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Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Glucagon
and adrenaline exert their action upon the liver via the cyclic AMP synthetizing system located in the plasma membrane. The enzyme adenylate cyclase is further regulated by guanyl nucleotides. It has been recently shown that the rat liver plasma membrane system could respond to GTP by simultaneous increase in the cyclase activity in response to
glucagon
and by the dissociation of this hormone from its binding sites (1). Unambiguous relationship between the activating effect of GTP upon the cyclase and its action upon
glucagon
binding has not been determined yet (2). This problem was approached using the in vitro action of epinephrine as a model. When 1 to 100 muM GTP or DGP were added to rat liver plasma membranes isolated from adrenalectomized animals, they increased markedly the response of the cyclase system to epinephrine. These effects could be observed in the absence of an ATP-regenerating system and were mimicked by 5'-guanylyl diphosphonate; GTP and GDP were the most active compounds followed by
ITP
, CTP and by a series of guanyl derivatives. UTP, as well as guanosine, GMP, cyclic GMP and ppGpp were inactive. Guanyl nucleotides did not increase the affinity of the cyclase system for the activating hormones, but enhanced the affinity for ATP-Mg and also the Vmax of the reaction. Finally, GTP, ATP, CTP, UTP but not GDP displaced epinephrine bound to plasma membranes by a mere chelation phenomenon. It is concluded that 1) guanyl nucleotides do not act primarily by influencing the binding of hormones to the membranes; 2) they act directly upon the catalytic subunit of the cyclase; 3) the low concentrations of GTP required for its action strongly suggest that this nucleotide plays a role in the physiological regulation of the intrahepatic cyclic AMP level.
...
PMID:[Role of guanidylic nucleotides in the adenylate cyclase activity of the rat liver]. 120 15
Hypothalamic-pituitary function was studied in four children with Optic Nerve Hypoplasia (ONH). All were found to be growth hormone deficient when provoked with
glucagon
or insulin induced hypoglycaemia (
ITT
), but did respond to bolus injection of GHRH. This indicates a primary hypothalamic defect. Virtual absence of pituitary tissue on high resolution CT scan explained the poor response of one child. One child has shown an excellent response to treatment with subcutaneous GHRH, which is physiologically the most appropriate treatment for this condition.
...
PMID:Response to growth hormone-releasing hormone as evidence of hypothalamic defect in optic nerve hypoplasia. 254 75
The
glucagon
stimulation test (GST) is often used to assess pituitary ACTH reserve, particularly when other tests are contra-indicated. In a preliminary investigation, in patients with pituitary disease, we failed to demonstrate the ACTH dependence of the cortisol response. We have therefore compared the ACTH, cortisol and glucose responses to
glucagon
(1 mg s.c.), insulin (0.2 U/kg i.v.,
ITT
) and placebo in six healthy male volunteers, sampling every 10 min for 6 h. During the GST, mean +/- SD serum cortisol rose from 256 +/- 80 nmol/l to a peak of 481 +/- 164 nmol/l (range 289-717 nmol/l, P less than 0.01) in comparison with 280 +/- 81 nmol/l to 602 +/- 110 nmol/l (range 493-742 nmol/l) during the
ITT
(P less than 0.002). The mean peak cortisol levels achieved in the two tests did not differ significantly. In the GST, plasma ACTH rose from a mean basal value of 10.9 +/- 16.6 ng/l to a mean peak level of 123 +/- 76 ng/l (P less than 0.02) (ACTH ng/l x 0.225 = pmol/l). The corresponding values in the
ITT
were 7.1 +/- 16.2 ng/l and 263 +/- 91 ng/l (P less than 0.001). The mean peak ACTH level was significantly greater during the
ITT
(P less than 0.05). Thus the cortisol response was ACTH dependent in both the GST and the
ITT
in normal subjects. Furthermore, the ACTH response was of sufficient duration to be detected by the usual procedure of sampling every 30 min.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Comparison of the ACTH and cortisol responses to provocative testing with glucagon and insulin hypoglycaemia in normal subjects. 256 Jun 84
The usual practice of considering type I diabetes synonymous with insulin-dependent diabetes has been criticized. Since type I diabetes can have a non-insulin-dependent phase (pre-type I diabetes and/or honeymoon) the differentiation of two main types of diabetes according to insulin-dependency is not absolute. We studied the insulin, C-peptide and
glucagon
responses to various tests (OGTT, IVGTT, glibenclamide test, mixed meal tolerance test and
ITT
) performed during the non-insulin-dependent phase of 3 young patients (range 8-18 years) who developed ketosis 12-24 months after the discovery of fasting hyperglycemia, and in 6 patients (age 15-23 years) who presented a remission phase 4-6 months after the sudden clinical onset of type I diabetes. An insignificant insulin and C-peptide increase following i.v. glucose was observed in all patients, whereas the B-cell response to both oral glucose and other secretagogues was preserved, although at a subnormal level. In the three hyperglycemic and preketoacidotic patients the basal levels of
glucagon
were low and no significant increase after secretagogues was seen. Sensitivity to exogenous insulin in all patients was good. Thus, B-cell response in our patients was reminiscent of the differential responsiveness to various stimulants in the early stage of type II (non-insulin-dependent) diabetes. These results suggest that type I and type II diabetes can be characterized by the same functional B-cell defect during a period of their natural history.
