Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0002736 (amyotrophic lateral sclerosis)
 19,048 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Studies of the endocrinologic control of carbohydrate metabolism were conducted in Guamanians with parkinsonism-dementia (PD) or amyotrophic lateral sclerosis (ALS) and in Guamanian control patients who had various other neuromuscular disorders. Intravenously infused arginine tended to produce a more prolonged elevation in serum glucose levels in PD and ALS patients than in control subjects. On the other hand, the serum insulin response to arginine was significantly less in both PD and ALS patients than in controls. Arginine stimulated the release of growth hormone to a similar degree in all three patient groups. These observations support and extend previous reports of endocrinologic abnormalities in parkinsonism and ALS and might suggest that a defect in pancreatic islet cell function attends these disorders.
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PMID:Endocrinologic regulation of carbohydrate metabolism. Amyotrophic lateral sclerosis and Parkinsonism-dementia on Guam. 42 65

Eight patients with amyotrophic lateral sclerosis received 500 mg TRH by IV infusion, at a progressive rate during 3 hours. Only 3 patients noted subjective improvement of strength. Clinical muscular testing and H response study failed to show any change. Moreover modifications of the prolactin, growth hormone, TSH and T3 serum levels raise a question concerning the tolerance with long term utilization of TRH.
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PMID:[Clinical, electrophysiologic and endocrine effects of the perfusion of high doses of TRH in amyotrophic lateral sclerosis]. 314 86

We examined the effects of methionyl-human growth hormone (met-hGH) and malnutrition on the growth of 5/6 nephrectomized rats and sham-operated controls. One group of sham-operated rats (PFS) was pair-fed with a group of nephrectomized rats in renal failure (RF); another group of sham-operated rats was fed ad libitum (ALS), and a final group of rats with renal failure (RF-GH) was treated with 4 IU/day met-hGH. After 4 weeks, RF-GH rats gained 12.3 +/- 1.7 cm in length; this was more than the 10.2 +/- 1.2 cm gain of RF rats (P less than 0.05). Ingested food was converted into weight gain more efficiently by RF-GH rats than RF rats (267 +/- 26 vs 235 +/- 38 mg weight gain/g food intake, P less than 0.05). RF-GH rats also gained more weight (122 +/- 25 g) than RF rats (98 +/- 27 g), but this difference was not significant (0.05 less than P less than 0.1). Insulin-like growth factor (IGF)-I, glucose and insulin levels were not different between RF and RF-GH rats. Food intake of RF and PFS rats was 64% of ALS intake and was associated with poor gains in weight and length by the PFS and RF groups (relative weight and length gains were ALS greater than PFS greater than RF, P less than 0.05 for all comparisons); this suggests that the poor growth of RF rats when compared with PFS rats was due to factors other than food intake. Serum IGF-I levels of 771 +/- 249 ng/ml in PFS rats were lower than levels of 1109 +/- 253 ng/ml found in the ALS group (P less than 0.05); this is consistent with the malnourished state of PFS rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of growth hormone therapy and malnutrition on the growth of rats with renal failure. 315 55

Because of its multi-faceted potential as a neurotrophic factor, insulin-like growth factor I (IGF-I) has been given to hundreds of ALS patients world-wide. Unlike some patients with post-polio syndrome and fragile elderly males, it is unclear whether any of these patients possess disturbances in IGF signaling. We found that about 25% of ALS patients in a controlled trial of human growth hormone (hGH) had lower or higher than normal IGF-I serum levels. Many ALS patients do have some of the characteristics of type II diabetes mellitus, where IGF-I therapy is also under way. In addition, in type I diabetes significant increase in a circulating molecule that binds IGF-I, IGF-I binding protein 1 (IGFBP-1), occurs along with reduced IGF-I, when neuropathic complications are prominent. We have studied the response of IGFBPs in ALS patients to subcutaneous rhIGF-I and found transient induction of IGFBP-1. Studies related to the IGFBPs have not been done in familial ALS (FALS) patients. However, the gene for another IGFBP, BP-2, co-localizes with the gene for juvenile ALS (ALSJ) on chromosome 2. IGF-I has been given to several models of motor neuron degeneration in the mouse, including motor neuron disease and wobbler, with beneficial effects. However, it is also not known whether any accepted genetic mouse model of motor neuron degeneration possesses any disturbance in the IGF signaling system.
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PMID:The insulin-like growth factor signaling system and ALS neurotrophic factor treatment strategies. 759 1

Based on the known trophic effects of growth hormone (GH) on nerve and muscle 75 patients with ALS were treated for up to 18 months with synthetic human growth hormone (Protropin) or a placebo. The course of ALS was assessed serially using a quantitative (TQNE) neuromuscular and manual exam (MRC) and laboratory chemistries. Average insulin-related growth factor (IGF-I) values increased from 1.2 to 2.3 U/mL in the treated group. Surprisingly, serum insulin levels did not increase. Hyperglycemia was noted in only 2 patients of the 38 patients receiving hGH, and this resolved with cessation of treatment. Over the 12 months of treatment there were 11 deaths (6 controls, 5 treated). Survival analysis, performed approximately 12 months following cessation of treatment, did not reveal a difference between the treatment and placebo group. The TQNE scores declined inexorably in both the control and treated group. Retrospective analysis of the TQNE data indicated a poor prognosis for patients who lost arm strength early. A correlation between the TQNE and MRC scores was evident at early stages of motor unit loss, less so when muscle weakness was advanced.
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PMID:Recombinant growth hormone treatment of amyotrophic lateral sclerosis. 850 60

