Anna Demina scite author profile

A polymorphism in the promoter of the UDPglucuronosyltransferase 1 (UGT1A1) gene has been shown to cause Gilbert syndrome, a benign form of unconjugated bilirubinemia. Promoters containing seven thymine adenine (ta) repeats have been found to be less active than the wild-type six repeats, and the serum bilirubin levels of persons homozygous or even heterozygous for seven repeats have been found to be higher than those with the wild-type six repeats. We have now examined the genotypes in persons of Asian, African, and Caucasian ancestry. Although within the Caucasian ethnic group there is a strong correlation between promoter repeat number and bilirubin level, between ethnic groups we found that this relationship to be inverse. Among people of African ancestry there are, in addition to those with six and seven repeats, also persons who have five or eight repeats. Using a reporter gene we show that there is an inverse relationship between the number of ta repeats and the activity of the promoter through the range of 5-8 ta repeats. An incidental finding was a polymorphism at nucleotide ؊106, tightly linked to the (ta) 5 haplotype. Serum bilirubin levels are inf luenced by many factors, both genetic and environmental. We suggest that the unstable UGT1A1 polymorphism may serve to ''fine-tune'' the plasma bilirubin level within population groups, maintaining it at a high enough level to provide protection against oxidative damage, but at a level that is sufficiently low to prevent kernicterus in infants.

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The Clinical Course of Treated and Untreated Gaucher Disease. A Study of 45 Patients

Beutler¹,

Demina²,

Laubscher³

et al. 1995

Blood Cells, Molecules, and Diseases

107

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Glucocerebrosidase Mutations in Gaucher Disease

Beutler

Demina

Gelbart

1994

Mol Med

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Background: Thirty-six mutations that cause Gaucher disease, the most common glycolipid storage disorder, are known. Although both alleles of most patients with the disease contain one of these mutations, in a few patients one or both disease-producing alleles have remained unidentified. Identification of mutations in these patients is useful for genetic counseling. Materials and Methods: The DNA from 23 Gaucher disease patients in whom at least one glucocerebrosidase allele did not contain any of the 36 previously described mutations has been examined by single strand conformation polymorphism (SSCP) analysis, followed by sequencing of regions in which abnormalities were detected. Results: Eight previously undescribed mutations were detected. In exon 3, a deletion of a cytosine at cDNA nt 203 was found. In exon 6, three missense mutations were identified: a C-A transversion at cDNA nt 644 (Ala176-*Asp), a C-)A transversion at cDNA nt 661 that resulted in a (Pro'82-Thr), and a G-A transition at cDNA nt 721 (Gly202-3Arg). Two missense mutations were found in exon 7: a G-A transition at cDNA nt 887 (Arg257-Gln) and a C-T at cDNA nt 970 (Arg285__Cys). Two missense mutations were found in exon 9: a T-)G at cDNA nt 1249 (Trp378-* Gly) and a G-+A at cDNA nt 1255 (Asp380-+Asn). In addition to these disease-producing mutations, a silent C-)G transversion at cDNA nt 1431, occurring in a gene that already contained the 1226G mutation, was found in one family. Conclusions: The mutations described here and previously known can be classified as mild, severe, or lethal, on the basis of their effect on enzyme production and on clinical phenotype, and as polymorphic or sporadic, on the basis of the haplotype in which they are found. Rare mutations such as the new ones described here are sporadic in nature.

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Prognostic value of minimal residual disease measured by fusion‐gene transcript in infants with KMT2A‐rearranged acute lymphoblastic leukaemia treated according to the MLL‐Baby protocol

et al. 2021

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Summary The prognostic value of minimal residual disease (MRD) measured by fusion‐gene transcript (FGT) detection was investigated in 76 infants (aged ≤1 year) with acute lymphoblastic leukaemia (ALL) with lysine methyltransferase 2A (KMT2A) rearrangements. Either at the end of induction or at later time‐points, FGT‐MRD‐positivity was associated with poor outcome. FGT‐MRD‐positivity after first consolidation or first high‐risk block detected 46·5% of infants with extremely poor outcome [disease‐free survival (SE) 0·06 (0·06), cumulative incidence of relapse (SE) 0·91 (0·05)], which was also confirmed in multivariable analysis. Thus, FGT‐MRD measurement at a single time‐point clearly identifies infants with ALL who are curable with conventional chemotherapy and those who would benefit only from other treatment approaches.

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Molecular analysis of Gaucher disease: distribution of eight mutations and the complete gene deletion in 27 patients from Germany

et al. 1997

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Gaucher disease is the most common lysosomal storage disease with a high prevalence in the Ashkenazi Jewish population but it is also present in other populations. The presence of eight mutations (1226G, 1448C, IVS2+1. 84GG, 1504T, 1604T, 1342C and 1297T) and the complete deletion of the beta-glucocerebrosidase gene was investigated in 25 unrelated non-Jewish patients with Gaucher's disease in Germany. In the Jewish population, three of these mutations account for more than 90% of all mutated alleles. In addition, relatives of two patients were included in our study. Restriction fragment length polymorphism analysis and sequencing of PCR products obtained from DNA of peripheral blood leukocytes was performed for mutation analysis. Gene deletion was detected by comparison of radioactively labelled PCR fragments of both the functional beta-glucocerebrosidase gene and the pseudogene. Among the unrelated patients, 50 alleles were investigated and the mutations identified in 35 alleles (70%), whereas 15 alleles (30%) remained unidentified. The most prevalent mutation in our group of patients was the 1226G (370Asn-->Ser) mutation, accounting for 18 alleles (36%), followed by the 1448C (444Lcu-->Pro) mutation, that was found in 12 alleles (24%). A complete gene deletion was present in two alleles (4%). The IVS1+2 (splicing mutation), the 1504T (463Arg-->Cys) as well as the 1342C (409Asp-->His) mutations were each present in one allele (2%). None of the alleles carried the 84GG (frame-shift), 1604A (496Arg-->His) or the 1297T (394Val-->Leu) mutation. This distribution is different from the Ashkenazi Jewish population but is similar to other Caucasian groups like the Spanish and Portuguese populations. Our results confirm the variability of mutation patterns in Gaucher patients of different ethnic origin. All patients were divided into nine groups according to their genotype and their clinical status was related to the individual genotype. Genotype/phenotype characteristics of the 1226G, 1448C, and 1342C mutations of previous studies were confirmed by our results.

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Anna Demina

Racial variability in the UDP-glucuronosyltransferase 1 ( UGT1A1 ) promoter: A balanced polymorphism for regulation of bilirubin metabolism?

The Clinical Course of Treated and Untreated Gaucher Disease. A Study of 45 Patients

Glucocerebrosidase Mutations in Gaucher Disease

Prognostic value of minimal residual disease measured by fusion‐gene transcript in infants with KMT2A‐rearranged acute lymphoblastic leukaemia treated according to the MLL‐Baby protocol

Molecular analysis of Gaucher disease: distribution of eight mutations and the complete gene deletion in 27 patients from Germany

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