UMLS:C0432222 - FACTA Search

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A RIA for mouse GH receptor (mGHR) was developed. A synthetic peptide corresponding to the carboxyl-terminal 14 amino acids of the mGHR (GHR-2 peptide) was used as the antigen for antiserum production. The synthetic peptide was also used as the standard and radioligand in the RIA. The ability of the antiserum to recognize the mGHR was demonstrated by quantitating receptor concentrations in liver and mammary gland from virgin and 15-day-pregnant mice. Serial dilutions of these samples yielded displacement curves parallel to the synthetic peptide. No significant cross-reactivity was seen with serum from virgin or 15-day-pregnant mice, mGH, recombinant mGH-binding protein (mGHBP), a synthetic peptide identical to the hydrophilic tail of mGHBP, or a 14-amino acid synthetic peptide corresponding to amino acids 338-351 of mGHR (GHR-1 peptide). The concentration range of the mGHR RIA was 0.5-200 nM, and the intra- and interassay coefficients of variation were 6.5% and 6.1%, respectively. The concentration of liver GHR increased significantly during pregnancy compared with that in virgin mice, from 0.246 +/- 0.045 pmol/mg protein (mean +/- SEM; n = 5) in the virgin animals to 1.015 +/- 0.159 pmol/mg protein (n = 5) in pregnant mice. In contrast, the mGHR concentration in the mammary gland decreased significantly during pregnancy from 0.606 +/- 0.201 pmol/mg protein (mean +/- SEM; n = 5) to 0.299 +/- 0.027 pmol/mg protein (n = 5). Comparison of the total number of binding sites in livers from virgin and pregnant mice using the GH RRA and the combined results of the mGHR and mGHBP RIAs showed that the two methods gave almost identical results for livers from virgin animals, or 0.363 +/- 0.063 pmol/mg protein (mean +/- SEM; n = 3) and 0.371 +/- 0.008 pmol/mg protein (n = 3) for the GH RRA and the mGHR plus mGHBP RIAs, respectively. However, in livers from pregnant animals, the combined results from the mGHR and mGHBP RIAs were approximately 1.8 times higher than those obtained by the GH RRA, or 6.732 +/- 0.612 pmol/mg protein (mean +/- SEM; n = 3) and 3.693 +/- 0.67 pmol/mg protein (n = 3) for the mGHR plus the mGHBP RIAs and the GH RRA, respectively. The increase in the total GH binding capacity in livers from pregnant mice compared with those from virgin animals was largely due to an increase in the GHBP content. The increase in GHR was only 2.4-fold, or from 0.153 +/- 0.01 pmol/mg protein (mean +/- SEM; n = 3) in virgin mice to 0.364 +/- 0.03 pmol/mg protein (n = 3) in the 15-day-pregnant mice, whereas GHBP increased almost 30-fold during pregnancy, or from 0.218 +/- 0.003 pmol/mg protein (mean +/- SEM; n = 3) in virgin animals to 6.369 +/- 0.607 pmol/mg protein (n = 3) in pregnant mice.
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PMID:Development of a homologous radioimmunoassay for mouse growth hormone receptor. 968 11

Children with simple obesity (SO) show increased linear growth with normal or high serum insulin-like growth factor-I (IGF-I) levels during prepubertal period, despite low GH secretion. We measured IGF-I, IGFBP-1, GHBP and other factors to clarify the hormonal relation between the nutrition and the linear growth in SO and compared these factors with children with normal short stature (NS). Subjects were 23 SO and 19 NS children, and their height standard deviation (SD) scores were 0.7 +/- 0.2 SD and -3.4 +/- 0.3 SD (mean +/- SEM) (P < 0.01), respectively. Oral glucose tolerance test (OGTT) was performed in all the subjects and GH-releasing factor (GRF) test was also performed in 13 of SO and 17 of NS. The peak levels of GH in the GRF test were significantly lower in SO than in NS (12.8 +/- 1.7 vs. 39.8 +/- 6.9 ng/ml) and showed a significantly positive correlation with sigma IGFBP-1 (r = 0.63, P < 0.01). Serum GHBP level and IGF-I level were significantly higher in SO than in NS on pubertal stage matching. There was a positive correlation between GHBP and sigma insulin during OGTT (r = 0.75, P < 0.01). When the sum of the values during OGTT was expressed as sigma, sigma insulin, sigma C-peptide and sigma glucose were significantly higher in SO than in NS on pubertal stage matching. Basal and sigma IGFBP-1 were significantly lower in SO than in NS, but IGFBP-3 levels showed no significant difference between the two groups either in prepuberty or midpuberty. In conclusion, it can be hypothesized that the overnutrition causes hyperinsulinemia which increases GH receptor and IGF-I secretion despite low GH secretion. Hyperinsulinemia also may increase free IGF-I by lowering IGFBP-1. These two mechanism are supposed to be the nutrition related hormonal changes in SO and can explain the growth of SO. In addition, the increased free IGF-I may contribute the decreased GH secretion due to negative feedback in SO.
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PMID:Nutrition related hormonal changes in obese children. 970 Apr 75

