mr 42,000 and 40,000 in microsomal, partially purified, and electroeluted preparations. The homogeneous receptor protein was extensively digested with L-1-tosylamido-2-phenylethyl chloromethyl ketone trypsin, and 10 internal amino acid sequences of the rat liver prolactin receptor were determined by gas-phase sequence analysis. Oligonucleotide probes were prepared against two of these internal sequences, and a prolactin receptor cDNA was isolated from a rat liver library using one of these probes (Boutin, J. M., Jolicoeur, C., Okamura, H., Gagnon, J., Edery, M., Shirota, M., Banville, D., Dusanter-Fourt, I., Djiane, J., and Kelly, P. A. (1988) Cell 53, 69-77). The amino acid sequence deduced from the cDNA reveals three potential sites of N-linked glycosylation, two of which were confirmed during protein sequencing. The prolactin receptor was characterized by affinity labeling with 125I-human growth hormone. Cross-linking of microsomes revealed a single band for the hormone-receptor complex with Mr 62,000. On the other hand, cross-linking of Triton X-100-solubilized or partially purified receptor with labeled hormone resulted in the appearance of two bands with Mr 62,000 and 102,000, suggesting the existence of a subunit structure of the prolactin receptor, or alternatively, the existence of two types of prolactin receptor.(ABSTRACT TRUNCATED AT 400 WORDS)     

Rabbit liver growth hormone receptor and serum binding protein. Purification, characterization, and sequence

A putative growth hormone receptor from detergent-solubilized rabbit liver membranes and the growth hormone binding protein from rabbit serum have been purified 59,000- and 400,000-fold, respectively, primarily by affinity chromatography. Both purified proteins exhibit high affinity binding for human growth hormone; K alpha = 9-30 x 10(9) M-1 for the liver receptor and K alpha = 6 x 10(9) M-1 for the binding protein. The apparent molecular weight of the liver receptor is 130,000 by reduced sodium dodecyl sulfate gel electrophoresis, while that of the binding protein is 51,000. Both contain N-linked carbohydrate. The amino-terminal sequences of the liver growth hormone receptor and the serum binding protein were found to be the same, indicating that the binding protein corresponds to the extracellular domain of the liver receptor. Ubiquitin was found covalently linked to the liver receptor but not to the serum binding protein. The amino acid sequences of several peptides from the liver receptor were also determined after tryptic and V8 protease digestion.     

Identification of novel sites in the ovine growth hormone receptor involved in binding hormone and conferring species specificity.

Using site-directed mutagenesis we mutated the extracellular domain of the ovine growth hormone receptor (oGHR) to the corresponding amino acids in the rat GHR at two different sites: site A is between Thr28 and Leu34 and represents a major immunogenic epitope, while site B is between Ser121 and Asp124 and is involved in the interaction of the human GHR with growth hormone (GH). Native and mutant receptors were bacterially expressed and refolded, and then RIA and GH-binding assays were carried out on the purified recombinant proteins. Mutations at the N-terminal site A of oGHR led to greatly reduced binding to bovine GH and, in addition, to significant loss of recognition by a polyclonal antiserum to bovine GHR which recognizes site A as a major epitope. The crystal structure of human GH bound to human GHR did not resolve this extreme N-terminal region of the receptor but our data indicate that the N-terminal loop undertakes a 180 degrees turn bringing it into close proximity to the hormone-binding domain in a fashion analogous to the prolactin receptor. A fourfold decrease in affinity for binding bovine GH was also observed after mutation of site B. However, this change from the ovine sequence to the equivalent sequence in the rat GHR at site B caused a 2.4-fold increase in the affinity of binding to rat GH. Taken together, the changes in binding affinity of the site-B mutant for rat and bovine GH demonstrate that this site is involved in conferring species specificity for binding GH.     

Somatotropic and lactotropic receptors in transgenic mice expressing human or bovine growth hormone genes

The somatotropic and lactotropic receptors were studied in liver microsomal preparations from transgenic mice carrying the human growth hormone (hGH) or bovine growth hormone (bGH) gene fused to mouse metallothionein-I (MT) or phosphoenolpyruvate carboxykinase promoter/regulator (PEPCK). Specificity studies indicated that, similarly to normal mice, liver microsomes from the transgenic animals possess a mixed population of somatotropic and lactotropic binding sites. In transgenic animals of both sexes, the binding capacity of somatotropic receptors was significantly increased without corresponding changes in affinity. Expression of the MT-hGH hybrid gene was associated with the induction of somatotropic receptors which was approximately twice as great as that measured in animals expressing the MT-bGH hybrid gene. The binding capacity of lactotropic receptors in liver microsomes (quantitated, by the use, of labelled ovine prolactin) was increased 2–3 fold in transgenic females and approximately 10-fold in transgenic males as compared to the respective normal controls. We conclude that lifelong excess of GH up-regulates hepatic GH and prolactin receptors, and that lactogenic activity of GH is not essential for induction of prolactin receptors in the liver of transgenic mice.     

