UNIPROT:Q00604 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine whether patients with acquired asplastic anemia (AA) exhibit clonal hematopoiesis, we used restriction fragment length polymorphisms of the X-linked genes phosphoglycerate kinase (PGK1) and hypoxanthine phosphoribosyltransferase (HPRT) and the X-linked probe M27 beta. Of the 19 female patients studied, 18 (95%) patients were informative for at least one marker. Of these, eight patients (42%) were heterozygous for PGK1, two (11%) for HPRT, and 16 (84%) for M27 beta. In 13 (72%) patients, a monoclonal pattern was found. Analysis of purified cell suspensions of four of these patients showed that both myeloid and lymphoid cells were of monoclonal origin, indicating the involvement of an early stem cell. The four patients who were studied at presentation all showed a monoclonal pattern. One of these patients showed a spontaneous recovery despite persistent clonal hematopoiesis. The presence of either clonal or polyclonal hematopoiesis did not show a correlation with the response to antithymocyte globulin (ATG) treatment. A relapse after ATG was also seen in a patient exhibiting polyclonal hematopoiesis. Conversely, a monoclonal pattern did not preclude the occurrence of a partial or complete response to ATG. Other potential markers to study clonality, including cytogenetic abnormalities or point mutations of the N-ras protooncogene, were not found in any of the patients. It is concluded that patients with AA may exhibit clonal hematopoiesis. The significance with respect to evolution to disorders with clonal hematopoiesis like paroxysmal nocturnal hemoglobinuria, myelodysplasia, and acute leukemia remains to be determined.
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PMID:Clonal hematopoiesis in patients with acquired aplastic anemia. 163 35

Paroxysmal nocturnal hemoglobinuria (PNH) is an acquired clonal hematologic disorder caused by deficient biosynthesis of the glycosylphosphatidylinositol (GPI) anchor. PIG-A, an X-linked gene that participates in the first step of GPI-anchor synthesis, is responsible for PNH. Abnormalities of the PIG-A gene have been demonstrated in all patients with PNH that have been studied to date. In this study, we analyzed 14 Japanese patients with PNH and identified 15 somatic mutations of PIG-A. The mutations included eight single-base changes and seven frame shift mutations. The single-base changes were two nonsense, three missense, and three splice site mutations. The frame shift mutations were four single-base deletions, two single-base insertions, and a replacement of two bases with one. They were all different, except for the same missense mutation being found in two patients. Moreover, these mutations were distributed in various regions of the gene. These results indicated that the mutations occurred at random sites and that there is no mutation hot spot in the PIG-A gene. All the mutations resulted in complete loss of function. Interestingly, the granulocytes in these patients contained variable proportions of mutant cells, suggesting that clonal expansion is not determined solely by mutations but is influenced by another factor(s).
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PMID:Somatic mutations of the PIG-A gene found in Japanese patients with paroxysmal nocturnal hemoglobinuria. 753 14

To evaluate quality of hematologic recovery in aplastic anemia (AA) patients treated with cyclosporine A (CyA), we examined polymorphonuclear leukocytes (PMNCL) from 25 AA patients for clonality and glycosyl-phosphatidylinositol (GPI)-anchored membrane protein expression. Using three different X-linked gene probes, we failed to detect clonal hematopoiesis in seven CyA-responsive female patients. Clonal hematopoiesis was detected in two of six female patients refractory to CyA therapy, although one of these two patients had shown monoclonality before therapy. Flow-cytometric analysis revealed a normal expression of GPI-linked membrane proteins, including CD55, CD59, and CD16 on PMN in all patients treated with CyA, irrespective of response, except for one patient who had a small proportion of GPI-anchored membrane protein-negative cells before therapy. The proportion remained unchanged 41 months after hematologic recovery following CyA therapy. These findings suggest that successful therapy of AA with CyA may not be associated with a significant risk of developing late clonal complications, such as paroxysmal nocturnal hemoglobinuria (PNH) and myelodysplasia.
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PMID:Quality of hematologic recovery in patients with aplastic anemia following cyclosporine therapy. 753 14