Growth hormone (GH) quantitation in biological fluids varies depending on the assays employed, and factors which may interfere in the assays include the high affinity GH-binding protein (GHBP). To evaluate this potential effect on GH estimates, we studied the influence of adding increasing amounts of high affinity glycosylated GHBP to normal, acromegalic and GH-deficient sera, which were then processed in four different immunoassays. Two commercial immunometric assays, Delfia and Nichols (assays 1 and 2), and two RIAs, one using a polyethylene glycol (PEG) precipitation (assay 3) and one using wick-chromatography (assay 4) for separation of free and bound 125I-GH, were employed. In the Delfia assays, GH estimates of 11 sera decreased (p < 0.05) to 87.2 +/- 2.6%, 73.0 +/- 2.7% and 60.1 +/- 2.5% (mean +/- SEM) of basal GH estimates with the addition of GHBP in concentrations of 0.54, 2.14 and 6.42 nmol/l, respectively. In the Nichols assay, GH estimates were not significantly reduced (93.4 +/- 2.6%, 83.8 +/- 4.5% and 83.9 +/- 3.9%) with the applied GHBP concentrations. In assay 3 (RIA), the addition of GHBP increased GH estimates to 122 +/- 10.0% and 167 +/- 19.1% (both p < 0.05) with the addition of GHBP in concentrations of 2.14 and 6.42 nmol/l, respectively, whereas an increase in GHBP concentration of 0.54 nmol/l did not change the estimates from basal levels (99.0 +/- 4.8%, p > 0.05). In assay 4 (RIA), the addition of GHBP induced decreased GH estimates. With this varying influence of GHBP on GH estimates, binding protein interference should be taken into consideration when comparing GH estimates obtained with many currently utilized GH immunoassays. The present results demonstrate that GHBP levels within physiological range may interfere with the results of GH assays, giving either spuriously high or low values depending on the GH assay methodology.
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PMID:Influence of growth hormone binding protein on growth hormone estimation in different immunoassays. 981 86

The molecular basis for GH resistance in chronic renal failure is unknown. It may partly reside in a decreased number of hepatic GH receptors and subsequently reduced IGF-I synthesis. To investigate the hepatic expression of GH receptor/binding protein (GHBP) and IGF-I genes in chronic renal failure, mRNA levels and the concentrations of its splicing variants were measured by Northern Blot in male 5/6 nephrectomized rats (NX, n = 9), aged 26 +/- 1 days, and three groups of sham-operated rats: (1) fed ad libitum (SAL, n = 9); (2) pair-fed with NX (SPF, n = 7); and (3) pair-fed with NX in terms of protein ingestion but calorically supplemented up to the intake of SAL (SPF+, n = 8). NX rats had severe renal failure, serum urea nitrogen 106 +/- 11 mg/dl (mean +/- SEM), and were growth retarded. GH receptor/GHBP gene expression was detected as two bands of 4.7 and 1.2 kb, respectively. The amount of mRNA was lower (P < 0.0001) in NX than SAL, either when both bands were considered together or separately. No differences were found between NX, SPF, and SPF+. Serum GHBP concentrations were higher (P < 0.01) in NX rats than the other groups. For the IGF-I gene, two bands of 7.5 and 1.8-0.8 kb were identified. Expression of IGF-I gene was reduced (P < 0.05) in NX in comparison with SAL, this reduction being more marked for the 7.5 kb transcript (amount of mRNA equal to 56.6 +/- 2.6 vs 84.8 +/- 6.2% of values found in SAL rats). There were no differences between NX and SPF. Normalization of caloric intake in SPF+ resulted in partial recovery of the 7.5-kb band and did not modify the 1.8-0.8 kb mRNAs. Circulating IGF-I levels were no different among the four groups. These data confirm that expression of liver GH receptor/GHBP and IGF-I genes is markedly decreased in uremic rats. Nutritional deficiency and not uremia itself seems to be the main causal factor, with protein deficit playing a major role.
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PMID:Hepatic expression of growth hormone receptor/binding protein and insulin-like growth factor I genes in uremic rats. Influence of nutritional deficit. 1020 9

