Genomic analysis of KEL*03 and KEL*04 alleles among Thai blood donors.

Background: The Kell blood group system is clinically important in transfusion medicine, particularly in patients with antibodies specific to Kell antigens. To date, genetic variations of the Kell metallo-endopeptidase (KEL) gene among Thai populations remain unknown. Objective: This study aimed to determine the frequencies of KEL*03 and KEL*04 alleles among Thai blood donors using an in-house polymerase chain reaction-sequence-specific primer (PCR-SSP) method. Methods: Blood samples obtained from 805 unrelated central Thai blood donors at a blood bank in Pathumthani, Thailand, from March 2023 to June 2023, were typed for Kpa and Kpb antigens using the column agglutination test, and the results for 400 samples were confirmed using DNA sequencing. A PCR-SSP method was developed to detect the KEL*03 and KEL*04 alleles, and genotyping results were validated using known DNA controls. DNA samples obtained from Thai donors in central (n = 2529), northern (n = 300), and southern (n = 427) Thailand were also genotyped using PCR-SSP for comparison. Results: All 805 (100%) donors had the Kp(a-b+) phenotype. The PCR-SSP genotyping results agreed with the column agglutination test and DNA sequencing. All 3256 Thai blood donors had the homozygous KEL*04/KEL*04 genotype. Frequencies of the KEL*03 and KEL*04 alleles among Thai donors differed significantly from those of Japanese, Native American, South African, Brazilian, Swiss, and German populations. Conclusion: This study found a 100% KEL*04 allele frequency in three Thai populations. These data could provide information on KEL*03 and KEL*04 allele frequencies to estimate the risk of alloimmunisation in Thai populations. What this study adds: This study demonstrates that in-house PCR-SSP can be used to determine KEL*03 and KEL*04 alleles to predict Kpa and Kpb antigens. Even though only homozygous KEL*04/KEL*04 genotypes were found among Thai donor populations, the established PCR-SSP method may be useful for estimating the risk of alloimmunisation in other populations.

[Application of Modified DTT Methods to Reduce the Interference of Daratumumab on Serological Detection].

OBJECTIVE: To modified the classic dithiothreitol (DTT) method for treating red blood cells (RBCs) in Technical Manual of American Association of Blood Banks（AABB） and evaluate its application value in pre-transfusion examination of patients treated with daratumumab. METHODS: The classic 0.2 mol/L DTT method was improved in terms of PBS, DTT concentration, donor RBCs concentration (suspended/packed) and sample processing time. The modified DTT methods and AABB classic DTT method were applied to the blood matching tests of 12 multiple myeloma patients treated with daratumumab. The effect of treating panel RBCs with modified DTT methods on the detection of other irregular antibodies was evaluated by using antiserum and antibody reagents with known antibody properties. RESULTS: Two modified DTT methods were established (method 1: changed the concentration of DTT to 0.01 mol/L; method 2: changed the concentration of DTT to 0.02 mol/L and replaced the packed RBCs with 3% RBCs suspension). The optimal treatment time was 35 min for the modified DTT methods. At this time, the pan-agglutination caused by daratumumab was eliminated, but the detection of antibodies such as anti-E, anti-JKa, anti-M were not affected, and the titer of anti-K antibodies was only slightly decreased. CONCLUSION: The modified DTT methods were effective, which can eliminate the interference of daratumumab while retaining the activity of the Kell blood group system, and can replace the current classic DTT method in AABB Technical Manual.

Frequency of Kell and Rh alloantibodies in Iranian Thalassemia Patients in Khorasan Razavi Province, Iran.

Background: Thalassemia is an inherited disease with anemia and hemolysis. Blood transfusion is a routine treatment for thalassemia patients; alloimmunization is one of the complications of blood transfusion, which is very serious for these patients, especially girls and young women. Materials and Methods: In this cross-sectional study, 446 thalassemia patients were examined. Demographic information of patients was extracted and recorded. The phenotype of ABO, Rh, and Kell antigens (tube method) with antisera from IMMUNDIANOSTICA Company (Germany) and the frequency of alloantibodies were determined. Results: 55.8% of the studied individuals were male, and 44.2% were female. Mean age of the studied patients was 19.94±10.63. The alloantibodies were detected in 7.5% of cell-pack receivers. The most prevalent phenotype of the ABO system was the O blood group (37.4%), and the most abundant antigen of the Rh group was 'e', which was found in 99.8% of the studied population. The most common alloantibody detected was Anti K (38.2%); concerning kell phenotype, (K_k+) and (K+k+) were found in 99.3% and 0.7% of patients, respectively. The frequency of Anti-D, Anti-C, Anti-c, and Anti-E was 23.5%, 14.7%, 2.9%, and 14.7%, respectively. Conclusion: According to the results of this paper, finding the compatible packed cells in terms of Kell and Rh systems antigens in addition to the ABO blood group is recommended to decrease the rate of alloantibodies in thalassemia patients.