We evaluated the methylation status of the X-linked gene phosphoglycerate kinase (PGK1) and the DXS 255 locus detected by probe M27 beta to study clonality in acquired aplastic anemia (AA). A total of 30 females were suitable for clonal analysis of peripheral blood polymorphonuclear cells (PMN) and mononuclear cells using a polymerase chain reaction-based procedure in 24 patients and Southern blotting in 9. Overall, 10 of 30 patients exhibited an imbalanced X-inactivation pattern. However, in 4 patients, analysis of constitutional DNA suggested a skewed methylation pattern and 2 further cases had to be excluded because of the lack of an appropriate control. A truly clonal pattern was thus established in 4 of 30 (13%) patients. In 7 patients who later developed clonal disorders of hematopoiesis, X-inactivation analysis did not predict this event in any case. In patients with a paroxysmal nocturnal hemoglobinuria phenotype, there was no correlation between the proportion of phosphatidylinositol glycan anchored protein (PIG-AP)-deficient blood cells and the corresponding X-inactivation pattern. X-inactivation analysis detected clonal hematopoiesis in only 3 of 10 patients with a deficiency in PIG-AP in the cell population under study, but sorting of nucleated cells on the basis of PIG-AP expression showed the clonal nature of PIG-AP-deficient cells. We conclude that the majority of patients with AA show polyclonal hematopoiesis using X-linked clonal analysis, but that minor clonal populations, such as PIG-AP-deficient cells, may not be detected unless sorted cell populations are separately analyzed.
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PMID:Clonal hematopoiesis as defined by polymorphic X-linked loci occurs infrequently in aplastic anemia. 757 86

Many T cell surface proteins are attached to the cell membrane by glycosylphosphatidylinositol (GPI) anchors, which may be involved in cell signaling, protein targeting or protein release. Proteins destined to be GPI-anchored have both N- and C-terminal signal peptides, which permit the nascent polypeptides to transverse the endoplasmic reticulum and to be transferred to preformed GPI anchors in a transamidase reaction. The biosynthetic pathway of the GPI anchor in mammalian cells has been elucidated using a panel of T cell mutants that cannot express GPI-anchored proteins on their cell surfaces. The first step in anchor biosynthesis is the transfer of N-acetylglucosamine (GlcNAc) to a phosphoinositol (PI) acceptor to form GlcNAc-PI, which is then deacetylated to form GlcN-PI. Subsequently, a fatty acid is added to the inositol ring and three mannose residues are transferred to the elongating GPI core. Finally, ethanolamine phosphates are transferred to the mannose residues. Three human cDNAs encoding for GPI synthases (Classes A, F and H) have been identified using expression cloning technique. Mutation in the X-linked class A gene was shown to be the cause of paroxysmal nocturnal hemoglobinuria, an acquired disease affecting hematopoietic stem cells in which the abnormal cells are deficient in GlcNAc-PI formation. The potential involvement of GPI-anchored proteins or GPIs in T cell activation is also discussed.
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PMID:Biosynthesis and processing of the glycosylphosphatidylinositol anchor in mammalian cells. 805 38

Clonality analysis, by means of polymorphisms of X-linked genes and their methylation patterns, was performed in 41 female patients with various types of refractory anemia. Bone marrow cells, peripheral blood cells, and granulocytic and lymphocytic fractions were analysed by Southern blotting with PGK, HPRT, and M27 beta probes. Clonal hematopoiesis was evidenced in 8 of 19 patients with aplastic anemia, 4 of 6 patients with RA or RARS, 3 of 7 patients with PNH, and 5 of 9 patients whose hematological characteristics did not meet the criteria of either of these entities. For aplastic anemia, clonal hematopoiesis was demonstrated in higher frequency in the patients who had longer history after diagnosis. In refractory anemia, as a whole, no clear correlation was observed between existence of clonal hematopoiesis and morphological characteristics of hematological cells.
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PMID:[Clonality in refractory anemia]. 809 42

Paroxysmal nocturnal haemoglobinuria (PNH), an acquired clonal blood disorder, is caused by the absence of glycosyl phosphatidylinositol (GPI)-anchored surface proteins due to a defect in a specific step of GPI-anchor synthesis. The cDNA of the X-linked gene, PIG-A, which encodes a protein required for this step has recently been isolated. We have carried out a molecular and functional analysis of the PIG-A gene in four cell lines deficient in GPI-linked proteins, obtained by Epstein-Barr virus (EBV) transformation of affected B-lymphocytes from PNH patients. In all four cell lines transfection with PIG-A cDNA restored normal expression of GPI-linked proteins. In three of the four cell lines the primary lesion is a frameshift mutation. In two of these there is a reduction in the amount of full-length mRNA. The fourth cell line contains a missense mutation in PIG-A. In each case the mutation was present in the affected granulocytes from peripheral blood of the patients, but not in normal sister cell lines from the same patient. These data prove that PNH is caused in most patients by a single mutation in the PIG-A gene. The nature of the mutation can vary and most likely occurs on the active X-chromosome in an early haematopoietic stem cell.
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PMID:Paroxysmal nocturnal haemoglobinuria (PNH) is caused by somatic mutations in the PIG-A gene. 830 54

