Specific binding of iodinated growth hormone to rat liver in vivo.

The specific uptake by rat liver of human (hGH) and bovine (bGH) GHs labeled with 125I was studied by an in vivo procedure. A significant reduction of the uptake was observed when labeled hormones were injected together with different amounts of the corresponding native GH. This reduction was dose dependent, and the concentration of native hormone that prevents 50% of the liver uptake of the labeled hormone was close to 12 microgram/100 g BW. In normal rats, only native hGH or bGH significantly decreased the liver uptake of [125I]iodo-bGH, while bovine PRL (oPRL) or heat-denatured bGH were inactive. The highest inhibition of the uptake of [125I]iodo-hGH by rat liver was obtained when this labeled hormone was injected either together with hGH or with bGH plus oPRL while partial displacement was observed with bGH or oPRL. These data suggest that hGH binds to both somatotropic and lactogenic sites in the liver of normal rats. In hypophysectomized animals, only the somatogenic binding sites could be detected.     

Reduction of lactogenic receptors in female hamster liver due to the human growth hormone analog produced by plerocercoids of the tapeworm, Spirometra mansonoides

The inductive effect of GH on hepatic lactogenic receptors is suspected of being due to a direct somatogenic action. Plerocercoid larvae of the tapeworm, Spriometra mansonoides, produce a factor that stimulates body growth, suppresses endogenous GH, and specifically displaces [125I]human (h) GH from hepatic receptors. Plerocercoid growth factor (PGF) mimics the growth-promoting actions of GH, but it has not been shown to duplicate all of the activities reported for GH. An important function of GH is its role in the maintenance of liver receptors for lactogenic hormones. This study was undertaken to determine if treatment of female hamsters with PGF would increase, decrease, or have no effect on liver receptors that bind hGH. Since hGH binds to somatogenic as well as lactogenic receptors, it was necessary to demonstrate the specificity of PGF's effects on [125I]hGH binding. PGF-treated (15 pleocercoids sc) hamsters had accelerated body growth, suppressed serum GH, and a marked reduction in [125I]hGH and [125I]ovine PRL binding to hepatic microsomes. Specific binding of [125I] bGH was unaltered by PGF treatment. The difference in [125I] hGH binding was due to a reduction in receptor number and not to receptor occupancy or reduced affinity. Serum GH was normalized after 10 days of estradiol benzoate (25 micrograms/day) injections, but the binding capacity for [125I]hGH of the PGF-treated group was less than half that of the control group. The fact that estrogen injections normalized serum GH, but not hGH binding, indicates that down-regulation of these receptors by PGF cannot be entirely explained on the basis of reduced levels of serum GH. The lack of any effect of PGF treatment on [125I]bGH binding suggests that the hepatic somatogenic receptors were not involved and that the reduction in receptors for [125I]hGH was associated with the lactogenic component of hGH.     

Interaction of human growth hormone with isolated rat liver cells.

The interaction of 125I-labeled human growth hormone (hGH) with isolated rat liver cells is a specific, time dependent and saturable process. In male rats, one cell binds a maximum of 2000 hormone molecules; the dissociation constant of the cell-hGH interaction is about 3 X 10(-10)M. Liver cells of female rats bind 5 to 10 times more hGH than do those of male rats at equivalent hormone concentrations. Binding of 125I-labeled hGH to liver cells is readily inhibited by native hGH; 50% inhibition occurs at about 2 X 10(-9)M hGH irrespective of sex. In male rats, bovine growth hormone (bGH) is almost as potent as hGH in inhibiting 125I-labeled hGH binding; no displacement occurs with ovine prolactin (oPRL) except at very high (greater than 10(-6)M) concentrations. In female rats, bGH competes less effectively, and oPRL, more effectively, than they do in males; in addition, oPRL demonstrates a higher apparent affinity for the hGH binding sites (4 X 10(-9)M) than does bGH (1 X 10(-8M). These findings suggest that in female rats hGH, unlike bGH, interacts with additional, "lactogenic" binding sites that are distinct from the "growth hormone" binding sites. The 125I-labeled hGH eluted from liver cells as well as that which remains in the incubation medium retains full biological activity, as judged on its ability to bind specifically to liver membranes. Treatment of liver cells by phospholipase A causes a 5-fold increase in cell binding capacity. Liver cells bind about the same amount of hGH as do crude particulate fractions from these cells; this suggests that in the intact cell, binding occurs at relatively accessible sites, presumably localized in the plasma membrane.     