...
PMID:Pathophysiological study of the non-insulin-dependent phase of type I diabetes mellitus. 314 49
Glucagon
and N6,O2'-dibutyryl adenosine 3':5'-monophosphate (dibutyryl cyclic AMP) inhibit net glucose utilization, lactate plus pyruvate accumulation and fatty acid synthesis by isolated hepatocytes prepared from meal-fed rats. A crossover in the metabolite profile of the glycolytic intermediates occurs between fructose-6-phosphate and fructose-1,6-bisphosphate, suggesting either inhibition of phosphofructokinase or activation of fructose diphosphatase, or both. Direct assay of the enzymes in cell-free extracts of the hepatocytes indicates that dibutyryl cyclic AMP inhibits phosphofructokinase but has no effect upon fructose diphosphatase. The assay for phosphofructokinase was modified by the use of
ITP
in place of ATP for the phosphate donor as the ATP-linked assay is complicated by an apparent time-dependent activation of the enzyme. These findings strongly suggest that cyclic AMP inhibition of phosphofructokinase explains in part cyclic AMP inhibition of aerobic glycolysis and lipogenesis by rat liver hepatocytes.
...
PMID:Glucagon and N6,O2'-dibutyryl adenosine 3':5'-monophosphate inhibition of lipogenesis and phosphofructokinase activity of hepatocytes from meal-fed rats. 625 34
Specific binding sites for vasoactive intestinal peptide were characterized in plasma membranes from rat intestinal epithelial cells. At 30 degrees C, the interaction of 125I-labelled peptide with intestinal membranes was rapid, reversible, specific and saturable. At equilibrium, the binding of 125I-labelled peptide was competitively inhibted by native peptide in the 3 . 10(-11)--3 . 10-(7) M range concentration. Scatchard analysis of binding data suggested the presence of two distinct classes of vasoactive intestinal peptide binding sites: a class with a high affinity (Kd = 0.28 nM) and a low capacity (0.8 pmol peptide/mg membrane protein) and a class with a low affininty (Kd = 152 nM) and a high capacity (161 pmol peptide/mg membrane protein). Secretin competitively inhibited binding of 125I-labelled peptide but its potency was 1/1000 that of native peptide.
Glucagon
and the gastric inhibitory peptide were ineffective. The guanine nucleotides, GTP and Gpp(NH)p inhibited markedly the interaction of 125I-labelled peptide with its binding sites, by increasing the rate of dissociation of peptide bound to membranes. The other nucleotides triphosphate tested (ATP,
ITP
, UTP, CTP) were also effective in inhibiting binding of 125I-labelled peptide to membranes but their potencies were 1/100--1/1000 that of guanine nucleotides. The specificity and affinity of the vasoactive intestinal peptide-binding sites in plasma membranes prepared from rat intestinal epithelial cells, which is in agreement with an adenylate cyclase highly sensitive to the peptide recently characterized in these membranes (Amiranoff, B., Laburthe, M., Dupont, C. and Rosselin, G. (1978) Biochim. Biophys. Acta 544, 474--481) further argue for a physiological role of the peptide in the regulation of intestinal epithelial function.
...