Controversy regarding amyotrophic lateral sclerosis (ALS) concerns aspects of relatively little consequence (such as the role of lead intoxication or trauma in the pathogenesis of the disease) and others of greater relevance, particularly the two following questions regarding treatment options: 1) Are we in a new era of therapy for ALS? Prior to the 1990's no controlled study showed consistent benefit from any of the treatments tried. We have now had announcements of benefit for four entirely different agents: riluzole, insulin-like growth hormone, brain derived neurotrophic hormone and gabapentin. The benefit, at most, is marginal or questionable. The effect is of statistical significance but of little clinical relevance, and 2) what is the role of peripheral nerves in ALS? The syndrome of multifocal motor neuropathy and conduction block (MMNCB) shares some clinical data (active tendon jerks in weak, wasted and fasciculating muscles) and pathological features (anterior horn cell loss and glions) with "typical" ALS. This is relevant because MMNCB is reversible with immunoglobulin therapy. The rigid separation between ALS (a disease of the motor neuron perikaryon) and MMNCB (a disease of the motor neuron axon) is no longer tenable.
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PMID:Controversies about amyotrophic lateral sclerosis. 901 Nov 43

Microencapsulated genetically engineered cells have the potential to treat a wide range of diseases. For example, in experimental animals, implanted microencapsulated cells have been used to secrete growth hormone to treat dwarfism, neurotrophic factors for amyotrophic lateral sclerosis, beta-endorphin to decrease pain, factor XI for hemophilia B, and nerve growth factors to protect axotomized neurons. For some applications, microencapsulated cells can even be given orally. They can be engineered to remove unwanted molecules from the body as they travel through the intestine, and are finally excreted in the stool without being retained in the body. This application has enormous potential for the removal of urea in kidney failure, ammonia in liver failure and amino acids such as phenylalanine in phenylketonuria and other inborn errors of metabolism.
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PMID:Therapeutic uses of microencapsulated genetically engineered cells. 961 2

It has been suggested that growth hormone (GH) may play a regulatory role in male reproductive function. To express full anabolic effect in immature boys testosterone apparently requires the presence of GH. In GH-deficient adults, GH replacement therapy exerts a variety of anabolic actions, some of which are similar to the effects of gonadal steroids. However, little is known about the potential effects of GH on gonadal steroids and on dynamic tests of pituitary-gonadal function in adults with GH deficiency. We evaluated the pituitary-gonadal axis in a 4-month double-blind, placebo-controlled GH study in 13 young males with childhood-onset GH deficiency of which 6 had isolated GH deficiency. GH treatment significantly increased serum levels of total IGF-I from 98 (68) to 323 (126) microg/l, free IGF-I from 0.48 (0.47) to 2.24 (1.66) microg/l, IGFBP-3 from 1,874 (1,178) to 3,520 (778) microg/l and ALS levels from 9,182 (5,524) to 16,872 (6,278) microg/l (all p < 0.0001). We found no differences in basal testosterone levels in the 13 patients between the GH and placebo treatment periods (21.9 (5.1) vs. 24.5 (8.1) nmol/l, nonsignificant). Furthermore, no effect of GH on the testicular response to hCG after 72 h was seen compared to placebo (36.2 (6.4) vs. 38.8 (10.3) nmol/l). In addition, no differences existed in basal SHBG, DHT, free testosterone, delta4-adion and DHEA-S levels. There were no statistically significant differences in maximal FSH and LH response to a GnRH challenge between the GH and the placebo periods (15.7 (5.3) vs. 18.0 (8.8) U/l and 47.0 (26.4) vs. 40.4 (26.5) U/l, respectively). Furthermore, there was no effect on cortisol responses after ACTH between the GH and the placebo periods. However, significantly higher estradiol levels were seen after GH treatment (110 (50) pmol/l) compared to after placebo (89 (34) pmol/l, p = 0.03). Prostate-specific antigen levels decreased after GH treatment compared to after placebo (0.42 (0.54) vs. 0.47 (0.48) microg/l) and this difference almost reached statistical significance (p = 0.059). Inhibin-B levels were significantly lower in hypogonadal patients substituted with androgens, but GH had no effect on inhibin-B levels. In conclusion, GH replacement therapy in 13 GH-deficient young adult males resulted in significant increases in total and free IGF-I as well as in ALS levels in all patients, but had no significant effect on: (1) the pituitary FSH and LH response to GnRH; (2) basal and hCG-stimulated levels of androgens and SHBG; (3) basal inhibin-B levels; (4) ACTH-stimulated cortisol secretion. By contrast, GH administration had subtle anti-androgenic effects in terms of elevated elevated estradiol levels and decreased prostate-specific antigen levels, although both parameters remained within the normal range. Thus, at the level of blood chemistry the effects of GH administration do not appear to involve major alterations in the pituitary-gonadal axis.
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PMID:Effects of growth hormone replacement therapy on IGF-related parameters and on the pituitary-gonadal axis in GH-deficient males. A double-blind, placebo-controlled crossover study. 962 18

