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:C0684275 (haemophilia)
10,958 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sleeping Beauty transposons have the potential for use as chromosome-integrating vectors for non-viral gene therapy. Recent preclinical data from mouse models for human genetic disorders have shown efficacy for the Sleeping Beauty transposon system in the treatment of hemophilia, tyrosinemia type I, junctional epidermolysis bullosa and type 1 diabetes. Methods have also been developed to deliver Sleeping Beauty transposons to the lung, liver and tumors for treatments for cystic fibrosis, cardiovascular and metabolic diseases, and cancer. Recent studies characterizing site selection for integration and insertional mutagenesis indicate that the Sleeping Beauty transposon system may be a safer alternative than viral approaches for gene therapy.
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PMID:Awakening gene therapy with Sleeping Beauty transposons. 1608 71

In recent years, there have been growing expectations about the future benefits deriving from the uptake of genetics knowledge in healthcare. At the same time, there have been increasing calls to make greater use of patient expertise in treatment. However, relatively little is known about the experiences, needs and expertise of those who currently have a genetic condition. Drawing on the findings from an Australian study involving 21 semi-structured interviews with members of support groups which represent those with various genetic conditions (cystic fibrosis, haemochromatosis, haemophilia, and thalassaemia) this article discusses how individuals learn about, live with and manage their condition, and assesses the extent to which their experiences differ from those with other chronic illness conditions. It argues that while the experiences of individuals who have a genetic condition would appear to be similar in many respects to those with other chronic illnesses, they tend to encounter particular challenges in managing their condition due to its inheritable nature.
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PMID:The best experts: the narratives of those who have a genetic condition. 1643 Oct 6

How will developments in genetic knowledge affect the classification of disease? Leaders in genetics have suggested that knowledge of the role of genes in disease can determine nosology. Diseases might be defined by genotype, thus avoiding the limitations of more empirical approaches to categorization. Other commentators caution against disease definitions that are detached from the look and feel of disease, and argue for an interplay between genotypic and phenotypic information. Still others attribute nosologic change to social processes. We draw on an analysis of the scientific literature, our conversations with genetics clinicians, and reviews of patient organization Web sites to offer a revised interpretation of the nosologic implications of molecular genetic knowledge. We review the recent histories of three diseases--hemophilia, Rett syndrome, and cystic fibrosis--to argue that nosologic change cannot be explained by either biologic theories of disease etiology or sociologic theories of social tendencies. Although new genetic information challenges disease classifications and is highly influential in their redesign, genetic information can be used in diverse ways to reconstruct disease categories and is not the only influence in these revisions. Ironically, genetic information is likely to play a central role in producing a new, but still empirical, classification scheme.
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PMID:Redefining disease? The nosologic implications of molecular genetic knowledge. 1648 80

Adeno-associated virus (AAV) has emerged as an attractive vector for gene therapy. AAV vectors have successfully been utilized to promote sustained gene expression in a variety of tissues such as muscle, eye, brain, liver, and lung. As the significance of AAV as a gene therapy vector has been realized over the past years, recent developments in recombinant AAV (rAAV) production and purification have revolutionized the AAV field. It is now possible to produce high yields of vector (10(12)-10(13) genome-containing particles per mL) that are free of contaminating cellular and helper virus proteins. Such vectors have been successfully used in preclinical applications in animal models such as those of hemophilia, lysosomal storage diseases and vision deficiency, all of which have shown therapeutic benefits from rAAV treatment. Clinical trials using rAAV2 for the treatment of hemophilia B, cystic fibrosis, alpha-1-antitrypsin deficiency, and Canavan disease have begun, and reports from these phase I trials support the safety seen in preclinical trials. Eventually, tissue-specific vectors that can potentially evade the immune system will be required to optimize success in gene therapy. In recent years, this has led to the development of retargeted rAAV2 vectors and the identification and characterization of new serotypes from human and nonhuman primates that could potentially achieve these goals. AAV virologists and gene therapists alike have just begun to scratch the surface in terms of the utility of this small virus in a clinical setting. In this chapter, we will provide a comprehensive overview of the recent advances in rAAV vector production and purification, vector development, and clinical applications.
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PMID:Adeno-associated virus as a gene therapy vector: vector development, production and clinical applications. 1656 90