Biological activity of bovine placental lactogen in 3T3-F442A preadipocytes is mediated through a somatogenic receptor.

Bovine placental lactogen (bPL) exhibited antimitogenic differentiation-promoting biological activity in 3T3-F442A preadipocytes. Competitive binding studies and affinity labelling revealed bPL activity to be mediated through a somatogenic type of receptor that recognizes human growth hormone (hGH) and bovine GH, but not ovine prolactin or human PL. The bioactivity of bPL was sixfold lower than that of hGH despite that bPL is binding to the somatogenic receptors with fivefold higher affinity. This discrepancy may result from the relatively low ability of bPL to induce post-receptoral effects such as receptor dimerization.     

Regulation of GH binding to specific cellular receptors in vitro--a new model of growth regulation in vivo

A new theory on the complex growth hormone (GH) mediated promotion of tissue growth has been developed on the basis of in vitro studies of growth hormone receptors on human peripheral mononuclear cells (PMC). It is hypothesized that GH acts through its tissue receptors and regulates its own receptors through two different pathways: first GH directly downregulates GH binding, second a partially GH-dependent serum factor (the so-called SM-B) enhances GH binding. Some experimental evidence for this hypothesis is presented using a new method to investigate GH receptors in circulating human blood cells: The effect of trypsin, antitrypsin, growth hormone, somatomedin-B (SM-B) and anti-SM-B-antiserum on GH binding to PMC was studied. Trypsinization of cells leads to a decrease both of specific binding and of binding affinity (affinity constant after 60 minutes of trypsinization 0.5 X 10(6) M-1 versus 1.5 X 10(6) M-1 in untreated control cells). Exposure of PMC to antitrypsin activities was followed by an increase of binding affinity and specific binding (affinity constants with 10 KIU 1.9 X 10(6) M-1, with 100 KIU 2.4 X 10(6) M-1, with 1000 KIU 3.6 X 10(6) M-1). This antitrypsin effect exceeds the binding values expected after blocking trypsin activities possibly being present in the incubation medium. In a subset of experiments the partially GH-dependent serum factor SM-B was used as the antitrypsin moiety and was shown to increase specific GH binding to PMC in a similar manner as did antitrypsin (with 1000 ng SM-B affinity constant 12.0 X 10(6) M-1, specific binding 9.7%).(ABSTRACT TRUNCATED AT 250 WORDS)     

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.     

Characterization of functional receptors for somatostatin in rat pituitary cells in culture.

GH4C1 cells are a clonal strain of rat pituitary tumor cells which synthesize and secrete prolactin and growth hormone. Somatostatin, a hypothalamic tetradecapeptide, inhibits the release of growth hormone and, under certain circumstances, also prolactin from normal pituitary cells. We have prepared [125I-Tyr1]somatostatin (approximately 2200 C1/mmol) and have shown that this ligand binds to a limited number of high affinity sites on GH4C1 cells. Half-maximal binding of somatostatin occurred at a concentration of 6 x 10(-10) M. A maximum of 0.11 pmol of [125I-Tyr1]somatostatin was bound per mg of cell protein, equivalent to 13,000 receptor sites per cell. The rate constant for binding (kon) was 8 x 10(7) M(-1) min(-1). The rate constant for dissociation (koff) was determined by direct measurement to be 0.02 min(-1) both in the presence and absence of excess nonradioactive somatostatin. Binding of [125I-Tyr1]somatostatin was not inhibited by 10(-7) M thyrotropin-releasing hormones. Substance P, neurotensin, luteinizing hormone-releasing hormone, calcitonin, adrenocorticotropin, or insulin. Of seven nonpituitary cell lines tested, none had specific receptors for somatostatin. Somatostatin was shown to inhibit prolactin and growth hormone production by CH4C1 cells. The dose-response characteristics for binding and the biological actions of somatostatin were essentially coincident. Furthermore, among several clonal pituitary cell strains tested, only those which had receptors for somatostatin showed a biological response to the hormone. We conclude that the characterized somatostatin receptor is necessary for the biological actions of somatostatin on GH4C1 cells.     