Novel KEL allele associated with loss of Kpb identified in a white blood donor.

The importance of identifying variant alleles among blood donors is significant to the safety of transfusion for recipients. Molecular methods have become more prominent in the routine process of antigen typing donor units. Some variant antigens cannot be detected using only serologic methods. Molecular testing allows the determination of nucleotide sequences that are used to predict a phenotype. Antigens of the Kell blood group system are known for being highly immunogenic and causing adverse reactions upon antibody formation. A female white blood donor who typed Kp(b-) using serologic methods on multiple donations since 2005 was the subject of a typing discrepancy investigation. Routine genotyping using a commercial genotyping kit (HemoID DQS Panel; Agena Bioscience, San Diego, CA) predicted the donor to type Kp(a+b+). Investigation of the discrepancy between these two results identified a rare single nucleotide variant in the KEL gene at nucleotide position c.948G>T that alters amino acid residue 316 from tryptophan (Trp) to cysteine (Cys). After discovery of the novel allele, adsorption and elution studies were performed to see if there was weakened Kpb expression. The elution studies yielded negative results, which indicated that Kpb is not expressed. The KEL transcripts expressed by the donor were determined using cDNA analysis, and the predicted amino acid sequence of the novel allele was modeled to investigate the impact of the amino acid sequence on the structure of the KEL polypeptide. Both SWISS-MODEL and Robetta software were used to evaluate the impact of the p.Trp316Cys on the three-dimensional protein structure. There was no conformational change noted with SWISS-MODEL, whereas the Robetta software showed a significant conformational change compared with the normal Kp(b+) reference sequence. Because the donor is homozygous for variants associated with k and Jsb expression, it was not possible to determine whether the novel allele is associated with loss of Kpb only or loss of all Kell antigens.

Noninvasive diagnostics of fetal KEL*01.01 allele from maternal plasma of immunized women using digital PCR protocols.

Allo-antibodies produced by K-negative pregnant women against a fetal K antigen from the Kell blood group system may cause hemolytic disease of the fetus and newborn (HDFN). Predicting the fetal K antigen using noninvasive prenatal testing (NIPT) is important for decisions concerning management of pregnancies. Digital and droplet digital PCR techniques permit the detection of fetal single nucleotide variant with a higher specificity and sensitivity than real-time polymerase chain reaction (PCR). AIM: The aim was to evaluate and compare protocols for fetal KEL*01.01 genotyping using different assays and digital PCR platforms. METHODS: DNA isolated from 59 pregnant women (9-39 weeks of gestation, 49 with anti-K) was tested using home-made and custom-ordered KEL*01.01/KEL*02 assays with Droplet Digital™ and QuantStudio™3D. The results were compared with fetal/neonatal genotypes/phenotypes. RESULTS: Fetal KEL*01.01 results using all tested protocols were concordant with fetal/neonatal KEL*01.01 genotypes/phenotypes. None of the tested combinations of assays or digital PCR platforms gave false KEL*01.01-negative results, but inconclusive KEL*01.01 reads were observed in all tested protocols. For 36 cases compared using two digital PCR platforms and assays, there were not statistically significant differences in a level of fetal KEL*01.01 fraction (p < .72). CONCLUSION: Independent of the applied dPCR and ddPCR platforms and KEL*01.01 assays, prediction of the fetal KEL*01.01 is highly reliable. Before implementation in routine practice further validation of the KEL*01.01 protocol with a larger group of pregnant women should be performed.

Association between HLA-DRB1*01 and HLA-DRB1*15 with alloimmunisation in transfusion-dependent patients with thalassaemia.

