Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acromegaly, a chronic disease of growth hormone (GH) hypersecretion, is most typically caused by a pituitary adenoma. Early diagnosis is critical for prompt intervention to prevent deleterious effects of prolonged exposure to elevated GH and insulin-like growth factor Type I (IGF-I) levels. Current therapy for acromegaly includes several options: surgery, radiotherapy and pharmacotherapy. Transsphenoidal adenomectomy remains a mainstay of therapy for acromegaly. Cure rates are high in microadenomas, but < 50% in macroadenomas. Conventional and stereotactic procedures for radiation therapy are also effective in decreasing GH levels in acromegalic patients, but they need years to normalise GH hypersecretion and carry with them the risk of hypopituitarism. The major classes of drugs currently used to treat acromegaly are dopamine agonists and analogues of somatostatin. Dopamine agonists bind to the D2 receptor and suppress GH hypersecretion in some patients with acromegaly. Their clinical effectiveness is modest, although promising results have been obtained with two novel compounds, quinagolide and cabergoline, that possess long duration of action. Somatostatin analogues have been shown to improve clinical symptoms of acromegaly, decrease hypersecretion of GH and IGF-I and reduce tumour volume in a clinically significant number of patients. Octreotide is administered by s.c. route several times a day, but the recently developed sustained release formulations (octreotide LAR and SR lanreotide) are administered only every 7-28 days by i.m. injections. The complications associated with somatostatin analogues are small, relative to the benefits. Lastly, compounds with a novel mechanism of action, the GH receptor antagonists, are presently under investigation.
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PMID:Current management of acromegaly. 1124 4

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

Established modalities of therapy for acromegaly (surgical adenomectomy, external beam pituitary irradiation, oral dopamine agonists, and injectable somatostatin analogues) have as their common goal the lowering of circulating growth hormone (GH) levels, with a consequent reduction in serum insulin-like growth factor I (IGF-I). Pegvisomant is a GH receptor antagonist that inhibits GH receptor dimerization and has a powerful ability to lower serum IGF-I levels in patients with active acromegaly. Currently available data suggest that pegvisomant is an effective treatment for acromegaly that is safe, well tolerated, and not associated with expansion of residual pituitary tumour over the time period studied.
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PMID:Experience with pegvisomant in the treatment of acromegaly. 1152 81

Neuroendocrine axes function as an ensemble of regulatory loci which communicate and maintain homeostasis via time-delayed blood-borne signals. The growth hormone (GH)-insulin-like growth factor I (IGF-I) feedback axis sustains a vividly pulsatile mode of interglandular signalling. Pulsatility is driven jointly by hypothalamic GH-releasing hormone (GHRH) and GH-releasing peptide (GHRP), and modulated by somatostatinergic restraint. Paradoxically, intermittent somatostatin inputs also facilitate somatotrope-cell responses to recurrent secretagogue stimuli, thereby amplifying pulsatile GH secretion. A concurrent low basal (8-12% of normal total) rate of GH release is controlled positively by GHRH and GHRP and negatively by somatostatin. Sex-steroid hormones (such as oestradiol and aromatizable androgen) and normal female and male puberty augment GH secretory-burst mass 1.8- to 3.5-fold, whereas ageing, relative obesity, physical inactivity, hypogonadism, and hypopituitarism mute the amplitude/mass of pulsatile GH output. An abrupt rise in circulating GH concentration stimulates rapid internalization of the GH receptor in peripheral target tissues, and evokes second-messenger nuclear signalling via the STAT 5b pathway. Discrete GH peaks stimulate linear (skeletal) growth and drive muscle IGF-I gene expression more effectually than basal (time-invariant) GH exposure. A brief pulse of GH can saturate the plasma GH-binding protein system and achieve prolonged plasma GH concentrations by convolution with peripheral distribution and clearance mechanisms. A single burst of GH secretion also feeds back after a short latency on central nervous system (CNS) regulatory centres via specific brain GH receptors to activate somatostatinergic and reciprocally subdue GHRH outflow. This autoregulatory loop probably contributes to the time-dependent physiologically pulsatile dynamics of the GH axis. More slowly varying systemic IGF-I concentrations may also damp GH secretory pulse amplitude by delayed negative-feedback actions. According to this simplified construct, GH pulsatility emerges due to time-ordered multivalent interfaces among GHRH/GHRP feedforward and somatostatin, GH and IGF-I feedback signals. Resultant GH pulses trigger tissue-specific gene expression, thereby promoting skeletal and muscular growth, metabolic and body compositional adaptations, and CNS reactions that jointly maintain health and homeostasis.
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PMID:Neurophysiological regulation and target-tissue impact of the pulsatile mode of growth hormone secretion in the human. 1152 85

