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.     

Evidence for Differential Binding of Growth Hormones to Membrane and Cytosolic GH Binding Proteins of Rabbit Liver

Abstract

The existence of three GH binding proteins in rabbit liver membranes has been adduced from binding studies with a panel of monoclonal antibodies (1)˙ Immunologically cross-reactive analogues of ‘type 2’ binding proteins were shown to exist in rabbit liver cytosol and in affinity purified receptor from liver microsomes. We now report differences in the binding of human and ovine GH with respect to two antigenic determinants on the ‘type 1″ GH binding protein. The discovery of these differences has enabled the detection of cross-reactive analogues of both binding protein types ‘1″ and ‘2’ in liver cytosol and in affinity purified preparations from liver membranes. These findings show a) a close structural relationship between the pool of cytosolic GH binding proteins and those present in the membranes; and b) differential ligand binding to, as well as absolute ligand selection by GH binding proteins, which could reflect the ability of GH to trigger a range of biological responses either through different receptors or differential interaction with particular receptor subtypes.     

Site-directed mutagenesis of beta-adrenergic receptors. Identification of conserved cysteine residues that independently affect ligand binding and receptor activation

Using site-directed mutagenesis of the human beta 2-adrenergic receptor and continuous expression in B-82 cells, the role of 3 conserved cysteines in transmembrane domains and 2 conserved cysteines in the third extracellular domain in receptor function was examined. Cysteine was replaced with serine in each mutant receptor as this amino acid is similar to cysteine in size but it cannot form disulfide linkages. Replacement of cysteine residues 77 and 327, in the second and seventh transmembrane-spanning domains, respectively, had no effect on ligand binding or the ability of the receptor to mediate isoproterenol stimulation of adenylate cyclase. Substitution of cysteine 285, in the sixth transmembrane domain of the receptor, produced a mutant receptor with normal ligand-binding properties but a significantly attenuated ability to mediate stimulation of adenylate cyclase. Mutation of cysteine residues 190 and 191, in the third extracellular loop of the beta 2 receptor, had qualitatively similar effects on ligand binding and isoproterenol-mediated stimulation of adenylate cyclase. Replacement of either of these residues with serine produced mutant receptors that displayed a marked loss in affinity for both beta-adrenergic agonists and antagonists. Replacement of both cysteine 190 and 191 with serine had an even greater effect on the ability of the receptor to bind ligands. Consistent with the loss of Ser190 and/or Ser191 mutant receptor affinity for agonists was a corresponding shift to the right in the dose-response curve for isoproterenol-induced increases in intracellular cyclic AMP concentrations in cells expressing the mutant receptors. These data implicate one of the conserved transmembrane cysteine residues in the human beta 2-adrenergic receptor in receptor activation by agonists and also suggest that conserved cysteine residues in an extracellular domain of the receptor may be involved in ligand binding.     

Mutational analysis of the ligand-binding domain of the prolactin receptor

The recent isolation and sequencing of the rat liver prolactin (PRL) receptor cDNA (clone F3) revealed that the receptor is a small molecular weight protein (nonglycosylated form, Mr 33,000; glycosylated form, Mr 42,000) comprised of 291 amino acids. A second form of the PRL receptor exists (591 amino acids) that contains a much longer cytoplasmic domain. In the present study, site-directed point mutations of the 5 conserved cysteine (Cys) residues and of the three potential N-linked glycosylation sites in the extracellular domain of the rat PRL receptor were constructed to assess their involvement in hormone binding. In addition, a truncation mutant (T delta 237) lacking 55 of 57 intracellular amino acids was constructed to determine the influence of the cytoplasmic domain on ligand-receptor interactions. Binding studies of transiently transfected COS-7 cells demonstrated that serine substitution of the first 4 Cys residues (Cys12, Cys22, Cys51, and Cys62) completely eliminated binding of 125I-ovine PRL and 125I-U5 and -U6, two monoclonal antibodies that bind the receptor molecule outside the PRL-binding domain. RNA blot analysis of the transfected cells showed that both the wild-type and mutant clones had similar levels of expression of receptor mRNA. Immunoblot analysis demonstrated that lack of PRL binding in these mutants was not due to incomplete processing of the protein, since the fully glycosylated Mr 42,000 form of the receptor was seen. Mutation of Cys184 had no effect on affinity or dimerization capacity of the receptor, suggesting the 5th cysteine is not directly involved in the binding domain. Carbohydrate groups of some receptors have been shown to be involved in ligand-receptor interactions as well as intracellular trafficking. This does not appear to be the case for the PRL receptor, since there was no corresponding decrease in affinity for PRL or cell surface receptor expression, following mutation of each of the 3 asparagine residues to aspartate. Interestingly, T delta 237 showed a 4-5-fold increase in affinity for PRL as well as a marked increase in the number of receptor sites. Whole cell binding assays also demonstrated that loss of the cytoplasmic domain lead to inefficient recycling of the receptor. These studies suggest that the first 4 conserved Cys residues are crucial for ligand binding.(ABSTRACT TRUNCATED AT 400 WORDS)     