Induction of lactogenic receptors in liver of hypophysectomized rats treated with bovine growth hormone-monoclonal antibody complexes

Male hypophysectomized rats treated with bovine (b)GH-monoclonal antibody complexes showed enhanced weight gain compared with animals treated with bGH alone over a 12-day treatment period. Liver microsomes prepared from animals showing enhanced weight gain exhibited increased specific binding of human (h)GH. Studies on the specificity of these binding sites showed that they were lactogenic, 125I-labelled hGH being displaced by ovine prolactin, but not by non-mammalian growth hormones. In this respect they were similar to lactogenic binding sites in the liver of pregnant rats. Monoclonal antibodies to hGH blocked binding to lactogenic receptors to different extents. The pattern of such inhibition was similar, but not identical, for the receptors induced in hypophysectomized rats and those from pregnant rat liver. The evidence available suggests that the lactogenic receptors induced by bGH-monoclonal antibody complexes are not directly involved in the enhancement of growth.     

Distribution and specific binding "in vivo" of iodinated growth hormones in the turtle Chrysemys dorbigni.

Bovine (bGH) and human growth hormone (hGH) labeled with ¹²⁵I were injected into turtle Chrysemys dorbigni, in order to study their distributions in tissues. The radioactivity was basically concentrated by the liver and kidney, reaching a maximum 4 hr after the labeled hormone injection. Only the liver showed a significant reduction of radioactivity uptake, when labeled growth hormone was injected together with an excess of unlabeled hormone. This reduction was dose dependent. Injection of [¹²⁵I]iodo-hGH produced higher uptake of radioactivity by the liver than [¹²⁵I]iodo-bGH. The study performed suggests: (1) specific uptake of hGH or bGH by the liver; and (2) the presence in the liver of both somatogenic and lactogenic binding sites.     

Effects of thyroid hormones on liver binding sites for human growth hormone, as studied in the rat.

Several weeks after thyroidectomy (T), female rats stopped growing, and their pituitary GH content had decreased to less than 2--3% of the values found for age-matched controls (C). The liver membranes of such animals were explored with human GH (hGH). It was found that in the severely hypothyroid T rat, the number, but not the affinity, of the lactogenic binding sites was markedly reduced. Treatment of these rats for 3 weeks with 1.75 micrograms or T4 or 0.5 micrograms T3/100 g body weight/day restored growth, increased pituitary GH content and restored the number of liver lactogenic binding sites were practically to normal. As regards the lactogenic binding sites, similar results were obtained when the severely hypothyroid rats were treated with a much lower T4 dose (0.2 microgram/100 g/day): this dose was clearly growth promoting, and restored to normal both the low circulating GH levels and the pituitary PRL content of the severely hypothyroid rat. The changes in plasma PRL were not clear. The lactogenic binding sites on liver membranes from rats which were both thyroidectomized and hypophysectomized were decreased in number. Treatment with 0.5 microgram T3/100 g/day for 30 days (but not for 12 days) resulted in an increase in the number of lactogenic binding sites, though it did not affect growth or the undetectable plasma GH levels. The effect on the lactogenic binding sites was less marked than in T rats with an intact pituitary. It would appear that minute amounts of thyroid hormones are needed for maintenance of liver lactogenic binding sites; it is possible that this not only occurs through mechanism(s) which involve the pituitary, but also through others which do not. The possible role of these receptors in growth processes is not yet clearly understood.     

Characterization of somatogenic and lactogenic binding sites in isolated rat hepatocytes.