Although growth hormone (GH) replacement therapy is increasingly utilized in the management of adult hypopituitary patients, optimum dosing schedules are poorly defined. The use of weight-based or surface area-based dosing may result in overtreatment, and individual variation in susceptibility on the basis of gender and other factors is now being recognized. To optimize GH replacement and to explore further gender differences in susceptibility, we used a dose titration regimen, starting at the initiation of GH replacement therapy, in 50 consecutive adult-onset hypopituitary patients, and compared the results with those in 21 patients previously treated using a weight-based regimen. Titrated patients commenced GH 0.8 IU/day subcutaneously (0.4 IU/day if hypertensive or glucose tolerance impaired). Serum insulin-like growth factor I (IGF-I) was measured at 0, 2, 4, 6, 8, 10, and 12 weeks in all patients. Serum IGF binding protein 3 and acid labile subunit were measured at the same time points in 17 patients (8 male, 9 female). Patients were reviewed every 4 weeks and the dose of GH increased, if necessary, to achieve a serum IGF-I level between the median and the upper end of the age-related reference range. There was no significant difference between mean serum IGF-I at 2 and 4 weeks, or between 6 and 8 weeks, indicating that the full effects of a change in dose are evident within 2 weeks of that change. Maintenance doses were significantly higher in females than males [1.2 (0.8-2.0) vs. 0.8 (0.4-1.6) IU/day; median (range); P < 0.0001], and the median time to achieve maintenance dose was significantly shorter in males [4 (2-12) vs. 9 (2-26) weeks; P < 0.0001]. Median maintenance dose was lower overall than in a group of 21 patients initially commenced on GH using a weight-based dosing schedule, with subsequent adjustment of dose during clinical follow-up [1.5 (0.4-3.2) IU/day; P = 0.02]. Reduction in waist measurement and waist to hip ratio at 6 and 12 months was similar in females (P < 0.001) and males (P < 0.01). Well-being improved significantly after 3 months of GH therapy (14.2 +/- 5.9 vs. 7.4 +/- 4.5 SD; P < 0.0001), and there were no gender differences. Adult Growth Hormone Deficiency Assessment (AGHDA) scores at 6 months were similar to maintenance scores in patients commenced on weight-based regimens. Measurements of ALS and IGFBP-3 added no useful extra information to IGF-I in managing the dose titration. The practical scheme outlined for dose titration of GH replacement resulted in rapid achievement of lower maintenance doses than those achieved using conventional weight-based regimens without loss of efficacy. It was particularly important in female patients who demonstrated decreased overall sensitivity to GH and required higher doses to achieve the same effects as males. This constitutes the first report of a uniform titration regimen based on a defined target range of serum IGF-I in a large patient cohort.
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PMID:Optimizing growth hormone replacement therapy by dose titration in hypopituitary adults. 981 68

The growth hormone (GH)-insulin-like growth factor (IGF) axis and insulin are major anabolic effectors in promoting weight gain and linear growth. These two anabolic systems are interlinked at many levels, thus abnormalities in one of these systems effect the other causing disordered metabolic homeostasis. Insufficient portal insulinization in insulin dependent diabetes mellitus (IDDM) results in hepatic GH resistance and increased production of IGF-binding proteins-1 (IGFBP-1) and IGFBP-2. GH resistance is reflected by decreased hepatic IGF-I production. In addition, changes in other GH-dependent proteins are also observed in IDDM. Increased proteolysis of IGFBP-3 results in reduction of intact IGFBP-3. Serum ALS levels are also slightly diminished in untreated diabetic patients. Hepatic resistance to GH is, at least in part, caused by diminished GH receptors as reflected by diminished circulating GHBP levels. In addition, there is also evidence from experimental and human studies suggesting post-receptor defect(s) in GH action. As a result of these changes, circulating total and free IGF-I levels are decreased during insulinopenia. Lack of negative feed-back effect of IGF-I on GH secretion causes GH hypersecretion which increases hyperglycemia by decreasing sensitivity to insulin. GH hypersecretion in poorly controlled diabetic patients may play a role in the pathogenesis of diabetic vascular complications. Most of these abnormalities in the GH-IGF axis in diabetes are reversed by effective insulinization of the patient. Addition of IGF-I treatment to insulin in adolescents with IDDM allows correction of GH hypersecretion, improves insulin sensitivity and glycemic control, and decreases insulin requirements. The effect of IGF-I treatment on diabetic complications has yet to be seen.
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PMID:Alterations in the growth hormone-insulin-like growth factor axis in insulin dependent diabetes mellitus. 1022 99


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