BACKGROUND: Alloantibody production is one of the most challenging complications in transfusion-dependent thalassaemia patients. Haemolytic anaemia, an increase in blood consumption, difficulty in haematopoietic stem cell transplantation and reduced quality of life are consequences of alloimmunisation. The most predisposed antigens (Ags) for alloantibody development are Rh and Kell blood group Ags. OBJECTIVE: The aim of the present study is to evaluate any correlation between HLA-DRB1 alleles and Rh and Kell alloantibodies. MATERIALS AND METHODS: Fifty-two non-responders (control) and 54 responders (case) were enrolled in this study. Alloantibody detection was performed using the tube method. Genotyping of HLA-DRB1*01 and HLA-DRB1*15 was conducted by single-specific primer-polymerase chain reaction. RESULTS: In the responder group, 77.8% were hyper-responders (more than one alloantibody), and only 22.2% were mono-responders. Most detected alloantibodies were Anti-K (94.4%), followed by Anti-E (64.8%), Anti-C (29.6%) and Anti-D (25.9%). There was a significant difference in HLA-DRB1*15 between responder and non-responder groups, 73.7% vs 26.3%, respectively. (P = .029, OR = 3.290; 95%CI). Our results showed that HLA-DRB1*15 was more frequent in hyper-responders than mono-responders (92.9% vs 7.1%) (P = .007). The greatest HLA-DRB1*15 was seen in Anti-K (P = .014, odds ratio [OR = 3.784]; 95% confidence interval [CI]) and Anti-E (P = .011, OR = 3.609; 95%CI) alloantibodies. There is no association between HLA-DRB1*01 and alloimmunisation. CONCLUSION: Our findings showed that there is a significant correlation between HLA-DRB1*15 and Anti-K and Anti-E alloantibodies. These findings can be useful in detecting susceptible thalassaemic patients and improving transfusion management.

Regulatory SNP rs5743417 impairs constitutive expression of human ß-defensin 1 and has high frequency in Africans and Afro-Americans.

The prediction of regulatory single nucleotide polymorphisms (rSNPs) in proximal promoters of disease-related genes could be a useful tool for personalized medicine in both patient stratification and customized therapy. Using our previously reported method of rSNPs prediction (currently a software called SNPClinic v.1.0) as well as with PredictSNP tool, we performed in silico prediction of regulatory SNPs in the antimicrobial peptide human ß-defensin 1 gene in three human cell lines from 1,000 Genomes Project (1kGP), namely A549 (epithelial cell line), HL-60 (neutrophils) and TH 1 (lymphocytes). These predictions were run in a proximal pseudo-promoter comprising all common alleles on each polymorphic site according to the 1,000 Genomes Project data (1kGP: ALL). Plasmid vectors containing either the major or the minor allele of a putative rSNP rs5743417 (categorized as regulatory by SNPClinic and confirmed by PredictSNP) and a non-rSNP negative control were transfected to lung A549 human epithelial cell line. We assessed functionality of rSNPs by qPCR using the Pfaffl method. In A549 cells, minor allele of the SNP rs5743417 G→A showed a significant reduction in gene expression, diminishing DEFB1 transcription by 33% when compared with the G major allele (p-value = .03). SNP rs5743417 minor allele has high frequency in Gambians (8%, 1kGP population: GWD) and Afro-Americans (3.3%, 1kGP population: ASW). This SNP alters three transcription factors binding sites (TFBSs) comprising SREBP2 (sterols and haematopoietic pathways), CREB1 (cAMP, insulin and TNF pathways) and JUND (apoptosis, senescence and stress pathways) in the proximal promoter of DEFB1. Further in silico analysis reveals that this SNP also overlaps with GS1-24F4.2, a lincRNA gene complementary to the X Kell blood group related 5 (XKR5) mRNA. The potential clinical impact of the altered constitutive expression of DEFB1 caused by rSNP rs5743417 in DEFB1-associated diseases as tuberculosis, COPD, asthma, cystic fibrosis and cancer in African and Afro-American populations deserves further research.

First report of a KELnull phenotype in Peru and a lesson of invisible genetic disparity.

Blood banks in developing countries have limited capability to typify common blood groups creating disparities in the access to blood units for patients with rare blood genotypes. We report the case of a Peruvian woman with metastatic breast cancer with KELnull phenotype (K0), a rare blood group characterized by the lack of expression of all Kell antigens on the red blood cells (RBCs). The molecular studies identified that the patient's RBCs were homozygous for the nonsense c.1546C > T mutation predicted to encode p.Arg516Ter (KEL*02 N.17 allele), which confirmed the K0 phenotype. We conducted a local and international search of compatible blood units. Finally, the Japanese Red Cross donated the blood units for the patient. We present here the first report for a K0 phenotype in Peru and the challenging genetic disparities that many patients have to face to access to blood units in our country.