Receptor for 1,25-dihydroxyvitamin D3 in GH3 pituitary cells

Cytosol prepared in 0.3 M KCl from pituitary GH3 cells, but not from AtT-20 cells contains a receptor-like macromolecule that binds 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) with specificity and high affinity (Kd = 2.9 x 10(-10) M). The GH3 cytosolic binding component sediments at 3.3 S in high-salt sucrose gradients and adsorbs to DNA-cellulose; its elution profile from DNA-cellulose and other biochemical properties are indistinguishable from those of classical 1,25(OH)2D3 hormone receptors. The presence of the 1,25(OH)2D3 receptor in pituitary cells which secrete primarily growth hormone and prolactin (GH3), but not in a line which secretes the 31,000-dalton ACTH precursor and its derived peptides (AtT-20), suggests that 1,25(OH)2D3 may play a regulatory role in specific pituitary cells.     

Thyroid hormone and DNA binding properties of a mutant c-erbA beta receptor associated with generalized thyroid hormone resistance

We have previously reported a family, Kindred A, with autosomal dominant generalized thyroid hormone resistance in which affected members were found to have a mutation in the carboxy-terminal domain of the c-erbA beta thyroid hormone receptor. In the current study, the thyroid hormone and DNA-binding properties of this mutant receptor were determined using c-erbA beta protein synthesized in vitro. Both the wild-type human placental c-erbA beta and Kindred A receptors bound [125I]-triiodothyronine, although the Kindred A receptor had decreased affinity for the hormone. The affinity for triiodothyronine was 4.5 x 10(9) M-1 and 2.3 x 10(10) M-1 for the mutant and wild-type receptors, respectively. No abnormality of DNA-binding was detected with the Kindred A receptor using a sensitive avidin-biotin DNA-binding assay with DNA fragments containing thyroid hormone response elements. The Kindred A mutant receptor which displays abnormal triiodothyronine-binding but normal DNA-binding activities in vitro acts as a dominant negative inhibitor of thyroid hormone action in man.     

n-Butyrate effects thyroid hormone stimulation of prolactin production and mRNA levels in GH1 cells

Using cultured GH1 cells, a growth hormone and prolactin-producing rat pituitary cell line, we have shown that n-butyrate and other short chain carboxylic acids stimulate histone acetylation and elicit a reduction of thyroid hormone nuclear receptor which is inversely related to the extent of acetylation (Samuels, H. H., Stanley, F., Casanova, J., and Shao, T. C. (1980) J. Biol. Chem. 255, 2499-2508). In this study, we compared the n-butyrate and propionate modulation of receptor levels to regulation of the growth hormone and prolactin response by 3,5,3'-triiodo-L-thyronine (L-T3). n-Butyrate (0.1-10 mM) did not stimulate growth hormone production. L-T3 stimulated the growth hormone response 4- to 5-fold and n-butyrate (0.5-1 mM) increased L-T3 stimulation of growth hormone production 1.5- to 2-fold compared to L-T3 alone. L-T3 stimulation of growth hormone production at higher n-butyrate concentrations decreased in parallel with the n-butyrate-mediated reduction of receptor levels. In contrast with the growth hormone response, n-butyrate (0.5 mM) increased basal prolactin production about 5-fold. Prolactin production, which is inhibited 25 to 50% by L-T3, was stimulated between 20- and 70-fold by L-T3 + n-butyrate (0.5-1 mM) and this decreased at higher n-butyrate levels. Prolactin mRNA and growth hormone mRNA levels paralleled the changes in prolactin and growth hormone production rates. These effects of L-T3, n-butyrate, or L-T3 + n-butyrate appeared unrelated to changes in cAMP levels or global changes in DNA methylation of the growth hormone or prolactin genes. Propionate elicited the same effects as n-butyrate but at a 5- to 10-fold higher concentration consistent with their relative effect on stimulating acetylation of chromatin proteins. These results suggest that prolactin gene expression is under partial regulatory repression which is reversed by a carboxylic acid-mediated postsynthetic modification event which allows for stimulation of the prolactin gene by thyroid hormone.     

Solubilization and partial characterization of the sex hormone-binding globulin receptor from human prostate

The sex hormone-binding globulin (SHBG) receptor was solubilized from the membranes of human prostate glands with the zwitterionic detergent CHAPS (3-[(3-cholamidopropyl)dimethylammonio]-1-propane-sulfonic acid). The binding activity of the soluble receptor was measured by allowing it to bind to 125I-SHBG and precipitating the complex with polyethylene glycol-8000. The binding activity was stable for at least 4 months at -20 degrees C and had a half-life of 23 days at 4 degrees C. Like the membrane-bound receptor, Scatchard analysis revealed two sets of binding sites for the soluble one. At equilibrium (24 h), the high affinity site had an association constant (KA) of 6.8 x 10(8) M-1 and a binding capacity of 1.4 pmol/mg protein, whereas the low affinity site had a KA of 4.7 x 10(6) M-1 and a binding capacity of 43 pmol/mg protein. At 37 degrees C, the association rate constant (k1) was 8.37 x 10(5) M-1 min-1 and the dissociation rate constant (k2) was 3.43 x 10(-4) min-1. The soluble receptor was retarded on Sepharose CL-6B and had an apparent Mr = 167,000.     