Alteration in the receptor binding specificity of human growth hormone by genomic exon exchange

The biological activities of the GH-PRL family of hormones are mediated by selective binding to two classes of cell membrane receptors, somatogen and lactogen. Primate GH such as human GH (hGH) are unusual in that they bind to both classes of receptors. Replacement of exons 3 or 4 of the hGH gene by the corresponding exons of the rat PRL or rat GH genes results in the synthesis of chimeric proteins which retain the ability to bind to lactogen receptors but can no longer bind to somatogen receptors. This selective loss of somatogen receptor binding in the chimeric proteins suggests that certain of the structural determinants of somatogen and lactogen receptor binding activities in hGH are distinct and can be separately modified by a limited number of amino acid substitutions.     

Dissecting the energetics of an antibody-antigen interface by alanine shaving and molecular grafting.

Alanine-scanning mutagenesis on human growth hormone (hGH) identified 5 primary determinants (Arg 8, Asn 12, Arg 16, Asp 112, and Asp 116) for binding to a monoclonal antibody (MAb 3) (Jin L, Fendly BM, Wells JA, 1992, J Mol Biol 226:851-865). To further analyze the energetic importance of residues surrounding these five, we mutated all neighboring residues to alanine in groups of 7-16 (a procedure we call alanine shaving). Even the most extremely mutated variant, with 16 alanine substitutions, caused less than a 10-fold reduction in binding affinity to MAb3. By comparison, mutating any 1 of the 5 primary determinants to alanine caused a 6- to > 500-fold reduction in affinity. Replacing any of the 4 charged residues (Arg 8, Arg 16, Asp 112, and Asp 116) with a homologous residue (i.e., Arg to Lys or Asp to Glu) caused nearly as large a reduction in affinity as the corresponding alanine replacement. It was possible to graft the 5 primary binding determinants onto a nonbinding homologue of hGH, human placental lactogen (hPL), which has 86% sequence identity to hGH. The grafted hPL mutant bound 10-fold less tightly than hGH to MAb3 but bound as well as hGH when 2 additional framework mutations were introduced. Attempts to recover binding affinity by grafting the MAb3 epitope onto more distantly related scaffolds having a similar 4-helix bundle motif, such as human prolactin (23% sequence identity) or granulocyte colony-stimulating factor, were unsuccessful.(ABSTRACT TRUNCATED AT 250 WORDS)     

Use of Cysteine Trapping to Map Spatial Approximations between Residues Contributing to the Helix N-capping Motif of Secretin and Distinct Residues within Each of the Extracellular Loops of Its Receptor

Amino-terminal regions of secretin-family peptides contain key determinants for biological activity and binding specificity, although the nature of interactions with receptors is unclear. A helix N-capping motif within this region has been postulated to directly contribute to agonist activity while also stabilizing formation of a helix extending toward the peptide carboxyl terminus and docking within the receptor amino terminus. We used cysteine trapping to systematically explore spatial approximations between cysteines replacing each residue in this motif of secretin (sec), Phe⁶, Thr⁷, and Leu¹⁰, and cysteines incorporated into the extracellular face of the receptor. Each peptide was a full agonist for cAMP, but had a lower binding affinity than natural hormone. These bound to COS cells expressing 61 receptor constructs incorporating cysteines in every position along each extracellular loop (ECL) and adjacent parts of transmembrane (TM) segments. Patterns of covalent labeling were distinct for each probe, with Cys⁶-sec labeling multiple residues in the carboxyl-terminal half of ECL2 and throughout ECL3, Cys⁷-sec predominantly labeling only single residues in the carboxyl-terminal end of ECL2 and the amino-terminal end of ECL3, and Cys¹⁰-sec not efficiently labeling any of these residues. These spatial constraints were used to refine our model of secretin bound to its receptor, now bringing ECL3 above the amino terminus of the ligand and revealing possible charge-charge interactions between this part of secretin and receptor residues in TM5, TM6, ECL2, and ECL3, which can orient and stabilize the peptide-receptor complex. This was validated by testing predicted approximations by mutagenesis and residue-residue complementation studies.     

