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: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nine patients developed osteochondromata, a mean of 6 years after total body irradiation (TBI) given before bone marrow transplantation for childhood leukaemia. This represents 23% of patients receiving TBI during the period from 1981 to 1989 surviving > or =5 years after bone marrow transplantation. The patients were followed up for a mean of 12.5 years from diagnosis of leukaemia and a mean of 2.5 years from diagnosis of osteochondromata. No osteochondroma, including three lesions removed surgically, showed evidence of malignant change. Six patients received growth hormone for irradiation-induced growth hormone deficiency, but this did not appear to influence the natural history of the osteochondromata. Radiation-induced osteochondromata (RIO) are often multiple and are indistinguishable from the more common idiopathic type. The incidence of RIO after TBI was higher than that reported after local irradiation.
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PMID:Total body irradiation-induced osteochondromata. 960 May 63

The aim of this study was to investigate growth and final height in young adults after therapy for malignant diseases. Final height and weight was studied in 50 long-term survivors (LTS) of childhood cancer (aged 17-31 years; 30 men, 20 women) 3-18 years after treatment for malignant diseases (7 acute lymphoblastic leukemia, 20 lymphoma, 8 sarcoma, 15 malignant central nervous system [CNS] tumours). None of the LTS had been treated with growth hormone (GH). A decrease in final height SDS (Standard deviation score) occurred in both LTS of malignant CNS tumours (median height SDS at diagnosis, 0.3; range, -0.9 to 2.2; median final height SDS, -1.3; range, -3.9 to 1.9; p < 0.01) and LTS of lymphoma (p < 0.05) or leukemia (p < 0.05). However, only LTS who received cranial (p < 0.05) or craniospinal (p < 0.001) irradiation (XRT) exhibited reduced final heights. LTS who had received XRT not involving the CNS or had received no XRT at all presented no reduction in final height. LTS of CNS tumours treated with high craniospinal XRT doses (24 to 56 Gy) reached lower (p < 0.01) final heights when compared with LTS of leukemia who received lower cranial XRT doses (18 to 24 Gy). Final height SDS correlated with chronological age at initiation of therapy (p < 0.05). No correlation was found between the cumulative doses of applied chemotherapeutic agents and the final height of LTS. During follow-up LTS developed an increase in weight for height index (WFH) which occurred independent of XRT. In conclusion, cranial and craniospinal XRT especially in young children with malignancies resulted in a decrease in final height SDS. As 6 of 15 LTS of malignant CNS tumours exhibited a final height SDS below -2 SD, analysis of pituitary function and substitution of GH after diagnosis of GH deficiency should be considered for these patients at a young age. Others factors not directly related to XRT are responsible for the increased risk for obesity in LTS of childhood cancer.
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PMID:Final height and weight of long-term survivors of childhood malignancies. 962 45

The exact contribution of growth hormone (GH) deficiency to the adverse growth outcome, in those receiving cranial irradiation (18-24 Gy) or total-body irradiation for haematological malignancies in childhood, remains difficult to disentangle as nearly always the cause of the growth disturbance is multifactorial: chemotherapy, graft-versus-host disease, hypothyroidism, and skeletal dysplasia may all impact on growth. There are few published data from which one can assess the efficacy of GH replacement on final height in those children who received cranial irradiation (18-24 Gy) and/or total-body irradiation; there is no evidence, however, of an increased risk of leukaemic relapse. Endocrine reassessment in the teenagers, who received cranial irradiation (18-24 Gy) for acute lymphoblastic leukaemia many years earlier, revealed a significant incidence of GH deficiency with the additional suggestion that many had been GH deficient for several years. This raises a number of important questions: What is the best way to organize long-term endocrine follow-up? How often should GH status be reassessed? What are the specific benefits of GH replacement in adult life for such individuals? These and other questions require further study.
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PMID:Growth and growth hormone status following treatment for childhood leukaemia. 969 Dec 6