Conventional treatments for acromegaly include surgery, radiotherapy, dopamine agonists and somatostatin (SMS) analogues, which effect disease control by lowering circulating growth hormone (GH). Due to variability in tumour characteristics, combinations of these treatment modalities leave a significant number of patients with sub-optimal serum GH and insulin-like growth factor-I (IGF-I) levels, which have been linked to increased morbidity and mortality. The GH receptor antagonist pegvisomant is a genetically engineered analogue of GH that prevents functional dimerisation of the growth hormone receptor (GHR); a process that is critical to GH action at the cellular level. A crucial amino acid substitution at Gly(120) to Arg(120) within the third alpha helix of the antagonist prevents functional GHR dimerisation. Pegvisomant represents a novel treatment for acromegaly as, unlike existing treatment modalities, the effectiveness of pegvisomant is independent of pituitary tumour characteristics. Initial clinical studies in patients with active acromegaly have demonstrated serum IGF-I normalisation in over 90% of patients receiving 20 mg per day, such that, in terms of serum IGF-I normalisation, pegvisomant now represents the most effective medical treatment for acromegaly. Although there are limited long-term data on the use of pegvisomant and questions regarding pituitary tumour growth and altered liver function remain, this therapy offers the prospect of serum IGF-I normalisation in the vast majority of patients with active acromegaly.
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PMID:The place of pegvisomant in the management of acromegaly. 1177 81

Standard medical therapy for patients with acromegaly includes somatostatin analogs. Owing to the widespread expression of somatostatin receptors, these may be associated with unwanted effects, such as altered glucose tolerance and impaired gut hormone release. Pegvisomant is a novel pegylated GH analog that competes with wild-type GH for GH-receptor binding sites but contains a position 120, amino acid substitution that prevents functional GH receptor dimerization, a known prerequisite for GH signal transduction and generation of IGF-I. We have studied the short-term effects of these two therapies (pegvisomant 20 mg/d for 7 d and octreotide 50 microg thrice daily for 7 d) on glucose tolerance and stimulated gut hormone release in six healthy male volunteers in an open-label, random-order, cross-over study. Subjects were assessed at baseline (oral glucose tolerance test and standard mixed meal) and on d 6 and 7 of each therapy with a minimum washout of 2 wk between treatments. Area under the curve and peak responses were analyzed using one-way repeated-measures ANOVA (on ranks where appropriate). Pegvisomant had no effect on glucose tolerance or stimulated gut hormone response during an oral glucose tolerance test and a standard meal. In contrast, octreotide significantly increased fasting plasma glucose, lowered fasting plasma insulin, and led to deterioration in glucose tolerance; three subjects developed impaired glucose tolerance and one diabetes mellitus by World Health Organization criteria. Octreotide significantly impaired stimulated release of cholecystokinin, gastrin, insulin, and pancreatic polypeptide. In conclusion, pegvisomant, unlike octreotide, is not associated with deterioration in glucose tolerance and impairment of stimulated gut hormone release in normal males.
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PMID:A comparison of the effects of pegvisomant and octreotide on glucose, insulin, gastrin, cholecystokinin, and pancreatic polypeptide responses to oral glucose and a standard mixed meal. 1193 20

Growth in humans is a complex process, controlled at numerous levels and by a myriad of factors. These factors may act centrally or peripherally and may be hormones, receptors, or transcription factors. Many of these probably are still unknown. The factors that are discussed here include those that act on the developing pituitary gland (transcription factors including LHX3, HESX1, PROP1, and PIT-1); those that regulate the normal activity of the pituitary (hypothalamic hormones such as GHRH, Ghrelin [growth hormone secretagoguel and somatostatin); those factors coming from the pituitary (essentially growth hormone [GH]); and the downstream modulators, transducers, and effectors of GH (including the GH receptor/GH binding protein, insulin-like growth factor-I and -II, their receptors, and their binding factors). What is becoming increasingly clear is the role of genetics in determining stature. This review discusses the most clinically relevant factors, with an emphasis on ontogeny, genetic inheritance, and clinical presentation.
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PMID:Genetic disorders of human growth. 1209 84