Paroxysmal nocturnal hemoglobinuria is an acquired hemolytic anemia associated with somatic mutations in the X-linked gene PIG-A, which encodes a protein involved in the biosynthesis of glycosyl phosphatidylinositol anchors. To further elucidate the molecular basis of paroxysmal nocturnal hemoglobinuria, we have worked out a systematic and relatively rapid methodology to scan for mutations in the entire coding region of the PIG-A gene. By this methodology, we have identified 15 different somatic mutations in 12 patients. The mutations were spread throughout the entire PIG-A-coding region. Of the mutations, 10 caused frameshifts, 6 caused small deletions, 3 caused small insertions, and 1 caused deletion-insertion. Five single base pair substitutions caused three missense mutations, one nonsense mutation, and one defect in the donor splice site of intron 4. In each of 3 patients, two independent mutations were identified. The predominance of frameshift mutations may reflect selection for somatic mutations giving rise to clones with a completely nonfunctional PIG-A protein.
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PMID:Mutations in the PIG-A gene causing paroxysmal nocturnal hemoglobinuria are mainly of the frameshift type. 854 57

Human erythrocyte cell surface molecules that are attached to the cell membrane by glycosyl-phosphatidylinositol (GPI) anchors include the complement regulatory proteins decay accelerating factor (DAF, CD55) and membrane inhibitor of reactive lysis (MIRL, CD59), as well as the proteins that bear the Cartwright, Dombrock, and JMH blood group antigens. The acquired hematopoietic stem cell disorder paroxysmal nocturnal hemoglobinuria (PNH) results from the absence or marked deficiency in expression of GPI-anchored proteins in affected hematopoietic cells. PNH usually if not always results from a somatic mutation of an X-linked gene called PIG-A; the product of the PIG-A gene is a glycosyl transferase necessary for construction of the GPI anchor. DAF is a ubiquitously expressed protein present in many tissues, including gastrointestinal epithelia, corneal epithelia, and serosa of urinary and reproductive organs. DAF is a 70 kD glycoprotein containing complement regulatory short consensus repeats (SCRs); its gene is located in the regulation of complement activation (RCA) gene cluster on chromosome 1 and is about 40 kb in size. The Cromer blood group antigens, which reside on DAF, include 10 currently defined antigens, of which seven are of high incidence. The molecular basis of the Cr (a-) phenotype has been determined to be a single base pair substitution in DAF SCR4 (G-->C, leading to an ala193 to pro amino acid substitution). The Tc alpha antigen appears to be determined by the amino acid sequence of SCR1, with the Tc (a-b+) phenotype arising from a base pair substitution of G55-->T, leading to an arg18 to leu amino acid substitution. The null phenotype for Cromer antigens occurs when DAF is completely absent; only one example has been completely studied on the molecular level. That individual is homozygous for a point mutation in SCR1 (G314-->A) that creates a stop codon (TGA) in place of one normally encoding trp53 (TGG) and thus prevents further translation of the mRNA. The Dr(a-) phenotype expresses reduced quantities of DAF (approximately 40% of normal levels), as well as a polymorphism of DAF. Lack of the Dr alpha antigen has been proved to result from a single point mutation in SCR3 (C-->T in codon 165) that leads to a single amino acid substitution (ser-->leu). The Cartwright (Yt) antigens reside on acetylcholinesterase (AChE). In erythroid cells, a small exon that encodes the signal for attachment of the GPI anchor is retained in a tissue-specific process.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Glycosyl phosphatidylinositol-linked blood group antigens and paroxysmal nocturnal hemoglobinuria. 854 26

Posttranslational modification by the GPI glycolipid anchor is essential for the surface expression of many membrane proteins. Defect of GPI biosynthesis due to somatic mutation in the hematopoietic stem cell is the basis for an acquired genetic disease, paroxysmal nocturnal hemoglobinuria (PNH). Previously, an X-linked gene PIGA (phosphatidylinositol glycan class A), which participates in the first step of the biosynthesis, was shown to be mutated in abnormal cells from all 60 patients with PNH. The cDNA of another GPI synthesis gene PIGF was previously cloned, but it is not involved in pathogenesis of PNH. In the present study, we have analyzed PIGF genomic clones. The PIGF gene contained six exons spanning about 40 kb and was located to the short arm of chromosome 2 at 2p16-p21. The frequency of mutations on both alleles of PIGF should be much lower than that of mutation in the X-linked PIGA, accounting for a lack of involvement of PIGF in PNH. We also identified the processed pseudogene of PIGF (psi PIGF) and mapped it to 5q35.
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PMID:Structure and chromosomal localization of the GPI-anchor synthesis gene PIGF and its pseudogene psi PIGF. 857 82

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