Suspensions of rat hepatocytes isolated enzymatically by the method of Berry and Friend were used to study the binding of 125I-labeled human (hGH) and bovine (bGH) growth hormones and ovine prolactin (oPRL). Displacement of these labeled hormones by their unlabeled analogues was analyzed by means of Scatchard plots and affinity constants (K) and the number of binding sites per cell (q) were calculated. Specificity of binding was studied using hGH, bGH oPRL and rat growth hormone (rGH) and rat prolactin (rPRL). Rat hepatocytes contained two types of binding sites which bound hGH. The first, somatogenic, was specific for the growth-promoting hormones bGH and rGH. The second, lactogenic, was specific for lactogenic hormones, oPRL and rPRL. Human GH, which has both lactogenic and growth-promoting properties in rodents, bound to both sites. The somatogenic binding sites were present in both males and females, and the number of sites was similar in females and in males and was not affected by hypophysectomy. The lactogenic binding sites were present only in females, and the number of lactogenic and somatogenic sites was similar (40,000/cell). The affinity of hGH for the lactogenic binding sites was less than for the somatogenic (0.37 X 10(9) vs. 1 X 10(9)M-1). The lactogenic binding sites were lost when female rats were hypophysectomized and could not be restored by estrogen treatment.     

Characterization and modulation of growth hormone and prolactin binding in mouse liver.

The specific binding of 125I-labeled insulin, human hormone ([125I]hGH), bovine growth hormone ([125I]bGH), and ovine prolactin ([125I]oPRL) was studied in mouse liver membranes. [125I]hGH and [125I]oPRL bound to adult liver membranes. Pregnancy increased the specific binding of [125I]hGH but not that of [125I]oPRL. [125I]hGH was displaced from membranes of pregnant mice by hGH, oPRL, and bGH, but only by hGH and oPRL from liver membranes of nonpregnant mice. Significant specific binding of [125I]bGH was seen only in pregnancy. The binding of [125I]bGH to pregnant mouse liver membranes increased with increasing concentration of either membrane protein or [125I]bGH. Both the specific binding and dissociation of [125I]bGH were greatly influenced by the time and temperature of incubation. Binding of [125I]bGH was inhibited by growth hormones, including hGH and rat GH, and not by lactogenic hormones (various prolactins and human placental lactogen), ACTH, glucagon, or insulin. The inhibition of [125I]hGH binding by hGH and bGH, in the presence of excess (2 mug/ml) of PRL, was very similar to that seen with [125I]bGH. Scatchard plots of displacement dose-response curves obtained under steady state conditions of 4C were nonlinear and very similar with either [125I]bGH or [125I]hGH. This contrasted with the linear Scatchard plots obtained from displacement dose-response curves of either [125I]oPRL or [125I]hGH in the presence of excess (2 mug/ml) bGH. Termination of pregnancy, either naturally or by hysterectomy, reduced [125I]bGH specific binding to nonpregnant levels by 24 to 36 h. Estrogen administration did not increase [125I]bGH binding in hepatic membranes. Nonpregnant mice possess hepatic lactogen binding sites which are uninfluenced by pregnancy. GH specific binding sites are markedly augmented during pregnancy. The close correlation between the level of these sites and pregnancy suggests that they are regulated by a product of the fetoplacental unit.     

Solubilization of a growth hormone-specific receptor from rabbit liver.

Membrane preparations from rabbit liver, known to possess GH-specific binding sites, have been solubilized with Triton X-100 and the binding characteristics of [125I]-human GH (hGH) and [125I]-bovine GH (bGH) subsequently studied. Specific binding of the hGH and bGH by the solubilized preparation was demonstrated of bound and free hormone by either polyethylene glycol precipitation or by Sephadex G-100 chromatography. Binding of hGH was both rapid and reversible and was displaced only by other growth hormones (bovine and ovine) and not by lactogenic hormones (ovine and human prolactins, human placental lactogen). As shown by Scatchard analysis specific binding of [125I]-bGH exhibited a lower binding affinity and capacity than did [125I]-hGH. Overall, the characteristics of the binding reaction for hGH were not significantly different from those reported for the particulate membrane preparation. The solubilization process did not appear to alter the binding protein(s) therefore, and permits a further study of the isolation, purification and properties of the binding protein(s) itself.     