Direct determination of the interleukin-6 binding epitope of the interleukin-6 receptor by NMR spectroscopy

All cytokines belonging to the interleukin-6 (IL-6)-type family of cytokines utilize receptors that have a modular build of several immunoglobulin-like and fibronectin type III-like domains. Characteristic of these receptors is a cytokine receptor homology region consisting of two such fibronectin domains defined by a set of four conserved cysteines and a tryptophan-serine-X-tryptophan-serine sequence motif. On target cells, interleukin-6 first binds to its specific receptor and subsequently to a homodimer of the signal transducer protein gp130. The interleukin-6 receptor consists of three extracellular domains. The N-terminal immunoglobulin-like domain is not involved in ligand binding, whereas the third membrane proximal fibronectin-like domain accounts for more than 90% of the binding energy to IL-6. Here, the key residues of this fibronectin-like domain involved in the interaction with IL-6 are described. Chemical shift mapping data with 15N-labeled IL-6R-D3 and unlabeled IL-6 coupled with recent structural data clearly reveal the epitope within the IL-6R-D3 responsible for mediating the high affinity interaction with its cognate cytokine.     

Primary structure of chicken pituitary prolactin deduced from the cDNA sequence. Conserved and specific amino acid residues in the domains of the prolactins

The perform of chicken prolactin (PRL) deduced from the cDNA sequence contains a signal peptide of 30 amino acid residues followed by a mature PRL of 199 residues. Chicken PRL shows 77, 68, 67, 58, and 31% identity of amino acid sequence with whale, human, ovine, rat, and salmon PRLs, respectively. Elucidation of the primary structure of avian PRL enabled extended analysis of the specific and conserved amino acid residues and domains of the PRL molecules. The mammalian, teleostean, and avian PRLs share 32 common residues, and these conserved residues are observed to cluster in four distinct domains (PD1 to PD4), corresponding to four of five conserved domains of the growth hormones. Of the 32 residues, 8 residues in the PD2 and PD4 domains, including 4 cysteines, are conserved by other members of the growth hormone family, which indicates that these 8 residues may be essential for common structural features of the gene family. On the other hand, 13 other residues distributed among all four domains are conserved almost exclusively in the PRLs, suggesting that these residues are indispensable for specific binding of the PRLs to their receptors.     

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.     

Characterization of pituitary IGF-I receptors: modulation of prolactin and growth hormone

There have been no studies in any vertebrate that have localized insulin-like growth factor (IGF)-I receptors in prolactin (PRL) cells or that have correlated pituitary binding to the potency of IGF-I in regulating both PRL and growth hormone (GH) secretion. We show that IGF-I binds with high affinity and specificity to the pituitary gland of hybrid striped bass (Morone saxatilis x M. chrysops). IGF-I and IGF-II were equipotent in inhibiting saturable (125)I-IGF-I binding, whereas insulin was ineffective. IGF-I binds with similar affinity to the rostral pars distalis (>95% PRL cells) as the whole pituitary gland and immunohistochemistry colocalizes IGF-I receptors and PRL in this same region. Des(1-3)IGF-I, a truncated analog of IGF-I that binds with high affinity to IGF-I receptors but weakly to IGF-I binding proteins (IGFBPs), showed a similar inhibition of saturable (125)I-IGF-I binding, but it was more potent than IGF-I in stimulating PRL and inhibiting GH release. These results are the first to localize IGF-I receptors to PRL cells, correlate IGF-I binding to its efficacy in regulating GH and PRL secretion, as well as demonstrate that IGFBPs may play a significant role in modulating the disparate actions of IGF-I on PRL and GH secretion.     

