UNIPROT:P06889 - FACTA Search

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Cystathionine beta-synthase (CBS) deficiency is an autosomal recessive disorder associated with multisystem clinical disease. We analyzed PCR amplified products from patients' RNA and genomic DNA. Direct sequencing of the entire coding region of the CBS gene revealed a G-919 to A transition in exon 8, resulting in replacement of Gly 307 by Ser (G307S) in the protein. The mutation was detected in one allele of patient L171 of French/Scottish ancestry and in both alleles of patient L198 of Irish ancestry. Amplifying and sequencing exon 8 from the genomic DNA showed that both parents of L198 were heterozygotes for G307S. The pathogenicity of the mutation was demonstrated in an expression experiment. The mutant protein was apparently stable in E.coli extracts and lacked catalytic activity. Sequencing of exon 8 revealed the G307S mutation in five additional families. All patients have pyridoxine nonresponsive homocystinuria. We have now observed this mutation in 9 of 52 apparently unrelated alleles of varied ethnic backgrounds. All 9 are from patients with Celtic (Irish/English/Scottish/French) ancestry in either one or both parents. The G307S mutation was detected in 50% (9 of 18) of the Celtic alleles in our series. The second mutation found in exon 8 is the I278T mutation, which was described previously in one allele of a pyridoxine responsive patient. This missense mutation was detected in one allele of a pyridoxine nonresponsive patient and in both alleles of a pyridoxine responsive patient. The latter suggests that I278T is probably associated with pyridoxine responsiveness.
Hum Mol Genet 1993 Nov
PMID:Molecular basis of cystathionine beta-synthase deficiency in pyridoxine responsive and nonresponsive homocystinuria. 750 2

We used SSCP to survey reverse transcribed-PCR amplified cystathionine synthase cDNAs from patients with homocystinuria. In a single CBS allele, we identified one synonymous and two missense mutations in a portion of the cDNA encoded by a single 135 bp exon which also encodes K119, the putative site of cofactor, pyridoxal 5'-phosphate, binding. The patient, a B6-nonresponsive homocystinuric of Irish descent, is homozygous for a G-->A transition at cDNA position 374, a G-->A transversion at position 393, and a G-->A transition at position 453 resulting in R125Q, E131D and P145P, respectively. Family studies confirmed that all three mutations are present in cis and none were present in 54 Irish and 58 North American controls. R125 is conserved in rat CBS while E131D is conserved in rat CBS, and a related enzyme, O-acetylserine(thiol)-lyase, from a variety of plant and bacterial species. Expression studies showed that both R125Q and E131D, either individually or together, inactivate CBS. The apparently simultaneous appearance of more than one mutation in a single exon suggests they may have arisen by a gene conversion event or by nonhomologous recombination.
Hum Mol Genet 1994 Oct
PMID:Characterization of a cystathionine beta-synthase allele with three mutations in cis in a patient with B6 nonresponsive homocystinuria. 784 17

Cystathionine beta-synthase (CBS) deficiency is the major cause of homocystinuria in humans. The most frequent symptoms of homocystinuria include: dislocated optic lenses, vascular disorders, skeletal abnormalities and mental retardation. Patients with this deficiency have elevated levels of homocyst(e)ine, methionine and low cysteine in their body fluids. These abnormal levels often partially or fully normalize upon treatment with pharmacological doses of vitamin B6. To investigate the molecular and biochemical basis for these conditions, it was necessary to determine the nucleotide and polypeptide sequence of CBS. We report here the human CBS cDNA sequence of 2,554 nucleotides encoding the CBS subunit of 551 amino acids. An intron of 214 bp appears to be retained in the 3'-untranslated region of most of the fibroblast and liver mRNA. We also report a frequent Mspl polymorphism in the 3'-untranslated sequence and two synonymous mutations in the coding region: 699C/T (Y233Y) and 1080C/T (A360A). The amino acid sequence similarity of human and rat CBS is greater than 90%; the enzyme also exhibits 52% similarity to O-acetylserine(thiol)-lyase from bacteria and plants. Lastly, we demonstrate that expression of the human enzyme in CHO cells yields enzymatically active protein of the expected size with a half-life of approximately 14 hrs.
Hum Mol Genet 1993 Oct
PMID:Human cystathionine beta-synthase cDNA: sequence, alternative splicing and expression in cultured cells. 790 80