GH forms a high Mr complex in rat serum distinct from that with GH-binding protein (GHBP). The present study investigates the nature of this complex. When subjected to AcA44 filtration chromatography, 125I-labeled human GH (hGH) in rat serum eluted in four peaks. Peak 1 eluted at the void volume, whereas peaks 2, 3, and 4 corresponded to the GHBP complex, free hGH, and iodide, respectively. Stripping of GHBP in serum by immunoaffinity chromatography depleted peak 2 but did not affect peak 1. Peak 1 accounted for 11.4 +/- 1.2% of the total radioactivity (mean +/- SEM; n = 6) in stripped serum. Addition of unlabeled hGH (0.9-9 microM) demonstrated the binding of [125I]hGH to be specific, with Scatchard analysis revealing an affinity of 0.88 +/- 0.03 x 10(5) M(-1)(n = 3)and a capacity of 2.46 +/- 0.14 microM. Sepharose CL-6B filtration chromatography showed the complex to be 260 kDa in size. The distribution of GH binding to GHBP and this high Mr serum factor was investigated by incubating [125I]hGH in sera containing a low (5 nM) and a high (35 nM) concentration of GHBP over a range of physiological GH concentrations. In sera containing a low concentration of GHBP, the proportion of GH complexed in peak 1 increased with increasing GH concentrations. In sera with a high concentration of GHBP, GH was complexed mainly in peak 2. Studies with normal rat sera revealed that more GH was complexed in peak 1 in male than in female rats (3.4 +/- 0.4% and 1.4 +/- 0.1%, respectively; P < 0.006), in contrast to that of peak 2 (1.1 +/- 0.2% and 7.6 +/- 0.4%, respectively; P < 0.002). In summary, we provide strong evidence for the existence of a factor in rat serum that binds GH with low affinity and high capacity. It has a Mr of approximately 240 kDa, assuming a 1:1 binding stoichiometry, and is immunologically distinct from GHBP. This factor may provide supplementary capacity for GH binding when binding to GHBP is saturated.
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PMID:Characterization of a low affinity binding protein for growth hormone in rat serum. 1061 32

