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Query: UMLS:C0039483 (
giant cell arteritis
)
3,204
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The J-variant of human serum
butyrylcholinesterase
(BChE) causes both an approximately two-thirds reduction of circulating enzyme molecules and a corresponding decrease in the level of BChE activity present in serum. Since the level of serum BChE activity and the duration of succinylcholine apnea are inversely correlated, this marked decrease in activity makes individuals with the J-variant more susceptible than usual subjects to prolonged apnea from succinylcholine. We reinvestigated the same family in which Garry et al. identified the J-variant phenotype. The atypical, fluoride, and K-variant mutations were also identified in members of the 47-person pedigree. DNA amplification by PCR, followed by direct sequencing of the amplified DNA, led to the finding that the J-variant phenotype of human serum BChE was associated with two DNA point mutations in the coding region. One of these was the mutation previously identified with the K-variant phenotype (
GCA
----ACA; Ala539----Thr). The other was an adenine-to-thymine transversion at nucleotide 1490, which changed amino acid 497 from glutamic acid to valine (GAA----GTA; Glu497----Val). This latter point mutation was named the J-variant mutation (formal name BCHE*497V). The J-variant mutation has not been identified without the K-variant mutation. The J-variant mutation created an RsaI-enzyme RFLP. Two additional point mutations, located in the noncoding regions of the gene, were also found to be linked with the J-variant and K-variant point mutations on the same allele. These noncoding polymorphic mutations had previously been found linked to the atypical and K-variant point mutations. A summary table shows dibucaine, fluoride, and Hoffmann-La Roche compound Ro 2-0683 inhibition numbers for 119 samples whose DNA has been sequenced. Eighteen BChE genotypes are represented.
...
PMID:DNA mutations associated with the human butyrylcholinesterase J-variant. 134 96
Genomic DNA from two families exhibiting the K-variant phenotype of serum
butyrylcholinesterase
was amplified by PCR and sequenced to determine the molecular basis of this variant. The K-variant phenotype was found to be associated with a DNA transition from guanine to adenine at nucleotide 1615, which caused an amino acid change from alanine 539 to threonine (
GCA
----ACA; Ala539----Thr). There was a 30% reduction of serum
butyrylcholinesterase
activity associated with this mutation. Amplification and sequencing of DNA from a random sample of 47 unrelated people gave a frequency of .128 for the K-variant allele. Thus, 1 person in 63 should be homozygous for the K-variant, making the K-variant the most common
butyrylcholinesterase
variant. The K-variant mutation was also found to be present in 17 (89%) of 19
butyrylcholinesterase
genes containing the point mutation which causes the atypical phenotype of
butyrylcholinesterase
(GAT----GGT; Asp70----Gly). The presence of the K-variant in the same molecule as the atypical variant does not contribute to the qualitative change in the atypical enzyme, but it most likely accounts for the approximately one-third reduction in Vmax of
butyrylcholinesterase
activity in atypical serum. Two additional point mutations located in noncoding regions of the gene were also observed to be in linkage disequilibrium with the K-variant mutation. As many as four different point mutations have been identified within a single
butyrylcholinesterase
gene. Inhibition tests of the enzyme in plasma are usually used to distinguish the K-variant from the usual enzyme when the former is present with the heterozygous atypical variant (AK phenotype vs. UA phenotype). Inhibition tests were performed on plasma enzyme from the four possible genotypic combinations of the heterozygous atypical mutation with or without the K-variant mutation on either allele; we found that the AK phenotype was caused by three genotypes (A/K, AK/K, and U/A) and that the UA phenotype was caused by two genotypes (U/A and U/AK).
...
PMID:DNA mutation associated with the human butyrylcholinesterase K-variant and its linkage to the atypical variant mutation and other polymorphic sites. 157 Aug 38
Our laboratory has recently shown that several variant forms of human
butyrylcholinesterase
, associated with unusual sensitivity to succinylcholine, are caused by specific mutations within the structural DNA coding for this enzyme. Atypical (dibucaine-resistant)
butyrylcholinesterase
is caused by a point mutation at nucleotide position 209(GAT-- greater than GGT), which changes aspartate 70 to glycine. One fluoride-resistant variant family has a point mutation at nucleotide 728(ACG-- greater than ATG), which changes threonine 243 to methionine. Another type of fluoride-resistant variant has a point mutation at nucleotide 1169(GGT-- greater than GTT), which changes glycine 390 to valine. One type of silent phenotype is due to a frame-shift mutation at nucleotide position 351(GGT-- greater than GGAG). A polymorphic site at nucleotide position 1615 (
GCA
/ACA), coding for Ala/Thr, accounts for the quantitative K-variant, which causes an approximate one-third reduction of activity, if Thr occupies that position at codon 539. Examples are given to illustrate the advantages of using a combination of the new DNA analytical techniques, including: the use of allele-specific probes, with the standard serum
cholinesterase
phenotyping methods. More accurate typing of patients with certain variants is now possible; pedigree analysis will be aided by the improved methodology.