Autosomal dominant polycystic kidney disease (ADPKD) is the most common life-threatening, hereditary disease. The prevalence of ADPKD is more common than Huntington disease, haemophilia, sickle cell disease, cystic fibrosis, myotonic dystrophy and Down syndrome combined. In recent years there have not only been advances in the understanding of the genetic and molecular events involved in ADPKD, but some diagnostic and therapeutic advances have also emerged. In the genetics area, the gene for PKD1 was localised to chromosome 16, is associated with polycystin-2 protein, and found to account for approximately 85% of patients with ADPKD. The gene for PKD2, found in chromosome 4, accounts for approximately 15% of ADPKD, and is associated with the polycystin-2 protein. While these genetic and molecular biology findings have stimulated a great deal of exciting basic research in ADPKD, therapies to decrease morbidity and mortality in ADPKD patients have yet to emerge from these findings. In contrast, the early diagnosis and treatment of hypertension with inhibitors of the renin-angiotensin-aldosterone system have the potential to decrease or prevent left ventricular hypertrophy cardiac complications and slow the progression of the renal disease.
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PMID:Optimal care of autosomal dominant polycystic kidney disease patients. 1688 82

The rapid advances associated with the Human Genome Project combined with the development of proteomics technology set the bases to face the challenge of human gene therapy. Different strategies must be evaluated based on the genetic defect to be corrected. Therefore, the re-expression of the normal counterpart should be sufficient to reverse phenotype in single-gene inherited disorders. A growing number of candidate diseases are being evaluated since the ADA deficiency was selected for the first approved human gene therapy trial (Blaese et al., 1995). To cite some of them: sickle cell anemia, hemophilia, inherited immune deficiencies, hyper-cholesterolemia and cystic fibrosis. The approach does not seem to be so straightforward when a polygenic disorder is going to be treated. Many human traits like diabetes, hypertension, inflammatory diseases and cancer, appear to be due to the combined action of several genes and environment. For instance, several wizard gene therapy strategies have recently been proposed for cancer treatment, including the stimulation of the immune system of the patient (Xue et al., 2005), the targeting of particular signalling pathways to selectively kill cancer cells (Westphal and Melchner, 2002) and the modulation of the interactions with the stroma and the vasculature (Liotta, 2001; Liotta and Kohn, 2001).
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PMID:Skin gene therapy for acquired and inherited disorders. 1687 66

PTC-124, a 1,2,4-oxadiazole compound, is in development by PTC Therapeutics Inc as an orally active small molecule that can override nonsense stop translation signals to produce full-length proteins. PTC-124 is currently being evaluated in phase II clinical trials against cystic fibrosis (CF) and Duchenne muscular dystrophy (DMD). The functional properties of PTC-124 are similar to the aminoglycoside antibiotic gentamicin, but the two compounds are chemically distinct and PTC-124 does not exhibit any antibiotic characteristics. In vitro experiments showed PTC-124 to be superior to gentamicin at ribosomal read-through of nonsense mutations. In vivo investigations revealed that PTC-124 was effective in restoring the production of full-length protein in animal models of CF and DMD. Phase I clinical trials reported that PTC-124 was well tolerated in healthy patients. The author concludes that the encouraging results observed to date make PTC-124 an attractive option for further well-designed, long-term human studies on larger sample populations. The author also predicts that if results continue to be positive, PTC-124 could also be trialed in other single gene disorders with nonsense mutations such as hemophilia, neurofibromatosis, retinitis pigmentosa, bullous skin diseases and lysosomal storage disorders.
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PMID:Drug evaluation: PTC-124--a potential treatment of cystic fibrosis and Duchenne muscular dystrophy. 1709