We determined the molecular basis of cystathionine beta-synthase (CBS) deficiency in three siblings with pyridoxine responsive homocystinuria using a significantly improved mutation screening method in bacteria. The phenotypic expression of the siblings differed even though their CBS genotypes were identical. The paternal allele contained a linked pair of mutations, C233G and G306C, corresponding to P78R and K102N in the polypeptide chain. Together, these inactivated the enzyme; however, expressed separately, they reduced activity by about one half. The single maternal mutation G715A (E239K) effectively abolished CBS activity. Subunits of CBS were absent from patient fibroblast extracts; however, E. coli, transformed with plasmids containing patient CBS cDNA, expressed the subunits, although in reduced amounts. The mother, an obligate heterozygote, was free from all signs of homocystinuria; nonetheless, extracts of her fibroblasts were devoid of CBS protein and activity. We conclude that fibroblast levels of CBS are only partially effective as prognosticators of disease severity and that it is important to test the in vivo response to vitamin B6 in all cases of homocystinuria, including those in which the mutations lead to the absence of the enzyme in cultured fibroblasts.
Hum Mol Genet 1994 Jul
PMID:Identical genotypes in siblings with different homocystinuric phenotypes: identification of three mutations in cystathionine beta-synthase using an improved bacterial expression system. 798 78

Mutations in the human cystathionine beta-synthase (CBS) gene are known to cause homocystinuria and may also be a significant risk factor for premature atherosclerosis. We have previously shown that the human CBS protein can substitute for the endogenous yeast CBS protein in Saccharomyces cerevisiae. We now show that expression of three different CBS mutants known to be associated with reduced enzyme activity in humans fail to complement growth in the yeast assay. In addition, we have used the yeast CBS assay to identify eight mutant CBS alleles in cell lines from patients with CBS deficiency. These mutant alleles include two previously identified and five novel CBS mutations. Our results also demonstrate that the yeast CBS assay can detect a large percentage of individuals heterozygous for mutations in CBS. This system should be useful in determining the relationship between CBS mutations and human disease.
Hum Mol Genet 1995 Jul
PMID:A yeast assay for functional detection of mutations in the human cystathionine beta-synthase gene. 852 2

A moderate increase in plasma homocysteine is increasingly considered an important risk factor of atherosclerosis and thrombosis. However, the mechanisms by which hyperhomocysteinemia induces vascular disease are not well defined. In vitro studies suggest that cysteine and homocysteine can induce oxidative modification of low-density lipoproteins (LDL). This suggestion is relevant because lipoprotein oxidation is thought to play a key role in the development of atherosclerosis and in the triggering of thrombotic events. An attractive model to study this topic is provided by patients with classical homocystinuria, an inherited disease characterized by severe hyperhomocysteinemia and a high incidence of thromboembolisms. We investigated the existence of oxidized LDL and the susceptibility to oxidation of the plasma cholesterol-rich lipoproteins in six patients with severe hyperhomocysteinemia, most likely due to classical homocystinuria, and compared the results with matched controls. The proportion of electronegative LDL and the concentration of thiobarbituric acid reactive substances in native LDL and high-density lipoproteins (HDL) did not differ between patients and controls, suggesting that the proportion of modified lipoproteins is not increased in patients with severe hyperhomocysteinemia. The susceptibility to oxidative modification of plasma LDL and HDL was also similar in the two groups, although the patients had homocysteine levels 18.3-fold higher than controls. Thus, increased oxidative modification is not likely to be a relevant mechanism in explaining their high incidence of vascular disease. A possible explanation for the lack of increased susceptibility to oxidation, as would be expected for the metabolic blockade that cause classical homocystinuria, is the 4.1-fold decrease in the concentration of cysteine in the plasma of patients. As a result the total concentration of homocysteine plus cysteine was slightly lower in patients than in controls. This interpretation implies that more studies are needed on lipoprotein susceptibility to oxidation in patients in which both plasma homocysteine and cysteine concentrations are increased. This metabolic situation may be frequent in the population with moderate hyperhomocysteinemia and vascular disease.
J Mol Med (Berl) 1996 Dec
PMID:Susceptibility of plasma low- and high-density lipoproteins to oxidation in patients with severe hyperhomocysteinemia. 897 13