...
PMID:Phenotypic and molecular biological analysis of human butyrylcholinesterase variants. 225 36
Three Japanese patients showed very low
butyrylcholinesterase
activity in their sera and appeared to be homozygous for silent genes for
butyrylcholinesterase
. From DNA analysis, all three patients were compound heterozygotes: GGA(Gly) to CGA(Arg) at codon 365 (G365R) and TTC(Phe) to TCC(Ser) at codon 418 (F418S) in patient 1, G365R and CGT(Arg) to TGT(Cys) at codon 515 (R515C) in patient 2 and ACT(Thr) to CCT(Pro) at codon 250 (T250P) and AGA(Arg) to TGA(Stop) at codon 465 (R465X) in patient 3. The K-variant,
GCA
(Ala) to ACA(Thr) at codon 539, was also found in patients 1 and 2. Simple identification methods for all the mutations were developed and applied to family analysis and control individuals. The mutant alleles (with silent gene and K-variant) were segregated as predicted by theory in pedigrees of patients 1 and 2. Four of the mutations, F418S, R515C, T250P and R465X, were initially discovered in Japan and genetic heterogeneity among the human population for the
butyrylcholinesterase
gene was suggested.
...
PMID:Genetic basis of the silent phenotype of serum butyrylcholinesterase in three compound heterozygotes. 763 91
A 45-year-old man was hospitalized because of acute hepatitis. His serum
cholinesterase
(ChE) was below 10 IU/l (normal range: 105-240 IU/l) during the disease course and after his recovery. The patient was suspected of having familial hypocholinesterasemia. His family members were healthy except that his father had hypertension and gall stones. Analysis of ChE gene in the propositus and his family revealed three point mutations at nucleotides 298 (CCA to TCA), 1,410 (CGT to CGG) and 1,615 (
GCA
to ACA). The first mutation caused an amino acid change at codon 100 from proline to serine, which was a new mutation not previously reported, but the second one was a silent mutation. The third mutation resulted in an amino acid alteration from alanine to threonine at codon 539 in exon 4 of the ChE gene. The mode of transmission of these mutations is described.
...
PMID:Familial hypocholinesterasemia found in a family and a new confirmed mutation. 905 91
A random population was screened for abnormal dibucaine and fluoride numbers (DN & FN) to find some common mutations in
butyrylcholinesterase
(
BCHE
) gene. Of 2375 unrelated individuals, 10 were found to have low DN and FN and were selected for further studies. DNA analysis of these hypocholinesterasemics revealed that seven patients were heterozygous for missense mutation at codon 330 (TTA to ATA; BCHE*330I). The frequency of BCHE*330I mutation was calculated to be at least 0.29% among the Japanese. On the other hand, two novel mutations were found in three families and two individuals including probands whose enzyme activity was very low (silent gene). Polymerase chain reaction and single stranded conformation polymorphism (PCR-SSCP) and restriction fragment length polymorphism (PCR-RFLP) were used for identification of the common and known mutation types such as BCHE*250P (ACT to CCT), BCHE*365R (GGA to CGA), and BCHE*539T (
GCA
to ACA; K-polymorphism), whereas PCR-SSCP was used in combination with direct DNA sequencing for new mutations like BCHE*446V (TTT to GTT) and BCHE*451X (GAA to TAA).
...
PMID:Butyrylcholinesterase genes in individuals with abnormal inhibition numbers and with trace activity: one common mutation and two novel silent genes. 954 5
A point mutation which caused a silent phenotype of human serum
butyrylcholinesterase
(BChE) was identified in the DNA of a 47-year-old Japanese woman who visited our hospital complaining of hypertension. The propositus exhibited an unusually low level of BChE activity, whereas her younger sister and her daughter had intermediate levels of BChE activity and her elder sister a normal level. Immunologically, the amount of BChE protein in the serum of the propositus was normal. DNA sequence analysis of the propositus identified a point mutation at codon 199 (
GCA
--> GTA), resulting in a Ala --> Val substitution. This alteration is one downstream codon from the catalytic active site (Ser, 198). A family study showed her younger sister and her daughter to have the same mutation.
...
PMID:Identification of a point mutation associated with a silent phenotype of human serum butyrylcholinesterase--a case of familial cholinesterasemia. 969 84