PMID:Characterization of specific binding sites for vasoactive intestinal peptide in rat intestinal epithelial cell membranes. 735 Sep 25
Classical provocative stimuli of GH secretion such as insulin-induced hypoglycaemia, arginine, clonidine,
glucagon
and levodopa have been widely used in clinical practice for approximately 30 years. On the other hand, in the last 10 years new potent stimuli of GH secretion have been proposed, but an extensive comparison with the classical ones has rarely been performed, at least in adults. In order to compare the GH-releasing activity of old and new provocative stimuli of GH secretion, and to define the normative values of the GH response, in 178 normal adults (95 males, 83 females; age range: 20-50 years, all within +/-15% of their ideal body weight), we studied the GH response to: insulin-induced hypoglycaemia (
ITT
, 0.1IU/kg i.v.), arginine (ARG, 0.5g/kg i.v.), clonidine (CLO, 300 microg/kg p.o.),
glucagon
(GLU, 1mg i.m.), pyridostigmine (PD, 120mg p.o.), galanin (GAL, 80pmol/kg per min), GH-releasing hormone (GHRH, 1 microg/kg i.v.), GHRH+ARG, GHRH+PD, hexarelin, a GH-releasing protein (HEX, 2 microg/kg i.v.) and GHRH+HEX (0.25 microg/kg i.v.). The mean (+/-s.e.m.) peak GH response to
ITT
(21.8+/-2.8, range: 3.0-84.0 microg/l) was similar to those to ARG (18.0+/-1.6, range: 2.9-39.5 microg/l) or GLU (20. 5+/-2.2, range: 10.6-36.9 microg/l) which, in turn, were higher (P<0. 001) than those to CLO (8.2+/-1.6, range: 0.3-21.5 microg/l), PD (9. 6+/-1.1, range: 2.2-33.0 microg/l) and GAL (9.3+/-1.1, range: 3.9-18. 3 microg/l). The GH response to GHRH (19.1+/-1.5, range: 2.7-55.0 microg/l) was similar to those after
ITT
, ARG or GLU but clearly lower than those after GHRH+ARG (65.9+/-5.5, range: 13.8-171.0 microg/l) and GHRH+PD (50.2+/-4.6, range: 17.7-134.5 microg/l) which, in turn, were similar. The GH response to HEX (55.3+/-5.5, range: 13.9-163.5 microg/l) was similar to those after GHRH+ARG and GHRH+PD but lower (P<0.001) than that after GHRH+HEX (86.0+/-4.3, range: 49. 0-125.0 microg/l) which was the most potent stimulus of GH secretion. In this adult population the third centile limits of peak GH response to various stimuli were the following:
ITT
: 5.3; ARG: 2.9; CLO: 1.5; GLU: 7.6; PD: 2.2; GAL: 4.0; GHRH: 5.0; GHRH+ARG: 17.8; GHRH+PD: 17.9; HEX: 21.6; GHRH+HEX: 57.1. These results confirm that, among classical provocative tests of GH secretion,
ITT
followed by ARG and GLU are the most potent ones and possess clear limits of normality. GHRH+ARG or PD and HEX are strong stimuli of GH secretion which, however, is maximally stimulated by a combination of GHRH and a low dose of HEX. It is recommended that each test is used with appropriate cut-off limits.
...