Antibodies for Growth Hormone and Prolactin Using Multiple Antigen Peptide Immunogens

Antibodies elicited by novel synthetic peptide antigens derived from a highly conserved domain of the growth hormone (GH) and prolactin (PRL) of vertebrates were developed using the multiple antigen peptide approach. The sequence of the antigens is located near the carboxy-terminus in the D domain of the GH and PRL in a cluster of 11 and 10 conserved amino acids, respectively, within a sequence of 18 residues. The synthetic peptides were manually synthesized, purified by high-performance liquid chromatography, and the corresponding antibodies, elicited in rabbits, were cross-reacted with the GH and PRL of a variety of mammalian (human, bovine, ovine, pig, and equine) and nonmammalian (chicken, coho salmon, chum salmon, rainbow trout, catfish and striped bass) vertebrates. The cross-reactivity between the immunogen and its corresponding antigen was tested by immunobloting using either GH or PRL. The GH and PRL of the organisms tested cross-reacted specifically with the corresponding antibody. Chicken and fish GH and PRL showed stronger antibody cross-reactivity than that observed in mammalian sources. These results demonstrate the utility of peptide-derived polyclonal antibodies in the detection of native and recombinant GH and PRL of a variety of vertebrates. Received June 1, 1998; accepted November 13, 1998.     

Alanine scanning mutagenesis of a type 1 insulin-like growth factor receptor ligand binding site

The high resolution crystal structure of an N-terminal fragment of the IGF-I receptor, has been reported. While this fragment is itself devoid of ligand binding activity, mutational analysis has indicated that its N terminus (L1, amino acids 1-150) and the C terminus of its cysteine-rich domain (amino acids 190-300) contain ligand binding determinants. Mutational analysis also suggests that amino acids 692-702 from the C terminus of the alpha subunit are critical for ligand binding. A fusion protein, formed from these fragments, binds IGF-I with an affinity similar to that of the whole extracellular domain, suggesting that these are the minimal structural elements of the IGF-I binding site. To further characterize the binding site, we have performed structure directed and alanine-scanning mutagenesis of L1, the cysteine-rich domain and amino acids 692-702. Alanine mutants of residues in these regions were transiently expressed as secreted recombinant receptors and their affinity was determined. In L1 alanine mutants of Asp(8), Asn(11), Tyr(28), His(30), Leu(33), Leu(56), Phe(58), Arg(59), and Trp(79) produced a 2- to 10-fold decrease in affinity and alanine mutation of Phe(90) resulted in a 23-fold decrease in affinity. In the cysteine-rich domain, mutation of Arg(240), Phe(241), Glu(242), and Phe(251) produced a 2- to 10-fold decrease in affinity. In the region between amino acids 692 and 702, alanine mutation of Phe(701) produced a receptor devoid of binding activity and alanine mutations of Phe(693), Glu(693), Asn(694), Leu(696), His(697), Asn(698), and Ile(700) exhibited decreases in affinity ranging from 10- to 30-fold. With the exception of Trp(79), the disruptive mutants in L1 form a discrete epitope on the surface of the receptor. Those in the cysteine-rich domain essential for intact affinity also form a discrete epitope together with Trp(79).     

Cloning and expression of ovine placental lactogen

Ovine placental lactogen (oPL) is active in a wide range of GH and PRL assays, a property that it shares with human GH (hGH). In addition, oPL is one of a small number of hormones that bind the human GH receptor with high affinity. In order to compare the sequence of oPL to the sequences of other members of the GH family, full-length cDNA clones have been isolated. These clones predict that the full sequence of oPL contains 198 amino acids preceded by a 38 amino acid signal sequence. The mature oPL sequence includes six cysteine and two tryptophan residues and shows substantially more identity to bovine PL (67%) and oPL (49%) than to mouse (31%) or human (25%) PL or to oGH (28%) or (26%) hGH. Like the natural hormone, oPL expressed in mammalian tissue cells binds with high affinity to a soluble form of the recombinant hGH receptor. Thus, oPL binds to the human receptor in spite of having a sequence that is considerably divergent from hGH. Interestingly, the sequence of oPL differs from hGH at most of the amino acids recently found by mutagenesis studies to be important residues in the binding of hGH to the human receptor.     

Purification and partial characterization of a nonprimate growth hormone receptor.