We previously described significant changes in GH-binding protein (GHBP) in pathological human pregnancy. There was a substantial elevation of GHBP in cases ofnoninsulin-dependent diabetes mellitus and a reduction in insulin-dependent diabetes mellitus. GHBP has the potential to modulate the proportion of free placental GH (PGH) and hence the impact on the maternal GH/insulin-like growth factor I (IGF-I) axis, fetal growth, and maternal glycemic status. The present study was undertaken to investigate the relationship among glycemia, GHBP, and PGH during pregnancy and to assess the impact of GHBP on the concentration of free PGH. We have extended the analysis of specimens to include measurements of GHBP, PGH, IGF-I, IGF-II, IGF-binding protein-1 (IGFBP-1), IGFBP-2, and IGFBP-3 and have related these to maternal characteristics, fetal growth, and glycemia. The simultaneous measurement of GHBP and PGH has for the first time allowed calculation of the free component of PGH and correlation of the free component to indexes of fetal growth and other endocrine markers. PGH, free PGH, IGF-I, and IGF-II were substantially decreased in IUGR at 28-30 weeks gestation (K28) and 36-38 weeks gestation (K36). The mean concentration (+/-SEM) of total PGH increased significantly from K28 to K36 (30.0 +/- 2.2 to 50.7 +/- 6.2 ng/mL; n = 40), as did the concentration of free PGH (23.4 +/- 2.3 to 43.7 +/- 6.0 ng/mL; n = 38). The mean percentage of free PGH was significantly less in IUGR than in normal subjects (67% vs. 79%; P < 0.01). Macrosomia was associated with an increase in these parameters that did not reach statistical significance. Multiple regression analysis revealed that PGH/IGF-I and IGFBP-3 account for 40% of the variance in birth weight. IGFBP-3 showed a significant correlation with IGF-I, IGF-II, and free and total PGH at K28 and K36. Noninsulin-dependent diabetes mellitus patients had a lower mean percentage of free PGH (65%; P < 0.01), and insulin-dependent diabetics had a higher mean percentage of free PGH (87%; P < 0.01) than normal subjects. Mean postprandial glucose at K28 correlated positively with PGH and free PGH (consistent with the hyperglycemic action of GH). GHBP correlated negatively with both postprandial and fasting glucose. Although GHBP correlated negatively with PGH (r = -0.52; P < .001), free PGH and total PGH correlated very closely (r = 0.98). The results are consistent with an inhibitory function for GHBP in vivo and support a critical role for placental GH and IGF-I in driving normal fetal growth.
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PMID:Placental growth hormone (GH), GH-binding protein, and insulin-like growth factor axis in normal, growth-retarded, and diabetic pregnancies: correlations with fetal growth. 1072 53

Growth impairment induced by chronic metabolic acidosis is associated with an abnormal growth hormone (GH)/insulin-like growth factor-I (IGF-I) axis. To examine the potentially beneficial effects of IGF-I on acidosis-induced growth impairment and the influence of GH and IGF-I treatment on the GH/IGF-I axis, three groups of acidotic young rats (untreated, AC, n=12; treated with recombinant human GH, GH, n=8; treated with recombinant human IGF-I, IGF-I, n=8) were studied, and compared with nonacidotic rats fed ad libitum (C, n=9)) or pair-fed with the AC group (PF, n=12). After 14 days of acidosis and 7 days of treatment, growth rate, hepatic abundance of 4.7-kilobase (kb) and 1.2-kb GH receptor transcripts and 7.5-kb and 1.8- to 0.8-kb IGF-I transcripts, serum GH-binding protein (GHBP), and IGF-I concentrations (mean+/-SEM) were analyzed. Significant decreases of 4.7-kb GH receptor [26+/-2 vs. 49+/-6 arbitrary densitometry units (ADU)] and 7.5 kb IGF-I (41+/-3 vs. 104+/-10 ADU) transcripts and low serum GHBP (25+/-1 vs. 32+/-1 ng/ml) and IGF-I (279+/-50 vs. 366+/-6 nmol/l) levels were found in the AC compared with the C rats. The majority of these alterations were also observed in PF rats. Compared with acidotic untreated rats, GH and IGF-I therapy produced no improvement in growth rate. GH treatment normalized the levels of IGF-I mRNA, aggravated the acidosis-related inhibition of the GH receptor gene, and did not modify the serum levels of GHBP and IGF-I. In contrast, IGF-I administration depressed the hepatic expression of all GH and IGF-I transcripts and normalized serum IGF-I concentrations. Our results confirm that sustained metabolic acidosis alters the GH/IGF-I axis, in part because of associated malnutrition, and induced growth retardation that is resistant to GH therapy. Our study also shows that administration of IGF-I does not accelerate the growth of acidotic rats, suggesting a peripheral mechanism, at the level of target tissues, is responsible for the resistance to the growth-promoting actions of GH and IGF-I.
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PMID:Resistance to growth hormone and insulin-like growth factor-I in acidotic rats. 1095 15

