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Gene/Protein
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Target Concepts:
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Query: UMLS:C0019045 (
hemoglobinopathies
)
2,704
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Short-chain fatty acids, such as butyrate and propionate, induce fetal globin gene expression and are under clinical investigation in the beta-
hemoglobinopathies
. Limitations of the short-chain fatty acids as therapeutics include their rapid metabolism and a tendency to induce cell growth arrest if administered for prolonged periods. In studies described here, the cellular effects of other inducers of fetal globin, phenoxyacetic acid and derivatives of short-chain fatty acids and cinnamic acids, were investigated in the human erythroid cell line K562, the IL-3 dependent multi-lineage cell line (32D), and in mice and primates. Several test compounds supported 32D cell proliferation despite a 50-fold depletion of IL-3, which resulted in growth arrest and apoptotic death in control cells. The degree of proliferation induced by certain test compounds was similar to the degree of proliferation induced by
Erythropoietin
and G-CSF in the cells. Eight of ten compounds induced gamma globin mRNA in K562 cells. A 2.5 to 6-fold increase in reticulocytosis was observed in vivo in mice treated with two prototype compounds. Pharmacokinetic studies of three prototype compounds demonstrated millimolar plasma concentrations after single oral doses for many hours in primates. These findings identify orally bioavailable compounds which induce gamma globin gene expression and hematopoietic cell proliferation through an activity which partially abrogates requirements for IL-3. Such compounds provide potential for oral therapeutics which stimulate proliferation of hematopoietic cells of multiple lineages, as well as inducing fetal globin.
...
PMID:Abrogation of IL-3 requirements and stimulation of hematopoietic cell proliferation in vitro and in vivo by carboxylic acids. 945 87
Sickle cell anemia and the related
hemoglobinopathies
are associated with a large spectrum of renal abnormalities. The patients have impaired urinary concentrating ability, defects in urinary acidification and potassium excretion, and supranormal proximal tubular function. The latter is manifest by increased secretion of creatinine and by reabsorption of phosphorus and beta(2)-microglobulin. Young patients with sickle cell disease (SCD) have supranormal renal hemodynamics with elevations in both effective renal plasma flow (ERPF) and glomerular filtration rate (GFR). These parameters decrease with age as well as following the administration of prostaglandin inhibitors. Proteinuria, a common finding in adults with sickle cell disease, may progress to the nephrotic syndrome. Proteinuria, hypertension, and increasing anemia predict end-stage renal disease (ESRD). While ESRD can be managed by dialysis and/or renal transplantation, there may be an increased rate of complications in renal transplant recipients with SCD. Hematuria is seen in individuals with all of the SCDs as well as with sickle cell trait. In most cases the etiology of the hematuria turns out to be benign. However, there does appear to be an increased association between SCD and renal medullary carcinoma. Therefore, those SCD patients who present with hematuria should initially undergo a thorough evaluation in order to exclude this aggressive neoplasm. Papillary necrosis may occur due to medullary ischemia and infarction.
Erythropoietin
levels are usually lower than expected for their degree of anemia and decrease further as renal function deteriorates. An abnormal balance of renal prostaglandins may be responsible for some of the changes in sickle cell nephropathy. Acute renal failure is a component of the acute multiorgan failure syndrome (MOFS). Finally, progression of sickle cell nephropathy to ESRD may be slowed by adequate control of hypertension and proteinuria. However, the prevention of the renal complications of SCD will require a cure for this genetic disorder.
...
PMID:Renal abnormalities in sickle cell disease. 1142 1
Erythropoietin
(Epo) is a glycoprotein hormone produced by genetic engineering. Many pathologic conditions could benefit from its administration, such as chronic renal failure or
hemoglobinopathies
. Epo secretion from genetically modified tissued could be proposed to patients only if the protocol is low cost and low risk. For that purpose, retroviral vectors and adeno-associated vectors expressing the Epo cDNA were developed. Gene transfer was performed into skeletal muscles. To avoid polycythemia, a tetracycline-regulated system was used to control the levels of protein secretion in vivo. beta-thalassemias are among diseases that could benefit from an Epo gene transfer. beta-thalassemias are attributable to deficient synthesis of beta-globin and accumulation of unpaired alpha-chains. Stimulation of fetal globin synthesis is one strategy to correct the globin chain imbalance. There is evidence that Epo could play this role. In a mouse model of beta-thalassemia, an adeno-associated vector expressing the Epo cDNA was injected intramuscularly. Epo was secreted continuously during at least 1 yr. Erythropoiesis was improved in those mice by increasing the synthesis of fetal hemoglobin.
...
