Gene/Protein
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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:2.7.7.49 (
reverse transcriptase
)
31,746
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Thirty-nine patients from the Nebraska Regional
Hemophilia
Center were studied for the prevalence and titers of antibodies to HTLV-III/LAV, and for clinical symptoms of possible progression toward the acquired immunodeficiency syndrome (AIDS). Fourteen of 26 (54%) patients with
hemophilia A
were positive for HTLV-III/LAV antibodies as determined by immunofluorescence and Western blotting. Retrovirus was detected in cultured lymphocytes of two out of three seropositive individuals by
reverse transcriptase
assay and molecular hybridization with cloned HTLV-III/LAV probe. Of the twelve factor VIII-deficient patients who were seronegative, one had received only heat-treated factor VIII concentrates, six only cryoprecipitate or fresh frozen plasma, two prothrombin complex concentrates, one had not been transfused since 1983, and two had never been transfused. None of the patients treated only with factor IX concentrates, volunteer donor plasma, or cryoprecipitate had HTLV-III/LAV antibodies. In 12 of 14 seropositive hemophiliacs, titers of serum antibodies to HTLV-III/LAV ranged from 1:1,280 to 1:10,240, indicating a strong immune response against HTLV-III/LAV antigens and/or persistent infection with the virus. In spite of the possible exposure to HTLV-III/LAV during the past four years, none of the patients in this group had AIDS. Whether or not this group of patients has developed immunity to the AIDS retrovirus remains to be determined.
...
PMID:HTLV-III/LAV antibodies and virus in hemophilia patients in Nebraska: survey and initiation of a prospective study. 242 67
The molecular characterization of
hemophilia A
of Chinese origin was carried out by the polymerase chain reaction (PCR) and direct sequencing of patients' factor VIII genes. Single-strand conformation polymorphism (SSCP) and dideoxy fingerprinting (ddF) were used as screening methods to detect mutated DNAs. A total of 102 individuals from 87 different families, including 10 patients (10 families) with mild-to-moderate and 92 patients (77 families) with severe
hemophilia A
, were analyzed by PCR-SSCP and PCR-ddF. Of the 87 independent cases, 40 revealed a single mutation in the coding regions of their factor VIII genes. These mutations include 21 with single base changes resulting in 8 nonsense and 13 missense codons, 16 with deletion or insertion of 1-11 nucleotides, and 3 with deletion of large DNA fragments. The frequency of 8 of the identified factor VIII polymorphisms or silent mutations was also determined among Chinese. The frequencies for codons 1241, 1269, and 2223 (the numbering system follows J. Gitschier et al., 1984, Nature 312: 326-330) were found to be different from those reported for other populations. As for the 47 severe cases whose mutational events were not readily detected by PCR-SSCP and PCR-ddF, the
reverse transcriptase
PCR method was applied. In 24 such cases analyzed, 17 were found to be of the "intron 22 mutations" as described by Naylor et al. (1992, The Lancet, 342: 1066-1067), accounting for 39% of Chinese patients with
hemophilia A
.
...
PMID:Characterization of genetic defects of hemophilia A in patients of Chinese origin. 830 58
Previously we created two strains of factor VIII-deficient mice by insertion of a neo gene into (1) the 3' end of exon 16 and (2) exon 17 of the factor VIII gene. Affected mice of both strains have no plasma factor VIII activity, yet are healthy with no spontaneous bleeding. Factor VIII-deficient females bred with affected males survive pregnancy and delivery. We used
reverse transcriptase
-polymerase chain reaction of liver RNA to characterize factor VIII mRNA processing. Factor VIII mRNA of the exon 16 knockout strain contains neo sequences plus 17 bp of intron 16 due to use of a cryptic donor site in intron 16. All factor VIII mRNA of the exon 17 knockout strain lacks exon 17 and neo sequences. In skipping exon 17, the intron 16 donor site or a cryptic donor site 46 bp 3' to the intron 16 donor site are used. Thus,
factor VIII deficiency
in exon 16 knockout mice is due to truncated protein, while in exon 17 knockout mice it is due to either truncated or partially deleted protein. After immunizing exon 16 knockout mice with human recombinant factor VIII, two monoclonal antibodies were obtained that recognize < 100 pg of mouse factor VIII light chain. Assay of cryoprecipitate from the plasma of affected mice failed to show factor VIII light chain.
...
PMID:Further characterization of factor VIII-deficient mice created by gene targeting: RNA and protein studies. 889 9
Factor VIII (fVIII) is the procoagulant plasma glycoprotein that is missing or decreased in
hemophilia A
. The cellular origin of fVIII synthesis is controversial. Liver transplantation cures
hemophilia A
, demonstrating that the liver is a major site of fVIII synthesis. We detected fVIII mRNA in purified populations of murine liver sinusoidal endothelial cells (LSECs) and hepatocytes, but not Kupffer cells. LSECs and hepatocytes contained comparable numbers of fVIII mRNA (40 and 70 transcripts per cell, respectively) by quantitative competitive
reverse transcriptase
-polymerase chain reaction analysis. There was not detectable mRNA for factor IX, a hepatocyte marker, in the LSEC preparation, nor was there detectable mRNA for von Willebrand factor, an endothelial cell marker, in the hepatocyte preparation. This excludes the possibility that detectable fVIII mRNA is due to cross-contamination in the hepatocyte or LSEC preparations. Primary cultures of LSECs were established in which fVIII mRNA levels were indistinguishable from purified LSECs. LSECs secreted active fVIII into the culture medium. This finding represents the first demonstration of homologous expression of fVIII mRNA and protein in cell culture and should facilitate studies of fVIII gene regulation. Additionally, LSECs potentially are targets for a fVIII transgene during gene therapy of
hemophilia A
.