The physiological effects of insulin-like growth factor I (IGF-I) on intermediate metabolism of substrates have been extensively studied in a variety of experimental situations in man, and its effects on linear growth of children with GH receptor mutations have proven beneficial. However, there is a paucity of data on the metabolic effects of IGF-I as replacement therapy in adults with GH receptor deficiency (Laron's syndrome). We designed these studies to investigate the in vivo effects of 8 weeks of therapy with recombinant human IGF-I (rhIGF-I) in a unique group of 10 adult subjects with profound IGF-I deficiency due to a mutation in the GH receptor gene (mean +/- SEM age, 29.2 +/- 2.0 yr; 4 males and 6 females). At baseline, patients had infusions of stable tracers, including L-[13C]leucine, [2H2]glucose, and d5-glycerol, as well as indirect calorimetry, assessment of body composition (dual energy x-ray absortiometry), and measurements of growth factor concentrations. Patients were then discharged to receive twice daily rhIGF-I (60 microg/kg, sc) for the next 8 weeks when the studies were repeated identically. Plasma IGF-I concentrations increased during rhIGF-I treatment from 9.3 +/- 1.5 microg/L to 153 +/- 23 (P = 0.0001). There was no change in weight during these studies, but a significant change in body composition was observed, with a decrease in percent fat mass (P = 0.003) and an increase in lean body mass (P = 0.001). These were accompanied by increased rates of protein turnover, decreased protein oxidation, and increased rates of whole body protein synthesis, as measured by leucine tracer methods (P < 0.01). These results are similar to those observed in GH-deficient subjects treated with GH. All measures of lipolytic activity and fat oxidation increased during treatment, with an 18% increase in the glycerol turnover rate (P = 0.04), an increase in free fatty acid and beta-hydroxybutyrate concentrations, and a significant increase in fat oxidation, as measured by indirect calorimetry (P = 0.04). There were significant decreases in insulin concentrations (P = 0.01) and a reciprocal increase in glucose production rates (P = 0.04) during rhIGF-I, yet plasma glucose concentrations remained constant, suggestive of a significant insulin-like action of this peptide. RhIGF-I was well tolerated by all patients. In conclusion, 8 weeks of treatment with rhIGF-I had significant positive effects on body composition and measures of intermediate metabolism independent of GH. These results suggest that, similar to GH treatment of adults with GH deficiency, rhIGF-I may be beneficial as long term replacement therapy for the adult patient with Laron's syndrome.
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PMID:Recombinant human insulin-like growth factor I has significant anabolic effects in adults with growth hormone receptor deficiency: studies on protein, glucose, and lipid metabolism. 1099 82

The present clinical study implements a novel interventional strategy of short-term profound and selective blockade of GH receptors to reduce plasma insulin-like growth factor I (IGF-I) concentrations reversibly in healthy eumetabolic adults. Thereby, we examine the feedback role of systemic IGF-I on GH secretion without introducing the complex metabolic disarray that can otherwise accompany secondary IGF-I deprivation. To this end, we sampled blood at 10-min intervals for 10 h overnight in 8 men (aged 19-46 yr) and 4 women (aged 19-39 yr) to quantitate endogenous GH secretion and half-life 72 h after the prospective, randomly ordered, double blind, and within-subject cross-over administration of pegvisomant (1 mg/kg) or saline (0.5 mL) sc. Pegvisomant is an oligopegylated recombinant human GH peptide mutated to antagonize GH receptor-dependent signaling. Statistical analyses of paired plasma IGF-I concentrations and deconvolution-based quantitation of pulsatile GH secretion revealed that GH receptor blockade 1) suppressed fasting total IGF-I concentrations by 31%, viz. from (mean +/- SEM) 276 +/- 42 (placebo) to 190 +/- 20 microg/L (pegvisomant; P = 0.006) 84 h after drug injection; 2) increased the 10-h mean serum GH concentration by 71% from 1.4 +/- 0.33 (placebo) to 2.4 +/- 0.58 (pegvisomant; P = 0.024); 3) augmented the amplitude of underlying GH secretory bursts by 2.1-fold (i.e. from 0.13 +/- 0.032 to 0.27 +/- 0.076 microg/L.min; P = 0.0088); and 4) elevated the basal/nonpulsatile rate of GH secretion by 2.5-fold (from 2.3 +/- 0.77 to 5.07 +/- 1.8 microg/L.10 h; P = 0.022). The rise in the amplitude of GH secretory bursts correlated with the fall in plasma IGF-I concentrations (r = 0.603; P = 0.038). In contrast, IGF-I depletion did not alter GH secretory pulse frequency, half-duration, interpulse interval, percentage of pulsatile GH release, or half-life of endogenous GH. In summary, selective short-term reduction of systemic IGF-I concentrations in healthy eumetabolic adults drives GH secretion via the specific bipartite neuroregulatory mechanism of amplified GH secretory burst amplitude and elevated basal/nonpulsatile GH release. Endogenous GH half-life and frequency-related features of pulsatile GH secretion are not measurably affected, thus identifying a highly distinctive mode of IGF-I feedback-dependent control of GH output. As the increment in GH secretory burst amplitude correlated with the decrement in plasma IGF-I concentrations, we infer that variations in circulating IGF-I availability within the adult midphysiological range can influence pulsatile and basal GH production by way of negative feedback. Based on data in experimental animals, we speculate that the negative feedback actions of systemic IGF-I on GH secretion are mediated via increased hypothalamic somatostatin release, decreased GHRH (or GH-releasing peptide) secretion, and/or suppressed pituitary GH biosynthesis.
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PMID:Lowering total plasma insulin-like growth factor I concentrations by way of a novel, potent, and selective growth hormone (GH) receptor antagonist, pegvisomant (B2036-peg), augments the amplitude of GH secretory bursts and elevates basal/nonpulsatile GH release in healthy women and men. 1144 5