Induction of prolactin receptors in the liver is more closely related to the growth-promoting than to the lactogenic potency of peptides

The sex differentiated binding 125I-human prolactin (PRL) to rat liver membranes was studied and the present results extend our previous studies on induction of hepatic PRL receptors by growth hormone (GH). In prepubertal female rats, PRL receptor levels are low compared with those in mature female rat livers. Infusion of hGH during one week to 17-day-old female rats resulted in a receptor level typical of adult female rats. The time course of receptor disappearance in male rats treated with hGH was also studied. When the receptor-inducing hormone was removed, receptor levels in hGH-treated male rats returned to the normal level characteristic of male rats after approximately 96 h. The specificity of various GH-like and PRL-like hormones in PRL receptor induction was studied in hypophysectomized rats. The PRL-like hormones were identified by measuring their potency to displace 125I-hPRL from a receptor preparation obtained from female rat livers, and the GH-like hormones were identified by their potency to increase body weight in hypophysectomized rats. Using similar doses of hormones it was found that in vivo administration of growth-promoting peptides (rGH, hGH, bGH) induced PRL receptors, whereas lactogenic hormones (rPRL, hPL) had a very small or no effect on PRL receptor induction. This suggests that binding to a type of GH receptor is the first step in PRL receptor induction.     

The presence of lactogen but not growth hormone binding sites in the isolated rat hepatocyte.

The binding of 125I-labelled human growth hormone (hGH) and bovine growth hormone (bGH) has been studied in hepatocytes isolated from female rats by perfusion with collagenase in situ. The cells appeared to retain normal membrane function, in that amino acid ([14C]alpha-aminoisobutyric acid) transport was both saturable and temperature-dependent. Amino acid ([14C]leucine) incorporation into protein was also linear over 3 h and was inhibited by cycloheximide. Binding of 125I-labelled hGH was dependent on time, temperature, hepatocyte concentration and hGH concentration. At 22 degrees C, binding reached a steady-state after 2-5 h and had a half-life of dissociation of 2-3 h. Hormone specificity studies indicated that binding was specific for hormones with prolactin-like activity (hGH, prolactins) and not for growth hormones themselves (bGH). Scatchard analysis revealed a single class of binding site with a binding capacity of 26-74+/-3-73 fmol/10(6) cells and a binding affinity of 1-24 X 10(9)+/-0-17 X 10(9) (S.E.M.) 1/mol (n=10). There was a significant sex difference in binding (female greater than male) and binding was subject to marked regulation by oestrogens (stimulation of binding) and by androgens (inhibition). The lactogen-binding sites, therefore, were comparable in many respects to those previously reported in rat liver membranes. No distinct GH binding sites were demonstrable as shown by the lack of specific binding by 125I-labelled bGH, purified either by Sephadex chromatography or by binding to and elution from GH receptors in rabbit liver membranes. The value of receptor purification of tracer for use in hormone binding studies was indicated by a substantial lowering of non-specific binding.     

Evidence that the N-terminus of human growth hormone is involved in expression of its growth promoting, diabetogenic, and insulin-like activities.

Recent work with various point and deletion mutants of human GH (hGH) has suggested that the proximal N-terminal end of the hormone molecule is important for its growth promoting action. This study was conducted to examine the growth promoting, diabetogenic, and insulin-like activities of two N-terminal mutants of hGH, the deletion mutant Des-7 hGH (met8, ala11), and a chimeric mutant of bovine GH (bGH) and hGH containing the N-terminal 13 amino acids of bGH (met, ala 1-13/14-191, asp11). The CD spectra of these mutants are similar to that of wild-type hGH and they retain lactogenic activity on Nb2 lymphoma cells, whereas their ability to bind to somatogenic receptors on IM-9 lymphocytes and bovine liver membranes is markedly reduced. In this study, growth promoting activity of the mutants was assessed using the 9-day weight gain test in hypophysectomized rats. Des-7 hGH had a potency of 0.03 IU/mg protein in this assay, whereas the potency of the bGH/hGH chimera was 0.71 IU/mg. Diabetogenic activity was tested in the ob/ob mouse, using the elevation of fasting blood glucose and the worsening of glucose tolerance after a 3-day course of treatment as end-points. Both Des-7 hGH and the bGH/hGH chimera had reduced diabetogenic activity compared to that of biosynthetic wild-type hGH, consistent with their reduced growth activity. Insulin-like activity was assessed by testing the in vitro ability of the mutants to stimulate [14C] glucose oxidation by epididymal adipose tissue of hypophysectomized rats. Des-7 hGH had about 1% the activity of wild-type hGH, whereas the chimera was about 20% as active. When Des-7 hGH was added to the incubation medium along with wild-type hGH in ratios of 5, 12.5, or 25:1 (Des-7 hGH:hGH), the insulin-like action of hGH was significantly inhibited, indicating that the mutant is a modest antagonist of the insulin-like action of hGH. When the ability of Des-7 hGH to compete with [125I] hGH for binding to isolated rat adipocytes was tested, the mutant was about 10% as effective as wild-type hGH. Thus, Des-7 hGH appears to be more effective in binding to adipocyte GH receptors than in triggering an insulin-like response, perhaps accounting for its modest antagonistic activity. The results of this study suggest that the proximal N-terminal end of the hGH molecule is involved in the expression of the growth promoting, diabetogenic and insulin-like activities of GH.     