Frecuencia y procedencia del antígeno Kell en mujeres donantes de sangre durante los años 2016-2017 / Frequency and origin of the Kell antigen in female blood donors during 2016-2017

Resumen Introducción: El sistema Kell está formado por dos antígenos principales: el Kell (K) y el Cellano (k), estos son capaces de causar reacciones graves, tales como reacción hemolítica postransfusional y la enfermedad hemolítica del recién nacido. Los antígenos de este sistema son altamente inmunogénicos lo que les confiere el tercer lugar en importancia clínica. Objetivo: Determinar la frecuencia del antígeno Kell y procedencia de las mujeres donantes de sangre con antígeno Kell positivo en el Hemocentro del Centro Oriente Colombiano (HCOC). Metodología: Estudio descriptivo de corte transversal que incluyó 186 donantes voluntarias de sangre del Hemocentro Centro Oriente Colombiano, se realizó la fenotipificación del antígeno Kell, utilizando la técnica Aglutinación en lámina, la cual se basa en enfrentar glóbulos rojos del donante con anticuerpo monoclonal anti K. Se calculó la frecuencia fenotípica del antígeno Kell, en porcentajes y para el procesamiento de la información se utilizó el paquete estadístico SPSS versión 21.0 en español donde se realizó todo el análisis de los datos de la población. Resultados: Se procesaron 177 muestras obtenidas en 9 campañas de donación de sangre realizadas en diferentes municipios del departamento de Boyacá, obteniéndose una frecuencia fenotípica del 7,5% para el antígeno Kell, en la población de mujeres donantes de sangre del HCOC, siendo esta similar con la frecuencia encontrada en Colombia y Latinoamérica. Conclusión: Se determinó que la frecuencia del antígeno Kell en las mujeres donantes de sangre del HCOC fue del 7,5%, y se logró identificar que no existe una relación estadísticamente entre la procedencia y la presencia del antígeno Kell en las donantes, lo anterior está relacionado con el mestizaje y los procesos de migración.

Abstract Introduction: The Kell system consists of two major antigens: Kell (K) and Cellano (K), which are capable of causing serious reactions, such as posttransfusion hemolytic reaction and hemolytic disease of the newborn. The antigens of this system are highly immunogenic which gives them the third place in clinical importance. Objective: To determine the frequency of Kell antigen and origin of blood donors in the Hemocenter of the Centro Oriente Colombiano (H.C.O.C). Methods: Cross-sectional descriptive study involving 186 blood donors from the Centro Oriente Colombian Hemocenter, phenotyping of the Kell antigen was carried out, using the technique Aglutination in lamina, which is based on facing donor red blood cells with anti-K monoclonal antibody. Calculated the phenotypic frequency of the Kell antigen in percentages and for the processing of the information was used the statistical package SPSS version 21.0 in Spanish where all the analysis of the data of the population was carried out. Results: 177 samples obtained in 9 blood donation campaigns were carried out in different municipalities of the department of Boyacá, obtaining a phenotypic frequency of 7.5% for the Kell antigen in the population of female HCOC blood donors. Similar to the frequency found in Colombia and Latin America. Conclusion: It was determined that the frequency of Kell antigen in the female HCOC donors was 7.5%, and it was possible to identify that there is no statistically relation between the origin and the presence of Kell antigen in the donors, Is related to mestizaje and migration processes.

Anti Kpa alloantibody: Development of a rare alloantibody in a non-Hodgkin's lymphoma patient of Indian origin.

The Kell blood group system is complex, contains many antigens, highly immunogenic, and potent in triggering immune reactions. Antibodies to Kell blood group system are the most common immune red cell antibodies, following ABO and Rh. However, among the anti-Kell antibodies; anti-Kpa is extremely rare. We report an interesting case of Anti-Kpa in a 59-year-old female patient of Non-Hodgkin's Lymphoma, post radiotherapy, who first developed warm autoantibody and later developed anti-Kpa alloantibody on multiple transfusions.

A Case of Packed red Cell Transfusion-Associated Anti-K Antibody

Anti-K alloantibody is a type of red blood cell (RBC) antibody which is generated through immunization. It is well noted that the anti-K antibody causes hemolytic transfusion reactions. Although Koreans generally do not have the K antigen on RBCs, we report a rare case of transfusion-related anti-K antibody in Korean patient. Just twelve pints of packed RBCs had been transfused to the patient before the anti-K was identified for the first time, but the donor information about Kell phenotype (K or k) was not available. The anti-K had been continuously detected, and the patient neither received immunoglobulins nor experienced bacterial infections which could generate anti-K antibody. Therefore we believe that her anti-K is the truly positive, previously transfused packed RBCs-related alloantibody. The packed RBCs transfused to our patient were likely to be donated from other races. The pre-transfusion irregular antibody detection test should be performed carefully to detect very rare RBC alloantibodies.