...
PMID:Expression of factor VIII by murine liver sinusoidal endothelial cells. 1039 93
Little is known about treatment of hepatitis C virus (HCV) infection in "other groups" than the general population, namely patients with hematologic or renal disorders and patients with human immune deficiency (HIV) co-infection. The aim was to better define HCV therapies in these groups. We analyzed the medical literature focusing on treatment of HCV infection in other populations to suggest conclusions about indications based on tolerance and efficacy. As in the general population, the decision to treat should be based mainly on liver pathology, and to a lesser extent on virologic profiles (genotype, quantitative viremia).
Hemophilia
does not modify therapeutic strategies which combine interferon-alpha and ribavirin. Similar combinations should be discussed in patients with inherited hemoglobin disorders but iron overload (secondary hemochromatosis) associated with multiple transfusions may decrease the potential efficacy of interferon-alpha and chronic anemia may limit the use of ribavirin. In hemodialyzed patients, therapy by interferon-alpha is feasible with 3 MU subcutaneously after each hemodialysis three times weekly for 6-12 months. Virologic results are at least similar to those obtained in the general population with frequent pathological improvement. Combinations are not possible because ribavirin is contraindicated for pharmacokinetic reasons. In kidney recipients, interferon-alpha is deleterious and inefficient; ribavirin monotherapy has a potential interest which remains to be evaluated. In HIV co-infected patients, treatment is mandatory given the high rate of cirrhosis and the improved survival related to multiple anti-HIV therapies (which have no clear efficacy for quantitative HCV viremia). Due to the limited efficacy of interferon-alpha monotherapy, the combination of interferon-alpha and ribavirin appears to be the logical treatment. An important point is the in vitro inhibition of phosphorylation by ribavirin of HIV
reverse transcriptase
inhibitors which has to be analyzed in vivo before the combination can be recommended. On the basis of the results of liver biopsy, antiviral treatments may be proposed for HCV-infected patients with hematologic or renal disorders as well as for HIV co-infected patients. The choice of therapy (monotherapy or combined therapies) should be based on the clinical situation (contraindicated with chronic anemia or renal failure, for example) and its duration on the virologic factors of response as in the general population.
...
PMID:Treatment of chronic hepatitis C in special groups. 1062 89
A gross deletion in the factor VIII (FVIII) mRNA was determined by
reverse transcriptase
polymerase chain reaction (RT-PCR) for a patient with moderately severe
hemophilia A
. Sequencing of the RT-PCR product depicted a 177-bp deletion ranging from nucleotide (nt) 6724 to nt 6900 of FVIII cDNA, exactly corresponding to the whole exon 25. Further study of the genomic DNA revealed the presence of a single base pair substitution (G >A) at position -1 of intron 24. The absolute consensus AG doublet of the intron 24 splicing acceptor changed to AA. In the novel splice site mutation, exon 24 was erroneously spliced to exon 26, skipping exon 25. The FVIII antigen level was normal despite the markedly reduced functional activity. Since exon 25 corresponds to part of the C2 domain, we speculate that for this patient the aberrant C2 domain markedly reduces binding affinity of FVIII protein to the phospholipid membrane, thus severely impairing the protein function.
...
PMID:A novel splicing acceptor mutation of the factor VIII gene producing skipping of exon 25. 1263 51
Ectopic mRNA was analyzed by
reverse transcriptase
polymerase chain reaction (RT-PCR) in patients with duplication of F8 gene exon 13, a mutation which has been demonstrated to be a cause of mild
hemophilia A
in 32% of Northern Italian subjects. Two different transcripts originate from mutated genomic DNA, due to alternative splice processes. The larger-sized transcript contains both duplicated exons 13, the smaller one contains only one exon 13. The residual FVIII:C activity which accounts for the mild
hemophilia A
phenotype derives from the latter transcript.
...
PMID:Exon skipping partially restores factor VIII coagulant activity in patients with mild hemophilia A with exon 13 duplication. 1599 47
We investigated the molecular basis of a severe factor V (FV) deficiency in a Japanese female, and identified two distinct mutations in the FV gene, a novel cytosine insertion (1943insC) and a previously reported point mutation (A5279G). We expected the patient to be a compound heterozygote for those mutations, as a 1943insC, but not an A5279G, was found in the mother and a sibling. The 1943insC will cause a frame-shift after 590Gln, resulting in amino acid substitutions with two abnormal residues followed by a stop codon in the FV A2 domain (FS592X). The A5279G will cause an amino acid alteration in the FV A3 domain (Y1702C), which has been observed in several ethnic groups. We found that both mutant mRNAs were detected by
reverse transcriptase
polymerase chain reaction (RT-PCR) in the patient's platelets, whereas no FV antigen and activity were detected in plasma. On the one hand, the RT-PCR signal from the FS592X-FV mutant mRNA was markedly reduced, suggesting that the RNA surveillance system would eliminate most of the abnormal FS592X-FV transcripts with a premature termination. On the other hand, expression analyses revealed that only small amounts of Y1702C-FV with a low specific activity were secreted, and that the FS592X-FV was not detected in cultured media. These data indicated that both mutant FV molecules would be impaired, at least in part, during the post-transcriptional process of protein synthesis and/or in secretion. Taken together, it seems to suggest that each gene mutation could be separately responsible for severe FV deficiency, while this phenotype is due to the in-trans combination of the two defects.
Haemophilia
2006 Mar
PMID:A case of coagulation factor V deficiency caused by compound heterozygous mutations in the factor V gene. 1647 93