Continuous administration of growth hormone does not prevent the decrease of IGF-I gene expression in zinc-deprived rats despite normalization of liver GH binding

To determine the role of reduced liver GH binding (GHR) in the decreased IGF-I observed in zinc-deficient (ZD) animals, we investigated the effects of GHR restoration on growth, insulin-like growth factor I (IGF-I) and its binding proteins (IGFBPs) in ZD rats. Rats were fed for 4 weeks a zinc-deficient diet (ZD Zn, 0 ppm) or a Zinc-normal diet (pair-fed or PF; Zn, 75 ppm). ZD rats received continuous s.c. infusion of bovine growth hormone (bGH) (100 microg/d) for the 4 weeks or for the last week of the study. Compared with pair-fed rats, zinc deficiency produced attenuated weight gain (-43%, P < 0.001), lower serum IGF-I and liver IGF-I mRNA (-52%, P < 0.001 and -44%, P < 0.05), lower serum IGFBPs (IGFBP-3 -66%, IGFBP-4 -48%, 34-29 kDa IGFBP cluster -53%, P < 0.05), lower liver GHR and its mRNA (-20 and -34%, P < 0.05) and lower serum growth hormone binding protein (GHBP) and its mRNA (-56 and -48%, P < 0.05; all comparisons vs PF rats). Exogenous bGH given continuously normalized the liver GHR, serum GHBP and their liver mRNAs, as well as circulating IGFBPs. Despite restoration of GHR and GHBP to normal, growth, serum IGF-I and its liver mRNA were not stimulated by GH infusion in ZD rats, indicating that IGF-I synthesis requires the presence of zinc in addition to GH, and that the lack of growth-promoting action of GH in zinc-deprived rats results from a defect beyond GH binding to its liver receptors.     

Distinct placental lactogen and prolactin (lactogen) receptors in bovine endometrium.

Specific binding sites for bovine placental lactogen (bPL) and the lactogenic hormone, prolactin, have been detected in endometrial membranes isolated from uteri of mid-pregnant heifers. The specific binding of human growth hormone (hGH) (used to monitor the presence of lactogenic binding sites) and of bPL was increased approximately 4-fold following treatment of the membranes with 4 M MgCl2. Binding was found to be ligand specific, membrane protein concentration-, time- and temperature-dependent and reversible. Scatchard analysis of bPL and hGH competition binding data revealed curvilinear plots with dissociation constants for the high affinity sites of 4.1 x 10(-11) M and 6.4 x 10(-11) M, respectively. The maximum capacity of binding of bPL at the high affinity site was 21 fmol/mg). membrane protein while approximately twice the level of binding was measured for hGH (39 fmol/mg). Both hGH and bGH, but not ovine prolactin, competed with [125I]bPL for binding. The concentrations of hGH and bGH needed to effectively compete were however 100-fold higher than those required for unlabeled bPL. No specific binding of radiolabeled bGH was detected in endometrial tissue suggesting the absence of bGH receptors. Preferential competition of [125I]hGH binding was observed by prolactin and bPL. From these data it may be inferred that hGH binding is indicative of the presence of both lactogenic (prolactin) and bPL binding sites in endometrial tissue. The presence of distinct bPL receptors in the endometrium from mid-pregnant cows suggests a possible role for bPL in the maintenance of pregnancy.     