Clinical Significance of an Alloantibody against the Kell Blood Group Glycoprotein.

BACKGROUND: Kell null (K0) individuals can produce anti-Ku, an antibody against many epitopes in the Kell glycoprotein, after transfusion and/or pregnancy. Since sensitized K0 patients are rare, little is known about anti-Ku clinical relevance and in particular about its association to hemolytic disease of the fetus and newborn. CASE REPORT: This work describes a case of neonatal hyperbilirubinemia due to immune-mediated erythrocyte destruction by an alloantibody directed against the Kell glycoprotein. Serologic and molecular approaches identified an anti-Ku alloantibody in maternal serum. A homozygous IVS3 + 1g>a point mutation (KEL*02N.06 allele) was found to be responsible for the lack of Kell antigen expression in the mother's red blood cell and subsequent alloimmunization after a previous pregnancy. Even though in most cases Kell antibodies are clinically severe and may cause suppression of erythropoiesis, in our case the newborn had a moderate anemia and hyperbilirubinemia that was successfully treated with phototherapy without requiring exchange transfusion. Serological and molecular studies performed in the proband's family members allowed us to provide them with proper counseling regarding alloimmunization after transfusion and/or pregnancy. CONCLUSIONS: This case enlarges the understanding of the clinical significance of alloantibodies against Kell blood group antigens.

The characteristic of gene polymorphism of Kell blood group in Zhuang population from Guangxi region in China / 重庆医学

Objective To investigate gene polymorphism of Kell blood group in different Zhuang population from Guangxi region .Methods The genotypes of Kell blood group of 1025 non‐related individuals in different areas of Guangxi Zhuang popula‐tion were analyzed by PCR‐SSP .Results The Kell antigen in all individuals was homozygous ,the gene frequency of K and Jsa was 0 ,while that of k and Jsb was 1 .000 .Conclusion The distribution characteristic of Kell blood group in Guangxi Zhuang population was monomorphism ,which was similar to other Chinese population reported by literatures .

Molecular Basis of KELnull Phenotype in Brazilians.

BACKGROUND: KELnull (K0) persons can produce clinically significant anti-KEL5 antibody after transfusion and/or pregnancy, requiring K0 blood transfusion when indicated. 37 K0 alleles have been reported in studies over different populations, but none in Amerindian-Caucasian descendants from South America. The aim of this study was to identify the molecular basis of K0 phenotype in Brazilians. METHODS: We investigated three K0 samples from different Brazilian blood banks (Recife, Manaus, and Vila Velha) in women with anti-KEL5. KEL antigen typing was performed by serologic techniques, and the K0 status was confirmed by flow cytometry. PCR-RFLP and DNA sequencing of the KEL coding and exon-intron regions were also performed. RESULTS: RBCs of the 3 patients were phenotyped as KEL:-1,-2,-3,-4,-7. The 3 patients had the same KEL*02/02 genotype and were negative for KEL*02.03 and KEL*02.06 alleles. The Recife K0 patient was homozygous for IVS16 + 1g>a mutation (KEL*02N.31 allele). The flow cytometry with anti-KEL1, anti-KEL2, anti-KEL3, anti-KEL4, and anti-CD238 confirmed the K0 phenotype. In addition, we found the c.10423C>T mutation (KEL*02N.04 allele) in both the Manaus K0 and the Vila Velha K0 patients. CONCLUSION: This report represents the first study of K0 molecular basis performed in Amerindian-Caucasian descendants from South America.

A novel XK gene mutation in a Taiwanese family with McLeod syndrome.

McLeod syndrome is one subtype of rare neuroacanthocytosis syndromes characterized by misshapen red blood cells and progressive degeneration of the basal ganglia. It is an X-linked recessive disorder with mutation in the XK gene of the Kell blood group system with multisystem involvements. Concerning the movement disorders, its dyskinesias are various and difficult to differentiate from those in Huntington's disease or other hyperkinetic movement disorders. In this report, we described a 62-year-old male patient presenting with insidious myalgia and muscle fatigue. Progressive motor restlessness and toes choreoathetosis were noted. Previously, he had chronic psychotic disorder with irregular treatment for 14 years. The laboratory tests revealed elevated creatine phosphokinase and acanthocytes (36.3%). The electrophysiological test demonstrated an axonal type polyneuropathy. The neuroimaging of brain showed striatal degeneration. Genetic analysis revealed a nonsense hemizygous mutation c.154C>T (p.Gln52X) at exon 1 of XK gene. The genetic counseling of his family revealed one elder brother carrying the same mutation and showing a similar but very mild syndrome. Several offspring were the asymptomatic carriers. We suggest that for a patient with multiple system disorders including dyskinetic movement disorders, psychiatric symptoms, polyneuropathy, and elevated CPK, a genetic test for XK gene mutation is highly indicated to confirm the McLeod syndrome and to guide the possible therapy.

