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Disease
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Enzyme
Compound
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Query: EC:3.4.24.11 (
CD10
)
9,792
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Kell blood group is a major antigenic system in human erythrocytes. Kell antigens reside on a 93-kDa membrane glycoprotein that is surface-exposed and associated with the underlying cytoskeleton. We isolated tryptic peptides and, based on the amino acid sequence of one of the peptides and by using the PCR, prepared a specific oligonucleotide to screen a lambda gt10 human bone-marrow cDNA library. Four clones were isolated, one containing cDNA with an open reading frame for an 83-kDa protein. All known Kell amino acid sequences were present in the deduced sequence; moreover, rabbit antibody to a 30-amino acid peptide, prepared from this sequence, reacted on an immunoblot with authentic
Kell protein
. The Kell cDNA sequence predicts a 732-amino acid protein. Hydropathy analysis indicates a single membrane-spanning region, suggesting that
Kell protein
is oriented with 47 of its N-terminal amino acids in the cell cytoplasm, and a 665-amino acid segment, which contains six possible N-glycosylation sites, is located extracellularly. Computer-based search showed that Kell has structural and sequence homology to a family of zinc metalloglycoproteins with
neutral endopeptidase
activity.
...
PMID:Molecular cloning and primary structure of Kell blood group protein. 171 90
Kell is one of the major blood group systems in human erythrocytes. It is a complex system containing a large number of different antigens. Previously we cloned the Kell cDNA, which was predicted to encode an integral membrane protein with 731 amino acids. Now we have isolated overlapping genomic clones and determined the exon-intron structure of the KEL gene; it spans approximately 21.5 kb with its coding sequence being organized in 19 exons that range in size from 63 bp to 288 bp. The size of introns ranges from 93 bp to approximately 6 kb. The donor and acceptor splice sites all conform to the consensus splicing sequences. Exon 1 encodes only the initiation amino acid, methionine, and contains a consensus Sp1 binding site. The single membrane spanning region of
Kell protein
is encoded in exon 3 and the putative zinc
endopeptidase
active site is in exon 16. The amino acids encoded by the 19 exons are identical to those of a person with a common Kell phenotype, as determined by RNA polymerase chain reaction of peripheral blood. Amplification of cDNA 5' ends, derived from human fetal liver, indicated three transcription initiation sites located 30, 81, and 120 bp upstream of the initiation codon. The 5' flanking region of KEL from -176 does not contain a TATA sequence, but has possible GATA-1 binding sites and has significant promoter activity when determined by chloramphenicol acetyltransferase activity in K562 cells.
...
PMID:Organization of the gene encoding the human Kell blood group protein. 863 75
The Kell blood group system is complex containing over 20 different antigens. Some of the Kell antigens may be organized in 5 sets of paired alleles with opposing high and low incidence antigens while others are independently expressed. Molecular cloning established that Kell antigens are carried on a 93kDa, type II, membrane glycoprotein. The Kell gene (KEL) is located at 7q 32-36 and spans about 21,5 kb. The coding sequence is organized in 19 exons. The promoter region does not contain TATA sequences but has possible transcription binding sites for GATA-1 and Sp1.
Kell protein
shares a putative enzymatic active amino acid sequence with a large family of zinc endopeptidases and has closest structural and sequence homology with
neutral endopeptidase
24,11 (a.k.a. enkephalinase,
CALLA
) and endothelin converting enzyme (ECE-1). The molecular basis of several important Kell antigens has been determined and all are due to base substitutions causing single amino acid changes. The K1/K2 polymorphism is due to a C to T substitution in exon 6, encoding a threonine to methionine change. This mutation disrupts an N-glycosylation site. Two PCR-based methods, including use of allele-specific primers, have been developed which may be used to determine fetal K1/K2 genotypes. These tests can potentially identify those pregnancies at risk for hemolytic disease of the newborn. The allelic relationship of Kpa, Kpb and Kpc was confirmed, since single base substitutions in the same codon encode 3 different amino acids.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The Kell blood group system. 854 22
Kell blood group protein shares a consensus sequence (H.E.X.X.H) with a large family of zinc-dependent endopeptidases. Kell has closest homology with
neutral endopeptidase 24.11
, endothelin converting enzyme-1 (ECE-1), and the PEX gene product that, as a group, comprise the M13 subfamily of mammalian neutral endopeptidases. The proteolytic activity of the M13 members, but not of Kell, has been previously demonstrated. A secreted form of wild-type
Kell protein
(s-Kell), devoid of the intracellular and transmembrane domains, was expressed in sf9 cells. As a negative control, an inactive mutant
Kell protein
(E582G) was expressed. As determined by N-terminal amino acid sequencing and mass spectrometry of the cleaved products, wild-type s-Kell, but not the control mutant protein, specifically cleaved big endothelin-3 (ET-3) at Trp(21)-Ile(22), yielding ET-3, and, to a much lesser extent, also cleaved big ET-1 and big ET-2 at Trp(21)-Val(22), yielding ET-1 and ET-2. Enzymatic activity was partially inhibited by phosphoramidon. s-Kell has an acidic pH optimum (pH 6.0 to 6.5). Like the recombinant protein, red blood cells of common Kell phenotype also preferentially process big ET-3, in contrast to Ko (null) cells that do not. These data demonstrate that the Kell blood group protein is a proteolytic enzyme that processes big ET-3, generating ET-3, a potent bioactive peptide with multiple biological roles.
...