Lactogenic and somatotropic binding sites in liver membranes of rats with renal insufficiency

Binding sites for human GH (hGH) were studied in liver membranes of rats with chronic renal insufficiency (CRI) associated with marked growth retardation. A subtotal nephrectomy was performed in young female rats. One month after the nephrectomy, the animals with a plasma creatinine level 3 times or more that of controls were studied; their mean statural gain was 56% that of controls. The specific binding of [125I]hGH to microsomal membranes of rats with CRI was low (40% that of controls). The number of binding sites rather than the affinity of the binding was affected; both the lactogenic and somatotropic sites were decreased, as judged from the binding of ovine [125I]PRL and bovine [125I]GH. The binding sites of the plasma membranes as well as those of the Golgi fractions, were reduced. In plasma membranes of rats with CRI, the specific binding of glucagon was low, and the specific binding of insulin was elevated; these modifications were associated with a high plasma glucagon level and a decreased insulinemia in rats with CRI, but no modification of plasma GH and PRL levels was found. Thus, the hormone level does not appear to regulate the GH-binding sites in this system. The link between the growth defect and the decreased number of GH-binding sites in the liver membranes of rats with CRI remains to be established.     

UP-regulation of lactogenic receptors -- an immunological artifact?

We examined whether injection of heterologous hormones for more than one week might evoke a humoral immune response which would simulate receptor induction. Male rats were injected daily for ten days with human growth hormone (hGH) or ovine prolactin (oPRL), and binding of 125I-hGH and 125I-oPRL was examined in serum and in membranes from liver and lung. Specific binding of 125I-hGH and 125I-oPRL increased in the sera of hGH- and oPRL-injected animals, respectively. A marked increase in hGH but not oPRL binding also occurred in crude membrane-preparations of tissues from hGH-injected rats. Similarly oPRL but not hGH binding increased in tissues of PRL-injected animals. Furthermore, binding activity solubilized from liver membranes of hormone-injected rats was precipitated with Staphylococcus aureus (protein A) indicating that the induced binding sites were immunoglobulin-like. Hence apparent up-regulation of lactogenic receptors following long-term treatment with heterologous hormones may be due to generation of anti-hormone antibodies.     

Potentiation of the somatogenic and lactogenic activity of human growth hormone with monoclonal antibodies

Monoclonal antibodies of certain epitope specificity have been shown to produce a marked dose-dependent enhancement of the somatogenic and lactogenic activity of human GH (hGH). Two antibodies (EB1 and EB2), binding to distinct antigenic determinants and expressed on both hGH and human chorionic somato-mammotrophin (hCS), significantly enhanced the hGH-stimulated uptake of 35S-labelled sulphate into cartilage. Similarly, these antibodies enhanced the lactogenic activity of both hGH and hCS in the pigeon crop sac test. Two hGH specific monoclonal antibodies (QA68 and NA71), defining a further two epitopes, exhibited only modest enhancing or inhibitory activity in these assays, whereas the binding of certain combinations of monoclonal antibodies resulted in either reversal of enhancement or inhibition of hormone activity. Univalent antibody fragments derived from EB1 were as enhancing as the intact antibody indicating that bivalency dependent mechanisms were not involved in the phenomenon. Enhancing monoclonal antibodies were relatively poor inhibitors of 125I-labelled hGH binding to liver microsomal receptors, which is in contrast with their previously described property of potent suppression of hGH interaction with lymphoid cell receptors. It is tentatively concluded that 'restriction' of hormone binding to particular hGH receptors, relevant to somatic growth or lactogenic activity, may play a role in the enhancement phenomenon of hGH in vivo.     

Comparative study of in vitro and in vivo modulation of lactogenic and somatotropic receptors by native human growth hormone and its modified analog prepared by recombinant deoxyribonucleic acid technology

A modified analog of human GH (hGH), prepared by recombinant DNA technology, that lacks 13 amino acids at the amino terminus (Met14hGH), was able to compete with [125I]hGH for binding to lactogenic receptors in Nb2-11C rat lymphoma cells, to somatotropic receptors in IM-9 human lymphocytes, and to both lactogenic and somatotropic receptors in the microsomal fraction of virgin female rat liver. Exposure of intact Nb2 or IM-9 cells to Met14hGH did not reduce the number of surface or intracellular receptors, as compared to the control without hormone. A parallel exposure to 500-fold lower concentrations of hGH resulted in 77-93% reduction in both surface and intracellular receptors. In contrast to [125I]hGH, [125I]Met14hGH was not taken up by the intact Nb2 lymphoma cells. Infusion of anesthetized female virgin rats for 3 h with hGH down-regulated both lactogenic and somatotropic receptors in the liver. A similar infusion with up to 200-fold higher amounts of Met14hGH did not lower the number of total receptors, indicating lack of down-regulation. Some decrease in the binding to free receptors was observed, suggesting that Met14hGH is capable of binding to liver receptors in vivo.     