The relationship between peak growth hormone (GH), insulin-like growth factor I (IGF-I), IGF-I binding protein 3 (IGFBP-3) and IGFBP-3 protease activity was studied in 28 children and adolescents undergoing investigation of pituitary function 0.4-14.2 years after cranial or craniospinal irradiation for the treatment of CNS tumours distant from the hypothalamic-pituitary axis (n = 16) or prophylaxis against CNS leukaemia (n = 12). Seven out of 15 patients with GH deficiency (GHD) (defined as a peak GH concentration <7.5 ng/ml in a stimulation test) had IGF-I <-2 standard deviation score (SDS). None of the 28 patients had serum IGFBP-3 concentrations measured by radioimmunoassay (RIA) <-1.5 SDS with no difference between those with and without GHD. IGFBP-3 concentrations measured by RIA were strongly correlated to IGFBP-3 band density on Western ligand blot (WLB) (r = 0.71; p < 0.0001). IGFBP-3 protease activity was negatively correlated to IGFBP-3 by RIA (r = -0.55; p < 0.01) and to IGFBP-3 by WLB (r = -0.51; p < 0.01). Twenty-two patients had normal IGFBP-3 protease activity (<30% of the activity in pregnancy serum) indicating that serum IGFBP-3 protease activity does not account for the normal levels of IGFBP-3 in RIA. Low serum IGF-I but normal IGFBP-3 concentrations and in the majority normal IGFBP-3 protease activity was found in patients in the years after CNS irradiation. Neither serum IGF-I nor IGFBP-3 can be used as a reliable index of the development of radiation-induced GHD.
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PMID:Serum insulin-like growth factor-I, IGF binding protein-3 and IGFBP-3 protease activity after cranial irradiation. 970 99

The growth hormone (GH) cascade and the remarkable advances over the past four decades in our knowledge of its components are considered. It is now over 40 years since human pituitary GH (pit-hGH) was purified and the first GH-deficient patient, a 17-year-old male, was successfully treated with pit-hGH. However, the shortage of pit-hGH limited its use and the dose, the biopotency of preparations varied, strict criteria of GH deficiency (GHD) were used for patient selection including peak plasma immunoreactive GH levels after provocative stimuli of <3.5-5 ng/ml, treatment was not infrequently interrupted, the mean age for initiating treatment was often late in childhood (12-13 years) and the growth deficiency severe (height -4 to -6 SDS), and finally pit-hGH therapy was often discontinued when girls attained a height of 5' and boys 5'5". Nonetheless, the effects of pit-hGH were dramatic; the final height SDS increased in isolated GHD to about -2 SDS in boys and -2.5 to -3.0 SDS in girls, and in multiple pituitary hormone deficiencies to between -1 and -2 SDS. Between 1962 and 1985 when the Creutzfeldt-Jakob disease crisis struck, the number of GH-deficient patients treated with pit-hGH increased from about 150 to over 3,000. The advent of biosynthetic GH (rhGH) and its availability to treat large numbers of idiopathic GH-deficient children (the minimum prevalence rate of which in the USA and UK is between 1 in 3,400 and 4,000) dramatically changed this picture in 1985. It is estimated that more than 60,000 patients have been or are now on treatment. With rhGH treatment the attained mean adult height SDS is now about -1.0, and in our experience with the treatment of patients under 4 years of age, final height may exceed the target height. It is now recognized that (a) the replacement dose of rhGH ranges from 0.175 to 0.35 mg/kg/week and should be individualized; (b) dividing this dose into 6 or 7 daily subcutaneous injections is more effective than giving the same total dose in three weekly portions, and (c) final height correlates significantly with pretreatment chronologic age, height SDS and predicted adult height, duration of therapy, birth length, in some studies height SDS and age at start of puberty, weight, and serum GHBP (an indicator of GH receptor mass). Early recognition of GHD is essential for an optimal height outcome. rhGH treatment should not be delayed in children with documented GHD; the greater the height deficit, the lower the probability that target height will be reached. GHD needs to be detected earlier in children with organic hypopituitarism whether due to a developmental defect, neoplasm, radiation, head trauma, or a CNS infection. Early rhGH therapy in neonatal hypopituitarism has resulted in excellent growth responses. As the height prognosis in isolated GHD is not as good (especially in girls) as in GHD associated with gonadotropin deficiency, the use of LHRH agonists to delay puberty or potent aromatase inhibitors to delay skeletal maturation should be considered in selected patients with isolated GHD. When the growth response to rhGH is less than predicted, one must consider: (a) poor compliance; (b) improper preparation of rhGH for administration or faulty injection techniques; (c) the timing of administration; (d) the dose of glucocorticoid in the ACTH-deficient patient; (e) occult hypothyroidism; (f) inadequate nutrition; (g) a chronic illness; (h) neutralizing antibodies to rhGH, and (i) the wrong diagnosis. The major cause of mortality (unrelated to Creutzfeldt-Jakob disease or a CNS neoplasm) is adrenal crisis and hypoglycemia in children with both GH and ACTH deficiency. Major adverse effects of rhGH treatment in children are uncommon and include idiopathic intracranial hypertension, slipped capital femoral epiphysis, and acute pancreatitis. The rhGH is not an added risk for leukemia in the US and Europe in the absence of coexisting risk factors, nor is there a higher risk of recurrence of b
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PMID:The growth hormone cascade: progress and long-term results of growth hormone treatment in growth hormone deficiency. 973 Jun 72