Prolactin binding in the developing rat fetal liver

The binding of prolactin by fetal rat liver cell membrane fractions from 17 to 21 days gestation was studied. Particulate liver membranes were prepared in Dulbecco's Phosphate Buffered Saline (PBS) by ultracentrifugation and incubated at 22 degrees C for 16 hours with [125I] iodo-human growth hormone (hGH). Non-specific binding was assessed by parallel incubations in the presence of a 2000-fold excess ovine prolactin. Specific prolactin binding sites were detected only at 21 days gestation (2932 +/- 401 cpm/mg protein) in freshly prepared membranes. On freezing at -20 degrees C for 24 to 48 hours, the membranes of 20 days gestation animals were able to specifically bind prolactin (1295 +/- 239 cpm/mg protein). Freezing led to a 45 +/- 7% increase (4270 +/- 701 cpm/mg protein) in prolactin binding at 21 days gestation. No hormonal binding was detected from 17 through 19 days gestation in either fresh or freeze-thawed membranes. Scatchard analysis revealed a high affinity binding site with a Ka of approximately 1.4 X 10(8)M-1 in both fresh and freeze-thawed membrane preparations. The data show that 1) prolactin receptors appear in liver only during late fetal life and that 2) freezing of membranes may unmask binding sites that are initially unavailable to specifically bind prolactin.     

Placental lactogen not growth hormone and prolactin regulates secretion of progesterone in vitro by the 40-45 day ovine corpus luteum of pregnancy

The study was designed to compare the direct effect of three prolactin-like hormones on steroidogenesis of ovine luteal cells collected at day 40-45 of pregnancy. 100 ng/ml of ovine placental lactogen or 100 ng/ml of ovine growth hormone or 100 ng/ml of ovine prolactin were added to the media of luteal cell cultures. After 48 h incubation, all cultures were terminated and the media were frozen until further steroid analysis. To determine to what extent growth hormone (GH), prolactin (PRL) and lactogen (PL) regulate the activity of 3 beta-HSD, an enzyme involved in progesterone synthesis, the classical steroidal competitive inhibitor of 3 beta-HSD trilostane, was investigated for its effects on basal and GH-, PRL-, and PL-stimulated progesterone biosynthesis since there is a possibility that the luteotropic effect of these hormones are mediated via 3 beta-HSD. oPL resulted in an increase of progesterone secretion in a statistically significant manner, while GH or PRL had no effect on progesterone secretion. A decrease in progesterone secretion as an effect of 100 mM trilostane was observed in all culture types. An explanation for the luteotropic effect of PL and the lack of this effect for GH is that the GH receptor associates with a different molecule within the ovarian tissue and forms a heterodimeric receptor for PL, and the possibility that physiological effects of native oPL may be mediated through its binding to specific PL receptors, which have low affinities for oGH and oPRL.     

An essential role of domain D in the hormone-binding activity of human beta 1 thyroid hormone nuclear receptor

By analogy with steroid receptors, human placental thyroid hormone nuclear receptor (hTR beta 1) could be divided into four functional domains: A/B (Met1-Leu101), C (Cys102-Ala170), D (Thr171-Lys237), and E (Arg238-Asp456). The E domain was thought to bind thyroid hormone. To evaluate whether domain E alone is sufficient to bind T3 or requires the presence of other domains for functional T3-binding activity, a series of deletion mutants was constructed. The mutants were expressed in Escherichia coli, and the expressed proteins were purified. Analysis of the T3-binding affinity and analog specificity of the purified truncated hTR beta 1 indicated that domain E alone did not have T3-binding activity. Extension of the amino-terminal sequence of domain E to include part of domain D yielded a mutant (Lys201-Asp456) with a Ka for T3 of 0.5 +/- 0.2 x 10(9) M-1. Further extension to include the entire domain D (Met169-Asp456) yielded a mutant with T3-binding activity with a Ka of 0.8 +/- 0.1 x 10(9) M-1. Further extension of the amino-terminal sequence to include domain C increased the affinity for T3 by nearly 2-fold (Ka = 1.5 +/- 0.4 x 10(9) M-1). The Ka for the wild-type hTR beta 1 is 1.5 +/- 0.2 x 10(9) M-1. Furthermore, mutant (Met169-Asp456) binds to 3',5',3-triiodo-L-thyropropionic acid, D-T3, L-T4, and L-T3 with 307%, 37%, 7%, and 0.1%, respectively, of the activity of L-T3. This order of analog affinity is similar to that of the wild-type hTR beta 1.(ABSTRACT TRUNCATED AT 250 WORDS)