Gene therapy uses the intracellular delivery of genetic material for the treatment of disease. A wide range of diseases - including cancer, vascular and neurodegenerative disorders and inherited genetic diseases - are being considered as targets for this therapy in adults. There are particular reasons why fetal application might prove better than application in the adult for treatment, or even prevention of early-onset genetic disorders such as cystic fibrosis and Duchenne muscular dystrophy. Research shows that gene transfer to the developing fetus targets rapidly expanding populations of stem cells, which are inaccessible after birth, and indicates that the use of integrating vector systems results in permanent gene transfer. In animal models of congenital disease such as haemophilia, studies show that the functionally immature fetal immune system does not respond to the product of the introduced gene, and therefore immune tolerance can be induced. This means that treatment could be repeated after birth, if that was necessary to continue to correct the disease. For clinicians and parents, fetal gene therapy would give a third choice following prenatal diagnosis of inherited disease, where termination of pregnancy or acceptance of an affected child are currently the only options. Application of this therapy in the fetus must be safe, reliable and cost-effective. Recent developments in the understanding of genetic disease, vector design, and minimally invasive delivery techniques have brought fetal gene therapy closer to clinical practice. However more research needs to be done in before it can be introduced as a therapy.
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PMID:Gene therapy for the fetus: is there a future? 1790 Sep 91

Polycystic kidney diseases (autosomal dominant and autosomal recessive) are progressive renal tubular cystic diseases, which are characterised by cyst expansion and loss of normal kidney structure and function. Autosomal dominant polycystic kidney disease (ADPKD) is the most common life- threatening, hereditary disease. ADPKD is more prevalent than Huntington's disease, haemophilia, sickle cell disease, cystic fibrosis, myotonic dystrophy and Down's syndrome combined. Early diagnosis and treatment of hypertension with inhibitors of the renin-angiotensin-aldosterone system (RAAS) and its potential protective effect on left ventricular hypertrophy has been one of the major therapeutic goals to decrease cardiac complications and contribute to improved prognosis of the disease. Advances in the understanding of the genetics, molecular biology and pathophysiology of the disease are likely to facilitate the improvement of treatments for these diseases. Developments in describing the role of intracellular calcium ([Ca(2+)](i)) and its correlation with cellular signalling systems, Ras/Raf/mitogen extracellular kinase (MEK)/extracellular signal-regulated protein kinase (ERK), and interaction of these pathways with cyclic adenosine monophosphate (cAMP) levels, provide new insights on treatment strategies. Blocking the vasopressin V(2) receptor, a major adenylyl cyclase agonist, demonstrated significant improvements in inhibiting cytogenesis in animal models. Because of activation of the mammalian target of rapamycin (mTOR) pathway, the use of sirolimus (rapamycin) an mTOR inhibitor, markedly reduced cyst formation and decreased polycystic kidney size in several animal models. Caspase inhibitors have been shown to decrease cytogenesis and renal failure in rats with cystic disease. Cystic fluid secretion results in cyst enlargement and somatostatin analogues have been shown to decrease renal cyst progression in patients with ADPKD. The safety and efficacy of these classes of drugs provide potential interventions for experimental and clinical trials.
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PMID:Potential pharmacological interventions in polycystic kidney disease. 1803 88

The practical application of gene transfer as a treatment for genetic diseases such as cystic fibrosis or hemophilia has been hindered, in part, by low efficiencies of vector delivery and transgene expression. We demonstrated that a feline immunodeficiency virus (FIV)-based lentiviral vector pseudotyped with the envelope glycoprotein from the baculovirus Autographa californica (GP64) efficiently transduces and persistently expresses a reporter gene in respiratory epithelium in the absence of agents that disrupt cellular tight junction integrity. GP64-pseudotyped FIV also efficiently transduced murine hepatocytes after tail vein delivery. To improve the FIV-based vector, we tested the contribution of a series of modifications to luciferase expression in vitro and in vivo. These modifications included the addition of spleen necrosis virus U5 (SNV U5) and mutation of the major splice donor and gag start codon located in the packaging region of the FIV transgene plasmid. After vector modification, we observed significantly enhanced expression of luciferase in respiratory epithelia after nasal application and in the liver after tail vein delivery. In addition, we observed significantly enhanced human factor VIII production after tail vein delivery. These sequential modifications provide an improved FIV lentivirus platform for gene therapy applications and may be applied to other retroviral vectors.
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PMID:Enhanced gene expression conferred by stepwise modification of a nonprimate lentiviral vector. 1805 20


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