Three classes of high-affinity Na+-Pi cotransporters are expressed in mammalian kidney. These include Npt1 (type I), Npt2 (type II), and the cellular receptors for gibbon ape leukemia virus (Glvr-1) and amphotropic murine retrovirus (Ram-1) (type III). We defined the tissue distribution as well as the relative renal abundance of Npt1, Npt2, Glvr-1, and Ram-1 mRNAs and examined the effects of low-Pi diet, the Hyp mutation, and growth hormone (GH) on their renal expression by ribonuclease protection assay. In normal mouse kidney, Npt1, Npt2, Glvr-1, and Ram-1 accounted for 15 +/- 1.0, 84 +/- 1.0, 0.5 +/- 0.2, and 0.5 +/- 0.3% of total Na+-Pi cotransporter mRNAs, respectively. Evidence was obtained for low-abundance Npt1 mRNA expression in liver and Npt2 mRNA expression in intestine, whereas Glvr-1 and Ram-1 mRNAs were also detected in bone, intestine, heart, and liver. Npt2 mRNA was localized to proximal tubules in the renal outer cortex, whereas Glvr-1 transcripts were detected throughout the kidney by in situ hybridization. The Hyp mutation elicited a significant reduction in renal Npt1 and Npt2 mRNAs (78 +/- 8 and 57 +/- 3% of normal, respectively), whereas neither low-Pi diet nor GH influenced the renal abundance of Npt1 and Npt2 transcripts. Renal Glvr-1 mRNA expression was significantly increased in Hyp mice and GH-treated mice (145 +/- 6 and 165 +/- 5% of control, respectively), whereas the renal abundance of Ram-1 transcript was unaffected by either the Hyp mutation, low-Pi diet, or GH treatment. In summary, we demonstrate that Npt2 is the predominant Na+-Pi cotransporter in mouse kidney, that Npt2 and Glvr-1 have distinct patterns of renal expression, and that the Hyp mutation modulates the renal expression of Npt1, Npt2, and Glvr-1 mRNAs. Our results suggest that increased renal Glvr-1 mRNA may contribute to GH stimulation of renal Na+-Pi cotransport.
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PMID:Differential expression, abundance, and regulation of Na+-phosphate cotransporter genes in murine kidney. 975 24

We used the Genentech National Cooperative Growth Study database to examine differences in weight relative to height (weight for height standard deviation score or WTHTZ) in 3460 patients at enrollment and after one year of therapy with recombinant human growth hormone (rhGH), and in a subset of 450 patients treated for three years with rhGH. The major diagnostic categories were idiopathic growth hormone deficiency (IGHD), organic GH deficiency (OGHD), and idiopathic short stature (ISS). Children with IGHD and ISS were underweight for height at baseline but had a progressive increase in WTHTZ during three years of rhGH therapy. The same pattern applied to children with IGHD associated with septo-optic dysplasia and CNS trauma or infection. However, children with OGHD associated with craniopharyngiomas, other CNS tumors, leukemia, or CNS irradiation were overweight when starting rhGH and showed a decrease in WTHTZ during the first year of rhGH therapy. The increase in WTHTZ during rhGH treatment in children with ISS and OGHD suggests that the GH-induced increase in muscle mass exceeded loss of fat mass. Because children with neoplasm-related OGHD were overweight at baseline, the decline in WTHTZ during the first year of rhGH therapy suggests that loss of fat mass is the predominant effect in this subgroup.
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PMID:Weight relative to height before and during growth hormone therapy in prepubertal children. 980 25

Studies were carried out to examine the effects of long-term recombinant human growth hormone (GH) therapy on longevity in rodents. In the first study, 150 18-month-old female F344 rats were divided into three groups of 50 rats per group: Group 1, solvent vehicle; Group 2, 10 microg GH/kg body weight three times per week; Group 3, 50 microg GH/kg body weight three times per week. GH and solvent vehicle therapies were started at 18 months of age and continued until all the animals died spontaneously. Serum insulin-like growth factor (IGF)-I was measured at 18 and 29 months of age and on 3-month-old rats. Serum IGF-I level decreased between 3 and 29 months of age. GH therapy reversed the decrease in a dose-dependent manner, with the 50 microg GH dose returning the serum IGF-I level to that of 3-month-old animals. However, statistical analysis revealed no significant effect of GH therapy on median life span, 10th percentile life span, or maximum life span. Similar observations on longevity were made on aged F344 male rats and on aged Balb/c mice, even when the dose of GH was increased to 1.0 mg/kg body weight two times per week. The main pathologic lesions in control animals were nephropathy, cardiomyopathy, leukemia, and testicular interstitial cell tumor; the prevalence of these lesions was not significantly altered by GH therapy. We conclude that long-term low-dose GH therapy that includes doses in the range that is given to humans in clinical trials in GH deficiency and to revert age-related physiologic declines has no overt deleterious effects on longevity and pathology in aged rodents.
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PMID:Aged-rodent models of long-term growth hormone therapy: lack of deleterious effect on longevity. 982 43