We used single-strand conformational polymorphism and direct nucleotide sequencing to identify a novel mutation in the cystathionine beta-synthase (CBS) gene of two siblings with homocystinuria. Both patients are heterozygous carriers of the G919A transition and the novel mutation which involves a G-to-A transition in the intron 12 splice donor site. Reverse transcription of RNA harvested from transformed lymphocytes followed by PCR showed a normal size product along with two shorter products involving the deletion of either exon 12 alone or both exons 11 and 12. To our knowledge, the skipping of more than one exon through a single base substitution at a splice-donor site has not been previously reported. The normal size splice product was found to have either a G or an A at nucleotide position 919, indicating that normal size mRNA was produced by both alleles.
Biochem Mol Med 1997 Jun
PMID:Identification of a splice site mutation in the cystathionine beta-synthase gene resulting in variable and novel splicing defects of pre-mRNA. 923 91

Cystathionine beta-synthase (CBS) catalyzes the irreversible, serine-dependent conversion of homocysteine to cystathionine via a transsulfuration pathway. CBS deficiency not only is the leading cause of homocystinuria, an inherited genetic disorder, but may contribute to cardiovascular disease as well. We isolated three new isoforms of human CBS mRNA from a human liver cDNA library. We designate these CBS mRNAs as CBS 3, CBS 4, and CBS 5, and the CBS mRNAs reported previously by Kraus et al. (1993) (Hum. Mol. Genet. 2, 1933-1938) and Kruger and Cox (1994) (Proc. Natl. Acad. Sci. USA 91, 6614-6618) as CBS 1 and CBS 2, respectively. Sequence analyses show that the only difference among the five CBS mRNAs is at the beginning of the 5'-untranslated region. Tissue distribution studies reveal that liver and pancreas have the highest amounts of CBS mRNAs. CBS mRNA is present in all regions of the brain tested. We also report the differential distribution of CBS mRNA isoforms in tissues, showing that pancreas contains all five CBS isoforms and the liver has four CBS mRNA isoforms, CBS 1-4. The kidney contains only CBS 1 and CBS 2. In human fetal tissues, CBS 2 is present in the liver and kidney. PCR-based quantitative analyses of CBS mRNA isoforms in human liver demonstrate that CBS 1 and CBS 2 are the major species, with CBS 2 being more abundant, while CBS 3-5 are the minor species. Furthermore, results from our human liver cDNA screening and primer extension experiments show that each of the five CBS transcripts begins with a different exon, suggesting that CBS gene transcription might be regulated by more than one promoter.
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PMID:Identification and tissue distribution of human cystathionine beta-synthase mRNA isoforms. 946 25

We have screened a rat brain library to identify proteins which interact with the 5'-end of huntingtin (amino acids 1-171), including the polyglutamine tract, in the yeast two-hybrid system. We detected an interaction with cystathionine beta-synthase (CBS) [L-serine hydrolyase (adding homocysteine), EC 4.2.1.22], which was confirmed in vitro using His-tagged CBS expressed in Escherichia coli , which was able to specifically bind both rat and human full-length huntingtin. Neither normal nor expanded polyglutamine repeat alone interacted with CBS in the yeast two-hybrid system and nor did constructs containing SBMA or DRPLA with normal or expanded polyglutamine tracts. CBS therefore appears to bind specifically to huntingtin. CBS deficiency is associated with homocystinuria, which is known to affect various physiological systems, including the central nervous system. Homocysteine, one of the substrates of CBS, is known to accumulate in homocystinuria and is metabolized to homocysteate and homocysteine sulphinate, both known to be powerful excitotoxic amino acids. It has been suggested that Huntington's disease involves the action of excitotoxic amino acids and this interaction with CBS may suggest a mechanism for such excitotoxic damage.
Hum Mol Genet 1998 Mar
PMID:Huntingtin interacts with cystathionine beta-synthase. 946 92

A simple, rapid, reliable and convenient method was developed to analyze the gene defects in Phenylketonuria (PKU) and Homocystinuria (HCU). In this method, illegitimately transcribed phenylalanine hydroxylase (PAH) and cystathionine beta-synthase (CBS) mRNAs in peripheral lymphocytes were used as templates for amplification by RT-PCR. The amplified products were confirmed by restriction enzyme digestions, southern blot hybridizations and sequencing. Point mutations in the protein coding region and splice junction mutations of PAH and CBS can be analyzed by this method.
Biochem Mol Biol Int 1998 Jul
PMID:Amplification of phenylalanine hydroxylase and cystathionine beta-synthase transcripts in human peripheral lymphocytes by RT-PCR. 971 86

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