PMID:Comparisons among old and new provocative tests of GH secretion in 178 normal adults. 1075 75
Although paediatric Cushing's disease is rare, it is associated with severe morbidity in childhood and presents a major diagnostic and therapeutic challenge for the paediatric endocrinologist. Growth failure remains an important feature of paediatric Cushing's disease, both at diagnosis and after successful treatment. However, the development of specific diagnostic tests and important therapeutic advances has contributed significantly to the current management. Transsphenoidal pituitary surgery (TSS) is now accepted as first-line therapy for both adult and paediatric Cushing's disease, offering the best opportunity for cure while preserving normal pituitary function. The cure rate following TSS in our centre is currently 62%; therefore, a significant proportion of children following TSS will remain uncured. Our favoured second-line therapy is pituitary radiotherapy, which is effective, rapid and appears to spare anterior pituitary function, with the exception of GH secretion. Growth failure was a symptom at diagnosis in 74% of patients; mean height SDS -1.81 (-0.28 to -4.17) compared with mean BMI SDS 2.29 (1.72-5.06). Height velocity (HV) was also subnormal; range 0.9-3.8 cm/yr. Chronic hypercortisolaemia suppresses linear growth and a history of symptoms for >2 years was obtained in 72% of our paediatric patients with Cushing's disease. In our series, 9 out of 10 patients did not demonstrate catch-up growth 0.64 years after TSS or pituitary radiotherapy and peak serum GH level to
glucagon
/
ITT
stimulation was 0.5-20.9 mU/l. Assessment of GH secretion over a period of 6 to 108 months after cure of paediatric Cushing's disease suggests that impaired GH secretion may persist into adult life. Investigation of possible GHD is performed in our unit in all post-cure patients who do not show optimal catch-up growth. If GH secretion is subnormal, GH replacement is started early and continued until final height, when GH secretion is reassessed. In our series of 10 patients, 9 received GH therapy, combined in 3 with a GnRH analogue to arrest puberty. The results of this treatment were satisfactory with mean height deficit compared with target height improving significantly from mean -1.72 +/- 1.26 SDS at diagnosis to -0.93 +/- 1.13 SDS (p=0.005) at final height or latest assessment, indicating that a favourable final height can be achieved.
...
PMID:Growth and growth hormone secretion in paediatric Cushing's disease. 1700 7
GH secretion is mainly regulated at the hypothalamus by a dual interplay between growth hormone releasing hormone (GHRH) and somatostatin, which are modulated by various factors. We examined the regulatory mechanism of GH secretion in an apparently healthy young man without decreased IGF-1 concentration and nocturnal GH secretion, but who showed low responses to insulin tolerance (
ITT
) and to GHRP-2 tests. The patient also had no GH response to acute aerobic exercise. However, he had normal secretion of pituitary hormone based on hypothalamic releasing hormone tests combined with CRH, GRH as GHRH, LH-RH and TRH. In addition, he had a GH response without paradoxical secretion to TRH stimulation as well as an ACTH response to subcutaneous
glucagon
stimulation, and AVP secretion responded to 5% hypertonic saline infusion, though it was not adequately stimulated by
ITT
. MRI showed no structural abnormalities in the hypothalamus-pituitary gland. These findings indicate that this subject may have an undiscovered neurocircuit for regulating GH secretion, as well as other neurohormones, to maintain homeostasis, even though there were low responses of the hormones to
ITT
and GHRP-2 stimuli, probably via altered secretion of hypothalamic hormones.
...
PMID:Is there an undiscovered neurocircuit for regulating GH secretion? -Pitfalls of GHRP-2 and ITT as GH provocative tests-. 2095 65
Objective:
The development of these guidelines is sponsored by the American Association of Clinical Endocrinologists (AACE) Board of Directors and American College of Endocrinology (ACE) Board of Trustees and adheres with published AACE protocols for the standardized production of clinical practice guidelines (CPG).
Methods:
Recommendations are based on diligent reviews of clinical evidence with transparent incorporation of subjective factors, according to established AACE/ACE guidelines for guidelines protocols.
Results:
The Executive Summary of this 2019 updated guideline contains 58 numbered recommendations: 12 are Grade A (21%), 19 are Grade B (33%), 21 are Grade C (36%), and 6 are Grade D (10%). These detailed, evidence-based recommendations allow for nuance-based clinical decision-making that addresses multiple aspects of real-world care of patients. The evidence base presented in the subsequent Appendix provides relevant supporting information for the Executive Summary recommendations. This update contains 357 citations of which 51 (14%) are evidence level (EL) 1 (strong), 168 (47%) are EL 2 (intermediate), 61 (17%) are EL 3 (weak), and 77 (22%) are EL 4 (no clinical evidence).
Conclusion:
This CPG is a practical tool that practicing endocrinologists and regulatory bodies can refer to regarding the identification, diagnosis, and treatment of adults and patients transitioning from pediatric to adult-care services with growth hormone deficiency (GHD). It provides guidelines on assessment, screening, diagnostic testing, and treatment recommendations for a range of individuals with various causes of adult GHD. The recommendations emphasize the importance of considering testing patients with a reasonable level of clinical suspicion of GHD using appropriate growth hormone (GH) cut-points for various GH-stimulation tests to accurately diagnose adult GHD, and to exercise caution interpreting serum GH and insulin-like growth factor-1 (IGF-1) levels, as various GH and IGF-1 assays are used to support treatment decisions. The intention to treat often requires sound clinical judgment and careful assessment of the benefits and risks specific to each individual patient. Unapproved uses of GH, long-term safety, and the current status of long-acting GH preparations are also discussed in this document.