The process of haemopoiesis, occurring primarily within the bone marrow, involves the proliferation and differentiation of pluripotent haemopoietic stem cells into committed, or pathway-restricted progenitors /1/. The latter further proliferate and undergo a process of maturation into circulating blood cells of myeloid and erythroid lineages /2/. Haemopoietic cell growth and differentiation is primarily regulated by the local production of various cytokines within the bone marrow micro-environment /3/, as well as by the circulating hormone, erythropoietin (EPO). The formation as well as functional activation of mature blood cells, are also modulated by a variety of hormones and growth peptides, including growth hormone (GH) and insulin-like growth factor-I (IGF-I) /4,5/. Early evidence for the role of GH in modulating haemopoiesis was provided in classical studies in rodents, which showed that removal of the pituitary gland affects blood cell formation and function /6/ and that impairment of the latter can be restored by GH administration /7/. GH exerts its effects on target cells by binding to its own receptor, which belongs to the class I cytokine receptor superfamily /8/. In humans, GH can also bind to and activate the prolactin receptor /9/. Based on the somatomedin hypothesis of Salmon and Daughaday /10/, it is now generally accepted that, in addition to the above, GH exerts many of its effects via autocrine or paracrine IGF-I, as well as via endocrine IGF-I produced in the liver. IGF-I, a small single-chain polypeptide, is one of two highly homologous peptides (IGF-I and IGF-II), that stimulate the proliferation and differentiation of a wide variety of cell types, including bone marrow cells /5,11/. Both IGF-I and IGF-II play an important role in prenatal growth and IGF-I is also essential for postnatal growth and development /12/. Two types of IGF receptors have been described. The type I IGF receptor, a tyrosine kinase receptor highly homologous to the insulin receptor, binds IGF-I and IGF-II with a high affinity. The type II/mannose 6-phosphate receptor which lacks intrinsic kinase activity, binds IGF-II with a high affinity and IGF-I with a low affinity /13,14/. Haemopoietic progenitors and mature blood cells have been shown to produce GH and IGF-I and to express receptors for these peptides. GH and IGF-I may act independently on these cells or, as more commonly observed, in a synergistic manner with primary haemopoietic cytokines. GH and IGF-I receptors are also present on freshly explanted leukemic cells and leukemic cell lines. Thus, their possible contribution to the development of leukemia should also be considered. This review summarizes our current understanding of the role of GH and IGF-I in normal and malignant haemopoiesis.
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PMID:The haematopoietic effects of growth hormone and insulin-like growth factor-I. 982 20

The aetiology of most cases of childhood leukaemia remains unknown, but several studies have indicated that increased birthweight and height are risk factors for the disease. Since insulin-like growth factor-I (IGF-I) mediates the effect of growth hormone and has been positively associated with prostate cancer, we have evaluated the role of this hormone and its principal binding protein, IGFBP-3, in the aetiology of childhood leukaemia. Incident cases of childhood leukaemia from those recorded by a national network of childhood oncologists were enrolled in our study. Controls were children hospitalised for acute conditions of no more than moderate severity with matching for gender, age and maternal place of residence. Blood measurements of IGF-I and IGFBP-3 were undertaken using commercially available radioimmunoassays. Serum IGF-I values decreased by about 1.7% per month, and the rate of decline was higher, though not significantly so, among cases (2.1% per month) than among controls (1.4%). There was no significant association between IGF-I and the likelihood of childhood leukaemia, but an increment of 1 microg/ml of IGFBP-3 was associated with a substantial and statistically significant reduction of childhood leukaemia by 28% (95% confidence interval 7% to 45%). Because IGFBP-3 is essentially a binding protein, we interpret our findings as indicating that bioavailable IGF-I may play an important role in the aetiology of childhood leukaemia. The much smaller quantities and the inherent instability of IGF-I in the blood in comparison to those of IGFBP-3 are likely to hinder documentation of an underlying positive association of IGF-I with the disease.
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PMID:Insulin-like growth factor-I and binding protein-3 in relation to childhood leukaemia. 993 46


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