PMID:Proteolytic processing of big endothelin-3 by the kell blood group protein. 1043 32
The Kell blood group protein is a zinc
endopeptidase
that yields endothelin-3, a potent bioactive peptide, by cleavage of big endothelin-3, a larger intermediate precursor. On red cells,
Kell protein
is linked by a single disulfide bond to XK, a protein that traverses the membrane 10 times and whose absence, as occurs in the McLeod phenotype, is associated with a set of clinical symptoms that include nerve and muscle disorders and red cell acanthocytosis. Previous studies indicated that Kell is primarily expressed in erythroid tissues, whereas XK has a wider tissue distribution. The tissue distribution of
Kell protein
has been further investigated by Northern blot analysis, PCR-screening of tissue complementary DNAs (cDNAs), and Western immunoblots. Screening of an RNA dot-blot panel confirmed that Kell is primarily expressed in erythroid tissues but is also expressed in a near equal amount in testis, with weaker expression in a large number of other tissues. PCR-screening of cDNAs from different tissues and DNA sequencing of the products gave similar results. In 2 of the nonerythroid tissues tested, testis and skeletal muscle,
Kell protein
was detected by Western immunoblotting. In skeletal muscle, isolation of XK with a specific antibody coisolated
Kell protein
. These studies demonstrate that Kell is expressed in both erythroid and nonerythroid tissues and is associated with XK.
...
PMID:Expression of Kell blood group protein in nonerythroid tissues. 1089 71
Expression of the Kell blood group system is dependent on two proteins, Kell and XK, that are linked by a single disulfide bond. Kell, a type II membrane glycoprotein, is a zinc
endopeptidase
, while XK, which has 10 transmembrane domains, is a putative membrane transporter. A rare phenotype termed Kell null (Ko) is characterized by the absence of
Kell protein
and Kell antigens from the red cell membrane and diminished amounts of XK protein. We determined the molecular basis of eight unrelated persons with Ko phenotypes by sequencing the coding and the intron-exon splice regions of KEL and, in some cases, analysis of mRNA transcripts and expression of mutants on the cell surface of transfected cells. Six subjects were homozygous: four with premature stop codons, one with a 5' splice site mutation, G to A, in intron 3, and one with an amino acid substitution (S676N) in exon 18. Two Ko persons with premature stop codons had identical mutations in exon 4 (R128Stop), another had a different mutation in exon 4 (C83Stop), and the fourth had a stop codon in exon 9 (Q348Stop). Two Ko persons were heterozygous for two mutations. One had a 5' splice site mutation (G to A) in intron 3 of one allele that caused aberrant splicing and exon skipping, and the other allele had an amino acid substitution in exon 10 (S363N). The other heterozygote had the same amino acid substitution in exon 10 (S363N) in one allele and a premature stop codon in exon 6 (R192Stop) in the other allele. The S363N and S676N mutants, expressed in 293T cells, were retained in a pre-Golgi compartment and were not transported to the cell surface, indicating that these mutations inhibit trafficking. We conclude that several different molecular defects cause the Kell null phenotype.
...
PMID:Molecular defects underlying the Kell null phenotype. 1137 1
In addition to its importance in transfusion,
Kell protein
is a member of the M13 family of zinc endopeptidases and functions as an endothelin-3-converting enzyme. To obtain information on the structure of
Kell protein
we built a model based on the crystal structure of the ectodomain of
neutral endopeptidase 24.11
(
NEP
). Similar to
NEP
, the
Kell protein
has 2 globular domains consisting mostly of alpha-helical segments. The domain situated closest to the membrane contains both the N- and C-terminal sequences and the enzyme-active site. The outer domain contains all of the amino acids whose substitutions lead to different Kell blood group phenotypes. In the model, the zinc peptidase inhibitor, phosphoramidon, was docked in the active site. Site-directed mutagenesis of amino acids in the active site was performed and the enzymatic activities of expressed mutant Kell proteins analyzed and compared with
NEP
. Our studies indicate that Kell and
NEP
use the same homologous amino acids in the coordination of zinc and in peptide hydrolysis. However, Kell uses different amino acids than
NEP
in substrate binding and appears to have more flexibility in the composition of amino acids allowed in the active site.
...
PMID:Active amino acids of the Kell blood group protein and model of the ectodomain based on the structure of neutral endopeptidase 24.11. 1284 80
The Kell blood group is a highly polymorphic system containing over 20 different antigens borne by the protein Kell, a 93-kDa type II glycoprotein that displays high sequence homology with members of the M13 family of zinc-dependent metalloproteases whose prototypical member is
neprilysin
. Kell K1 is an antigen expressed in 9% of the Caucasian population, characterized by a point mutation (T193M) of the Kell K2 antigen, and located within a putative N-glycosylation consensus sequence. Recently, a recombinant, non-physiological, soluble form of Kell was shown to cleave Big ET-3 to produce the mature vasoconstrictive peptide. To better characterize the enzymatic activity of the
Kell protein
and the possible differences introduced by antigenic point mutations affecting post-translational processing, the membrane-bound forms of the Kell K1 and Kell K2 antigens were expressed either in K562 cells, an erythroid cell line, or in HEK293 cells, a non-erythroid system, and their pharmacological profiles and enzymatic specificities toward synthetic and natural peptides were evaluated. Results presented herein reveal that the two antigens possess considerable differences in their enzymatic activities, although not in their trafficking pattern. Indeed, although both antigens are expressed at the cell surface, Kell K1 protein is shown to be inactive, whereas the Kell K2 antigen binds
neprilysin
inhibitory compounds such as phosphoramidon and thiorphan with high affinity, cleaves the precursors of the endothelin peptides, and inactivates members of the tachykinin family with enzymatic properties resembling those of other members of the M13 family of metalloproteases to which it belongs.
...
PMID:The Kell protein of the common K2 phenotype is a catalytically active metalloprotease, whereas the rare Kell K1 antigen is inactive. Identification of novel substrates for the Kell protein. 1576 48