LAY ABSTRACT
This updated guideline provides evidence-based recommendations regarding the identification, screening, assessment, diagnosis, and treatment for a range of individuals with various causes of adult growth-hormone deficiency (GHD) and patients with childhood-onset GHD transitioning to adult care. The update summarizes the most current knowledge about the accuracy of available GH-stimulation tests, safety of recombinant human GH (rhGH) replacement, unapproved uses of rhGH related to sports and aging, and new developments such as long-acting GH preparations that use a variety of technologies to prolong GH action. Recommendations offer a framework for physicians to manage patients with GHD effectively during transition to adult care and adulthood. Establishing a correct diagnosis is essential before consideration of replacement therapy with rhGH. Since the diagnosis of GHD in adults can be challenging, GH-stimulation tests are recommended based on individual patient circumstances and use of appropriate GH cut-points. Available GH-stimulation tests are discussed regarding variability, accuracy, reproducibility, safety, and contraindications, among other factors. The regimen for starting and maintaining rhGH treatment now uses individualized dose adjustments, which has improved effectiveness and reduced reported side effects, dependent on age, gender, body mass index, and various other individual characteristics. With careful dosing of rhGH replacement, many features of adult GHD are reversible and side effects of therapy can be minimized. Scientific studies have consistently shown rhGH therapy to be beneficial for adults with GHD, including improvements in body composition and quality of life, and have demonstrated the safety of short- and long-term rhGH replacement.
Abbreviations: AACE
= American Association of Clinical Endocrinologists;
ACE
= American College of Endocrinology;
AHSG
= alpha-2-HS-glycoprotein;
AO-GHD
= adult-onset growth hormone deficiency;
ARG
= arginine;
BEL
= best evidence level;
BMD
= bone mineral density;
BMI
= body mass index;
CI
= confidence interval;
CO-GHD
= childhood-onset growth hormone deficiency;
CPG
= clinical practice guideline;
CRP
= C-reactive protein;
DM
= diabetes mellitus;
DXA
= dual-energy X-ray absorptiometry;
EL
= evidence level;
FDA
= Food and Drug Administration;
FD-GST
= fixed-dose
glucagon
stimulation test;
GeNeSIS
= Genetics and Neuroendocrinology of Short Stature International Study;
GH
= growth hormone;
GHD
= growth hormone deficiency;
GHRH
= growth hormone-releasing hormone;
GST
=
glucagon
stimulation test;
HDL
= high-density lipoprotein;
HypoCCS
= Hypopituitary Control and Complications Study;
IGF-1
= insulin-like growth factor-1;
IGFBP
= insulin-like growth factor-binding protein;
IGHD
= isolated growth hormone deficiency;
ITT
= insulin tolerance test;
KIMS
= Kabi International Metabolic Surveillance;
LAGH
= long-acting growth hormone;
LDL
= low-density lipoprotein;
LIF
= leukemia inhibitory factor;
MPHD
= multiple pituitary hormone deficiencies;
MRI
= magnetic resonance imaging;
P-III-NP
= procollagen type-III amino-terminal pro-peptide;
PHD
= pituitary hormone deficiencies;
QoL
= quality of life;
rhGH
= recombinant human growth hormone;
ROC
= receiver operating characteristic;
RR
= relative risk;
SAH
= subarachnoid hemorrhage;
SDS
= standard deviation score;
SIR
= standardized incidence ratio;
SN
= secondary neoplasms;
T3
= triiodothyronine;
TBI
= traumatic brain injury;
VDBP
= vitamin D-binding protein;
WADA
= World Anti-Doping Agency;
WB-GST
= weight-based
glucagon
stimulation test.
...
PMID:AMERICAN ASSOCIATION OF CLINICAL ENDOCRINOLOGISTS AND AMERICAN COLLEGE OF ENDOCRINOLOGY GUIDELINES FOR MANAGEMENT OF GROWTH HORMONE DEFICIENCY IN ADULTS AND PATIENTS TRANSITIONING FROM PEDIATRIC TO ADULT CARE. 3176 Aug 24
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