Pregnant rabbit liver membranes have been shown to possess two types of receptors by displacement analysis, a growth hormone (GH) receptor which binds bovine growth hormone with an affinity constant (KA) of 3 x 10(9) M-1 and ovine prolactin with a KA of 3 x 10(8) M-1, and a prolactin (Prl)-specific receptor which binds ovine prolactin with a KA of 5 x 10(9) M-1. The prolactin-specific receptor when solubilized with Triton exhibits a 4-fold increase in the its KA while the KA of the growth hormone receptor decreases slightly to 2 x 10(9) M-1 after solubilization. The 10-fold difference in affinity which results has been exploited to facilitate the separation of these two receptors by differential affinity chromatography on human growth hormone (hGH) affinity gels. The growth hormone receptor is eluted from the gel with 4 M urea while 5 M MgCl2 is required to elute the prolactin receptor. Conditions of affinity chromatography have been optimized, and further purification of the GH receptor by preparative isoelectric focusing and Sepharose 6B gel filtration resulted in a more than 8000-fold purification of the receptor. This material had a Stokes radius of 62 A, consistent with a molecular weight of 300,000 and gave one main band (75,000 to 80,000) and two minor bands on sodium dodecyl sulfate (SDS) polyacrylamide gels, which could be interpreted as indicating a tetrameric receptor. The GH receptor was shown to be a sialoglycoprotein (or closely associated with sialoglycoprotein) by analytical isoelectric focusing with an isoelectric point of 4.6. Specificity studies with the highly purified receptor confirmed the initial hypothesis that this receptor is capable of binding bovine growth hormone (bGH) with high affinity and ovine prolactin (oPrl) with low affinity, in contrast to the prolactin-specific receptor.     

The integrity of the conserved ''WS motif'' common to IL-2 and other cytokine receptors is essential for ligand binding and signal transduction.

Recent studies have identified a new family of cytokine receptors, which is primarily characterized by the conservation of periodically interspersed four cysteine residues and the W-S-X-W-S sequence ('WS motif') within the extracellular domain. However, the role of such conserved structures still remains elusive, in particular that of the WS motif. Interleukin-2 (IL-2) is known to play a critical role in the clonal expansion of antigen-stimulated T lymphocytes, and the IL-2 signal is delivered by one of the receptor components, the IL-2 receptor beta (IL-2R beta) chain. The IL-2R beta chain, unlike the IL-2R alpha chain, belongs to this receptor family. In the present study, we analyzed the function of the WS motif of IL-2R beta (Trp194-Ser195-Pro196-Trp197-Ser198) with the use of site-directed mutagenesis. Our results indicate the critical role of the two Trp residues in the proper folding of the IL-2R beta extracellular domain and point to the general functional importance of the WS motif in the new cytokine receptor family.     

The species specificity of growth hormone requires the cooperative interaction of two motifs

Primate growth hormones (GH) activate both primate and non-primate somatotrophic receptors (GH receptors), but non-primate GHs do not activate primate GH receptors. Previous studies argued the interaction of Asp(171) of human GH and Arg(43) of the receptor produced an attractive ionic interaction. In non-primate GHs, His(170) replaces the homologous Asp(171), producing a repulsive interaction with Arg(43) of the primate receptor which was believed to reduce the attraction of non-primate GH for the human GH receptor, thus providing species specificity. In this report, H170D bovine GH had activity and affinity for human GH receptors approaching those of human GH. In contrast, replacing Asp(171) of human GH with His did not significantly reduce somatotrophic activity, indicating that species specificity is not wholly explained by this residue's interaction with Arg(43) of the receptor. Deletion of either Phe(44) (a residue present only in primate GHs) or residues 32-46 (20-kDa form of human GH) each only marginally reduced somatotrophic activities. But the combination of the D171H mutation with either DeltaPhe(44) or Delta32-46 in human GH reduced binding and activity in a greater than additive fashion, indicated a functional interaction between these distant structural features. In bovine GH addition of phenylalanine at position 44 increased the somatotrophic activity and receptor affinity in cells containing the human GH receptor. The combination of the H170D mutation and the addition of phenylalanine at position 44 created a bovine GH with activity indistinguishable from wild-type human GH. Based on evidence from both bovine and human GHs, the cooperative interaction of these two distant motifs determined the species specificity and indicated that structural plasticity was a critical feature necessary for the species specificity of somatotrophic activity.