Mutations in EKLF/KLF1 form the molecular basis of the rare blood group In(Lu) phenotype

Comparison of normal erythroblasts and erythroblasts from persons with the rare In(Lu) type of Lu(a-b-) blood group phenotype showed increased transcription levels for 314 genes and reduced levels for 354 genes in In(Lu) cells. Many erythroid-specific genes (including ALAS2, SLC4A1) had reduced tran...

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Veröffentlicht in:	Blood 2008-09, Vol.112 (5), p.2081-2088
Hauptverfasser:	Singleton, Belinda K., Burton, Nicholas M., Green, Carole, Brady, R.Leo, Anstee, David J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Sequence Base Sequence Cell Adhesion Molecules - genetics Cells, Cultured DNA Primers - genetics DNA, Complementary - genetics Erythroblasts - metabolism Gene Expression Profiling Genotype Humans Kruppel-Like Transcription Factors - chemistry Kruppel-Like Transcription Factors - genetics Lutheran Blood-Group System - genetics Models, Molecular Molecular Sequence Data Mutation Neoplasm Proteins - genetics Phenotype Sequence Homology, Amino Acid Transcription, Genetic Zinc Fingers - genetics
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creator	Singleton, Belinda K. Burton, Nicholas M. Green, Carole Brady, R.Leo Anstee, David J.
description	Comparison of normal erythroblasts and erythroblasts from persons with the rare In(Lu) type of Lu(a-b-) blood group phenotype showed increased transcription levels for 314 genes and reduced levels for 354 genes in In(Lu) cells. Many erythroid-specific genes (including ALAS2, SLC4A1) had reduced transcript levels, suggesting the phenotype resulted from a transcription factor abnormality. A search for mutations in erythroid transcription factors showed mutations in the promoter or coding sequence of EKLF in 21 of 24 persons with the In(Lu) phenotype. In all cases the mutant EKLF allele occurred in the presence of a normal EKLF allele. Nine different loss-of-function mutations were identified. One mutation abolished a GATA1 binding site in the EKLF promoter (−124T>C). Two mutations (Leu127X; Lys292X) resulted in premature termination codons, 2 (Pro190LeufsX47; Arg319GlufsX34) in frameshifts, and 4 in amino acid substitution of conserved residues in zinc finger domain 1 (His299Tyr) or domain 2 (Arg328Leu; Arg328His; Arg331Gly). Persons with the In(Lu) phenotype have no reported pathology, indicating that one functional EKLF allele is sufficient to sustain human erythropoiesis. These data provide the first description of inactivating mutations in human EKLF and the first demonstration of a blood group phenotype resulting from mutations in a transcription factor.
doi_str_mv	10.1182/blood-2008-03-145672
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subjects	Amino Acid Sequence Base Sequence Cell Adhesion Molecules - genetics Cells, Cultured DNA Primers - genetics DNA, Complementary - genetics Erythroblasts - metabolism Gene Expression Profiling Genotype Humans Kruppel-Like Transcription Factors - chemistry Kruppel-Like Transcription Factors - genetics Lutheran Blood-Group System - genetics Models, Molecular Molecular Sequence Data Mutation Neoplasm Proteins - genetics Phenotype Sequence Homology, Amino Acid Transcription, Genetic Zinc Fingers - genetics
title	Mutations in EKLF/KLF1 form the molecular basis of the rare blood group In(Lu) phenotype
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