Acromegaly is associated with premature cardiovascular mortality. GH replacement therapy decreases inflammatory markers of cardiovascular risk, but little is known about these markers in patients with acromegaly. The GH receptor antagonist, pegvisomant, reduces IGF-I levels in 98% of patients treated. We investigated the effects of GH receptor blockade on inflammatory and other cardiovascular risk markers in active acromegaly. Forty-eight patients with acromegaly and 47 age- and body mass index-matched controls were included. The study consisted of 3 parts: a cross-sectional study, a prospective randomized 12-wk placebo-controlled study, and a longitudinal open-label study of up to 18 months of pegvisomant treatment. After baseline evaluation, patients with acromegaly were randomized to placebo (n = 14), 10 mg (n = 12), 15 mg (n = 10), or 20 mg (n = 12) daily pegvisomant for 12 wk. Subsequently, all patients received at least 10 mg pegvisomant daily for up to 18 months, with dose adjustments to achieve a normal IGF-I level. Anthropometry, GH, IGF-I, and pegvisomant levels were measured monthly. C-reactive protein (CRP), IL-6, homocysteine, lipoprotein(a), glucose, insulin, triglycerides, total cholesterol, and high-density lipoprotein (HDL) and low-density lipoprotein (LDL) cholesterol were determined at baseline, 4 and 12 wk in the placebo-controlled study and at 3-month intervals (during which IGF-I levels were normal) in the longitudinal study. In the cross-sectional study, patients had lower CRP than did controls [median, 0.3 (range, 0.2-0.8) vs. 2.0 (0.6-3.7) mg/liter; P < 0.0001] and had higher insulin [78.6 (55.8-130.2) vs. 54.5 (36.6-77.5) pM, P = 0.0051]. IL-6, homocysteine, triglycerides, lipoprotein(a), LDL cholesterol and HDL cholesterol were not different between groups. In the placebo-controlled study, CRP increased in patients treated with 20 mg pegvisomant, compared with placebo (mean +/- SEM, 13.7 +/- 3.6 vs. 0.5 +/- 3.3 mg/liter; P = 0.010). There were no significant differences in IL-6, homocysteine, glucose, insulin, triglyceride, total cholesterol, LDL cholesterol and HDL cholesterol levels. In the longitudinal open-label study (median duration, 15.6 months), CRP increased by 2.0 +/- 0.5 mg/liter (P = 0.0002). Total cholesterol and triglycerides increased (0.22 +/- 0.11 mM, P = 0.050; and 0.25 +/- 0.09 mM, P = 0.007, respectively), whereas lipoprotein(a) decreased (-70 +/- 33 mg/liter, P = 0.039). Glucose, insulin, homocysteine, HDL cholesterol, and IL-6 did not change. We conclude that patients with active acromegaly have lower CRP and higher insulin levels than healthy controls. Administration of pegvisomant increases CRP levels. We propose that GH secretory status is an important determinant of serum CRP levels, although additional studies are needed to determine the mechanism and significance of this finding.
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PMID:Cardiovascular risk factors in acromegaly before and after normalization of serum IGF-I levels with the GH antagonist pegvisomant. 1193 3

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