PMID:Delivering erythropoietin through genetically engineered cells. 1106 50
Anemia is a frequent complication of chronic kidney disease (CKD). Inadequate production of erythropoietin by the failing kidneys leads to decreased stimulation of the bone marrow to produce red blood cells (RBCs). Anemia of CKD develops early and worsens with progressive renal insufficiency. Although over 40% of patients with CKD are anemic, anemia in this population is under-recognized and undertreated. Of considerable importance, anemia is a risk factor for cardiovascular disease and is associated with higher rates of hospitalization and mortality. Despite the availability of erythropoiesis-stimulating proteins (ESPs) to stimulate RBC production in CKD patients, approximately three fourths of patients initiating dialysis have a hemoglobin <11 g/dL. The recognition of anemia of CKD begins with an estimation of glomerular filtration rate (GFR), which can be far lower than a normal serum creatinine might suggest, especially in the elderly and in those with poor nutrition and muscle mass. If GFR is <60 mL/min/1.73 m(2), hemoglobin should be checked. The anemia is diagnosed when the hemoglobin is <12 g/dL in a man or a postmenopausal woman, or <11 g/dL in a premenopausal woman. The cause of anemia should be investigated in these individuals; this can range from erythropoietin deficiency due to CKD, to deficiency of vitamin B(12) and/or folate, iron deficiency, blood loss, inflammation, malignancy, and aluminum intoxication. After other causes of anemia have been excluded, CKD is the most likely etiology, and it should be treated with an ESP. Currently,
epoetin
alfa and darbepoetin alfa are the only 2 ESPs approved for use in the United States. Extended dosing of ESP has potential advantages for the patient and may also improve resource utilization. Consequently, both agents have been tested for dosing at extended intervals. Adequate iron stores--defined as transferrin saturation >20% and ferritin >100 mg--as well as ESP administration are needed to produce an appropriate increase in hemoglobin. Poor response to treatment with ESP can be due to many factors, including presence of iron deficiency, inflammation, continued blood loss, and
hemoglobinopathy
.
...
PMID:Practical approach to the diagnosis and treatment of anemia associated with CKD in elderly. 1709 34
Recombinant human erythropoietin (rHuEPO) has transformed the management chronic renal failure (CKD) and considerably improved the outcome of patients on regular chronic dialysis. However, a significant number of patients fail to respond to high of Erythropoiesis-stimulating agents (ESAs) and several causes of inadequate response to
epoetin
therapy have been identified. Some factors, such as gender, age, length of time on dialysis, type of dialysis and co-morbidities such as
hemoglobinopathy
, are not susceptible to clinical intervention. However, many other factors can be adjusted. Iron deficiency, whether functional or absolute, is the most common factor that limits the response to rHuEPO. Monitoring of iron parameters and a large use of iron supplementation result in an efficient
epoetin
response. Infection and inflammation have been shown to reduce responsiveness to ESAs by disrupting iron metabolism and increasing the release of pro-inflammatory cytokines that inhibit erythropoiesis. Increase dialysis dose is associated with improvements in anemia correction and reduced requirements for ESAs. Severe hyperparathyroidism and aluminum overload lead to a reduced number of responsive erythroid progenitor cells. Finally, a number of nutritional factors, such as deficiencies of carnitine, vitamin B12, folic acid, and vitamin C, are susceptible to alter erythropoiesis. Optimizing patient response to ESAs therefore requires consideration of many of well-established factors and is important for both patient outcomes and cost of treatment.
...
PMID:[Factors affecting the response to erythropoiesis-stimulating agents]. 1737 70
Approximately 5-10% of patients with end-stage renal disease (ESRD) exhibit hyporesponsiveness to erythropoiesis-stimulating agents (ESAs), defined as a continued need for higher than 300 IU/kg/week doses of
epoetin
or a 1.5 mg/kg/week dose of darbepoetin. ESA hyporesponsiveness contributes to the morbidity, mortality and health-care economic burden of ESRD patients. The most common causes of ESA resistance are absolute or functional iron deficiency and inflammation. Maintaining adequate iron stores is clearly accepted as the most important strategy for reducing the ESA requirement and for enhancing ESA efficacy. Recent clinical studies have shown that iron administration to ESRD patients is associated with an increased risk of infection and atherosclerosis. ESA hyporesponsiveness due to chronic inflammation in ESRD patients has been reported to be improved by a number of interventions, including the use of biocompatible hemodialysis membranes, ultrapure dialysate, ascorbic acid therapy, vitamin E supplementation, and statin therapy. Other causes of ESA hyporesponsiveness include inadequate dialysis, hyperparathyroidism, angiotensin-converting enzyme inhibitors, angiotensin receptor blockers, primary bone marrow disorders, myelosuppressive agents,
hemoglobinopathies
, hemolysis, and hypersplenism. This article summarizes the common causes of ESA hyporesponsiveness and the proposed therapeutic interventions.
...
PMID:Erythropoiesis-stimulating agent hyporesponsiveness in end-stage renal disease patients. 2602 17