An easy and efficient strategy for KEL genotyping in a multiethnic population.

BACKGROUND: The Kell blood group system expresses high and low frequency antigens with the most important in relation to transfusion including the antithetic KEL1 and KEL2; KEL3 and KEL4; KEL6 and KEL7 antigens. Kell is a clinically relevant system, as it is highly immunogenic and anti-KEL antibodies are associated with hemolytic transfusion reactions and hemolytic disease of the fetus and newborn. Although required in some situations, Kell antigen phenotyping is restricted due to technical limitations. In these cases, molecular approaches maybe a solution. This study proposes three polymerase chain reaction genotyping protocols to analyze the single nucleotide polymorphisms responsible for six Kell antithetic antigens expressed in a Brazilian population. METHODS: DNA was extracted from 800 blood donor samples and three polymerase chain reaction-restriction fragment length polymorphism protocols were used to genotype the KEL*1/KEL*2, KEL*3/KEL*4 and KEL*6/KEL*7 alleles. KEL*3/KEL*4 and KEL*6/KEL*7 genotyping was standardized using the NlaIII and MnlI restriction enzymes and validated using sequencing. KEL*1/KEL*2 genotyping was performed using a previously reported assay. RESULTS: KEL genotyping was successfully implemented in the service; the following distribution of KEL alleles was obtained for a population from southeastern Brazil: KEL*1 (2.2%), KEL*2 (97.8%), KEL*3 (0.69%), KEL*4 (99.31%), KEL*6 (2.69%) and KEL*7 (97.31%). Additionally, two individuals with rare genotypes, KEL*1/KEL*1 and KEL*3/KEL*3, were identified. CONCLUSION: KEL allele genotyping using these methods proved to be reliable and applicable to predict Kell antigen expressions in a Brazilian cohort. This easy and efficient strategy can be employed to provide safer transfusions and to help in rare donor screening.

An easy and efficient strategy for KEL genotyping in a multiethnic population

BACKGROUND: The Kell blood group system expresses high and low frequency antigens with the most important in relation to transfusion including the antithetic KEL1 and KEL2; KEL3 and KEL4; KEL6 and KEL7 antigens. Kell is a clinically relevant system, as it is highly immunogenic and anti-KEL antibodies are associated with hemolytic transfusion reactions and hemolytic disease of the fetus and newborn. Although required in some situations, Kell antigen phenotyping is restricted due to technical limitations. In these cases, molecular approaches maybe a solution. This study proposes three polymerase chain reaction genotyping protocols to analyze the single nucleotide polymorphisms responsible for six Kell antithetic antigens expressed in a Brazilian population. METHODS: DNA was extracted from 800 blood donor samples and three polymerase chain reaction-restriction fragment length polymorphism protocols were used to genotype the KEL*1/KEL*2, KEL*3/KEL*4 and KEL*6/KEL*7 alleles. KEL*3/KEL*4 and KEL*6/KEL*7 genotyping was standardized using the NlaIII and MnlI restriction enzymes and validated using sequencing. KEL*1/KEL*2 genotyping was performed using a previously reported assay. RESULTS: KEL genotyping was successfully implemented in the service; the following distribution of KEL alleles was obtained for a population from southeastern Brazil: KEL*1 (2.2%), KEL*2 (97.8%), KEL*3 (0.69%), KEL*4 (99.31%), KEL*6 (2.69%) and KEL*7 (97.31%). Additionally, two individuals with rare genotypes, KEL*1/KEL*1 and KEL*3/KEL*3, were identified. CONCLUSION: KEL allele genotyping using these methods proved to be reliable and applicable to predict Kell antigen expressions in a Brazilian cohort. This easy and efficient strategy can be employed to provide safer transfusions and to help in rare donor screening.

A Rare Case of Transfusion-related Anti-K Alloantibodies / 대한수혈학회지

No abstract available.