The interrelationship of growth hormone (GH), liver membrane GH receptor, serum GH-binding protein activity, and insulin-like growth factor I in the male rat

Indirect evidence suggests that the serum GH-binding protein (GH-BP) is related and possibly derived from the GH-receptor. GH, through its specific receptor, is the major regulator of insulin-like growth factor I (IGF-I) synthesis. The present study was undertaken to correlate serum GH-BP activity with liver plasma membrane GH receptors and their effects on serum IGF-I concentration during spontaneous pulsation of rat (r)GH in the normal male rat and after continuous delivery of human (h)GH to hypophysectomized male rats. In the first set of experiments, 45-day-old male rats were decapitated at 15 min intervals for 4 h. Serum GH-BP levels fluctuated with a 60 min lag behind the rGH levels. IGF-I pulsated over a 3-fold concentration range. IGF-I peak levels coincided with one of the rGH peaks, but its periodicity was longer than 3 h. Taken together with our previous studies on the turnover of the GH receptors, we suggest that each GH surge results in individual pulse-related turnover wave of receptor internalization and recycling. This is accompanied by a parallel increase in serum GH-BP activity. The GH and the receptor wave are responsible for an individual secretion pulse of IGF-I. In the second set of experiments male rats were hypophysectomized at 35 days of age. Four days later osmotic minipumps were implanted for continuous delivery of hGH. After 6 days of hGH treatment the rats were killed, blood was collected for hGH, GH-BP, and IGF-I determination, and the livers were removed. Plasma membranes were prepared, and lactogenic and somatogenic binding of [125I]hGH was evaluated. Removal of endogenous ligand was performed by exposing the membranes to 3 M MgCl2. Continuous administration of hGH induced a dose-dependent increase in liver membrane lactogenic and somatogenic binding. Parallel to that increase, serum GH-BP also increased in a dose-dependent manner, and the correlation between serum GH-BP and the liver membrane receptor was significant. Furthermore, hGH induced a dose-dependent increase in IGF-I concentration. There was a close correlation between IGF-I concentration and liver somatogenic receptors. It is concluded that up-regulation of the liver membrane GH receptors is accompanied by increased GH-BP and IGF-I. In both the pulsation experiment and the continuous infusion experiment, GH-BP closely correlated with the liver membrane GH receptor.     

A single arginine residue determines species specificity of the human growth hormone receptor.

Although growth hormone (GH) receptors (GHRs) in many species bind human (h) GH as well as their own GH, the hGHR only binds primate GH. Arg43 in hGHR interacts with Asp171 of hGH. Nonprimates have a His in the position equivalent to residue 171 of primate GH and a Leu in position 43 of primate GHR. To determine whether Arg43 accounts for the species specificity of the hGHR, point mutations that changed Leu43 to Arg were introduced into the cDNAs encoding the bovine (b) GHR or the rat GH binding protein (GHBP) and these mutants or their wild-type (WT) counterparts were expressed in mouse L cells. Binding of hGH or bGH to transfected cells or to GHBP secreted into the incubation medium was assessed by displacement of 125I-labeled hGH. WT and mutant bGHR bound hGH with similar affinity, but the affinity of the mutant receptors for bGH was reduced 200-fold. Likewise, WT and mutant GHBP bound hGH with equal affinity, but only WT GHBP bound bGH. Cross-linking of 125I-labeled hGH to WT or mutant GHR produced a 141-kDa labeled complex whose appearance was blocked by unlabeled hGH, but bGH blocked cross-linking only to WT receptors. Both hGH and bGH stimulated tyrosine phosphorylation of a 95-kDa protein in cells transfected with WT GHR, but bGH was less effective in cells expressing mutant GHR. We conclude that incompatibility of Arg43 in the hGHR with His171 in nonprimate GH is the major determinant of species specificity.