The regulation of the synthesis and secretion of human growth hormone (hGH), its biologic activity, and its therapeutic use are reviewed. Both the production and secretion of GH are stimulated by hypothalamic GH-releasing hormone (GHRH) and by the endogenous GH secretagogue (GHS) ghrelin, a product of the oxyntic cells located within the fundus of the stomach. Ghrelin and GHRH act synergistically to stimulate GH secretion when administered in vivo, but they act additively when incubated with somatotrophs in vitro. Ghrelin is also found within the hypothalamic arcuate nucleus where it may enhance the release of GHRH and impair that of somatostatin (SRIH) thus contributing to its synergism with GHRH; ghrelin is an orexigenic peptide as well as a GHS and appears to play an important role in energy metabolism. SRIH inhibits the secretion but not the synthesis of GH and more effectively that stimulated by GHRH than that by ghrelin. The action of GH is mediated by the GH receptor, a straight chain protein of 620 amino acids with extracellular, transmembrane and cytoplasmic domains. GH has two specific receptor binding sites, (I, II) that bind sequentially to similar acceptor sequences of two GHRs. Activation of the GHR signal transduction pathway begins with attachment of two Janus kinase 2 (JAK2) molecules to the intracellular domains of the GHRs leading to phosphorylation of the tyrosine residues of JAK2 and the GHRs; thereafter the signal transduction and activators of transcription (STAT) and Ras mitogen-activated-protein kinase pathways are enhanced. GHRH, SRIH, and ghrelin act through G-protein coupled receptors (GPCR); GHRH activates adenylyl cyclase, cyclic AMP, and protein kinase A pathways, while ghrelin stimulates phospholipase C activity leading to production of inositol 1,4,5-trisphophate and diacylglycerol, increase in cytosolic calcium levels, and GH release; SRIH acts though an inhibitory GPCR to prevent depolarization of the somatotroph thus blocking GH secretion. GH has long been used to stimulate linear growth in children with GH deficiency (GHD); it has also been demonstrated to be effective in adults with GHD. The availability of large quantities of recombinant hGH has broadly increased the number of children with short stature being treated with this agent--not always with marked effectiveness. Synthesis of the GHR antagonist pegvisomant has provided another agent with which to treat patients with acromegaly. GHRH also enhances linear growth rate effectively in children with GHD but is less effective than hGH. The discovery of peptidyl and non-peptidyl GH secretagogues (that preceded and led to the identification of ghrelin itself) presents yet other agents for stimulation of endogenous GH secretion that have been useful in diagnostic studies for GHD and for its treatment in small groups of subjects. It is likely that hGH and its secretagoguess will become of increasing clinical usefulness in future decades.
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PMID:Clinical pharmacology of human growth hormone and its secretagogues. 1247 95

The primary treatment of acromegaly remains transsphenoidal adenomectomy, yet the tissue overgrowth of acromegaly often progresses following surgery, and responds to radiotherapy only after significant delay. Persistently elevated serum growth hormone (GH) and insulin-like growth factor-I (IGF-I) concentrations can be normalized in about half of post-surgery acromegalics using the pharmacologic alternatives presently available, the dopamine agonists (DA) and somatostatin (SST) analogs. Cabergoline, the most efficacious DA, normalizes IGF-I in approximately 37% of patients, whereas the long-acting SST analogs, Octreotide LAR and Lanreotide SR, do so in 66%. Significant tumor shrinkage may be attained with SST analogs in particular, and when necessary, the primary medical treatment of acromegaly may be successfully addressed with this class of drugs. Greatly enhanced efficacy is expected from the GH receptor antagonist pegvisomant, which is nearing market availability and will enable the normalization of serum IGF-I in virtually all patients treated. We review here the pharmacologic treatments of excessive GH secretion.
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PMID:Medical management of growth hormone-secreting pituitary adenomas. 1267 3

Growth-hormone (GH) secreting adenomas, including acromegaly, account for approximately one-sixth of all pituitary adenomas and are associated with mortality rates at least twice that of the general population. The ultimate goal of therapy for acromegaly is normalization of morbidity and mortality rates achieved through removal or reduction of the tumor mass and normalization of insulin-like growth factor I (IGF-I) levels. Previously published efficacy results of current treatment modalities (surgery, conventional radiation, and medical therapy with dopamine agonists and somatostatin analogs) are often difficult to compare because of the different criteria used to define cure (some of which are now considered inadequate). For each of these modalities, pooled data from a series of acromegaly studies were reviewed for rates of IGF-I normalization, a currently accepted definition of cure. The results showed overall cure rates of approximately 10% for bromocriptine, 34% for cabergoline, 36% for conventional radiation, 50-90% for surgery for microadenomas and less than 50% for macroadenomas, and 54-66% for octreotide. These cure rates based on IGF-I normalization are generally less than those reported for cure based solely on GH levels. Novel new therapies for acromegaly include the somatostatin analog, lanreotide, Gamma Knife radiosurgery, and pegvisomant, the first in its class of new GH receptor antagonists. Although it does not appear that Gamma Knife radiosurgery results in significantly higher cure rates or fewer complications, it does provide a notable improvement in delivery compared with conventional radiation. Early studies have reported IGF-I normalization in 48% of lanreotide-treated patients and up to 97% of pegvisomant-treated.
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PMID:Current status and future opportunities for controlling acromegaly. 1281 11


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