Two Cases of Anti-D Alloimmunization in D-Negative Thai Patients as a Result of the Asian-Type DEL on Transfused Red Cells.

Introduction: DEL is known to be one of the weakest D variants, which can be detected by the adsorption-elution technique or by molecular study. Currently, in Thailand, we do not routinely test for DEL variants serologically or genetically among serologic RhD-negative blood donors. Case Presentation: We reported 2 cases of alloimmunization after transfused with Rh DEL, RHD*DEL1 allele, in the Thai population. The first case was a 73-year-old male with anemia who presented with post-cardiac arrest and septic shock. The patient was group B, RhD-negative, and was transfused with RhD-negative red blood cells (RBCs). Antibody screening and identification found that the patient developed anti-D and anti-Mia during the admission course. The second case was a 38-year-old woman with pseudomyxoma peritonei who developed anti-D after receiving four units of RhD-negative RBCs during cytoreductive surgery with hyperthermic intraperitoneal chemotherapy. Both patients did not receive anti-D immunoglobulin and had no previous history of anti-D detection. We retrospectively investigated and found two units of RHD*DEL1 among the RBCs transfused to these patients. Discussion: Previous reports of several cases of anti-D alloimmunization in RhD-negative recipients transfused by RHD*DEL1, an Asian-type DEL, are limited only to East Asia. We first identified 2 patients with anti-D alloimmunization after receiving the RHD*DEL1 RBCs in the Thai population. This raises concern about Rh DEL screening among D-negative Thai blood donors and whether to remove DEL units from the D-negative inventory to improve patient safety.

Mild Crigler-Najjar Syndrome with Progressive Liver Disease-A Multicenter Retrospective Cohort Study.

Crigler-Najjar Syndrome (CNS) with residual activity of UDP-glucuronosyltransferase 1A1 (UGT1A1) and no need for daily phototherapy is called mild Crigler-Najjar Syndrome. Most of these patients need medical treatment for enzyme induction (phenobarbital) to lower blood levels of unconjugated bilirubin (UCB). Apart from this, no long-term problems have been described so far. The phenotype of patients with the homozygous pathogenic variant c.115C>G p.(His39Asp) in UGT1A1 is described as variable. Clinical observations of our patients led to the assumption that patients with variant c.115C>G have a mild CNS phenotype while having a high risk of developing progressive liver disease. For mild CNS disease, progressive liver disease has not been described so far. Therefore, we conducted a retrospective multicenter analysis of 14 patients with this particular variant, aiming for better characterization of this variant. We could confirm that patients with variant c.115C>G have a high risk of progressive liver disease (seven of fourteen), which increases with age despite having a very mild CNS phenotype. Earlier predictors and causes for an unfavorable disease course are not detectable, but close follow-up could identify patients with progressive liver disease at the beginning. In conclusion, these patients need close and specialized follow-up. Our study questions whether fibrosis in the CNS is really driven by high amounts of UCB or phototherapy.

Serological and molecular characterisation of the most prevalent weak D variants in Croatian population.

INTRODUCTION: Existence of hundreds of RHD gene variants contributes to variable D antigen expression and inconsistencies in reporting the RHD results. The aim of the study was to determine the serological and molecular characteristics of the most prevalent RHD alleles encoding serologically weak D variants. MATERIAL AND METHODS: Blood donors (n = 145 924) were typed for D antigen using the direct serologic micromethod. Nonreactive samples were analysed in IAT method with the IgM/IgG anti-D monoclonal blend, and 0,2% (n = 263) confirmed weak D antigen expression. After genomic DNA extraction (Qiaqen, Germany), RHD genotyping was performed using in house reagents and PCR-SSP kits (Inno-Train, Germany). RESULTS: The prevalence of serologically weak D in blood donor population was 0.2% (n = 263). RHD genotyping confirmed weak D allele in 92.4% and partial D allele in 7.6%. The most common was weak D type 1 (49.7%) followed by weak D type 3 (24.7%) and type 2 (9.5%). Relatively high frequency was detected for weak D type 14 (4.6%) and type 64 (2.3%). In the category of partial D phenotypes, only DVI variant was found. Direct typing has shown great variability in the strength of reactions with different clones of anti-D reagents. CONCLUSION: Weak D type 1 is the most common weak D variant in Croatian blood donor population. The frequency of D variants and distribution of Rh phenotypes in our study was in concordance with other studies. It has been shown that serological methods and the combination of clones used, cannot distinguish variant D types, which justifies the use of molecular methods.

[Identification and Molecular Biology of Variant D Blood Group of RHD*95A Genotype].

OBJECTIVE: To explore the molecular biology of D variant blood group with RHD*95A genotype and the genetic mechanism of its generation. METHODS: A total of 6 samples from 3 generations of a family were analyzed. RHD blood group was identified by saline test tube and microcolumn gel card method. 10 exons of RHD gene were amplified by Polymerase Chain Reaction-Sequence Specific Primer (PCR-SSP) and analyzed by direct sequencing. Homology modeling was used to compare the structural differences between mutant RHD protein and wild-type RHD protein. RESULTS: The proband was identified as D variant by serological identification, RHD gene sequencing directly detected a c. 95 c > A mutation in exon 1 that leads to encoding the 32-bit amino acids by threonine Thr (T) into aspartic acid Asn (N), the rest of the exon sequences were normal compared with the normal RHD*01 gene. In the family, the proband's father, grandmather and uncle were all carried the same RHD*95A allele. Protein modeling results suggested that the hydrogen chain connected to the 32nd amino acid residue was changed after p.T32N mutation, which affected the structural stability of RHD protein. CONCLUSION: The first genetic lineage of the RHD*95A gene was identified in a Chinese population. The c.95C>A mutation in RHD gene was found in the family, which resulted in reduced expression of RHD antigen and showed D variant, the mutation could be stably inheritable. Gene identification and protein structure analysis of D variant population is helpful to explore the molecular mechanism of its formation and ensure the safety of blood transfusion.

Neurexin 2 p.G849D variant, implicated in Parkinson's disease, increases reactive oxygen species, and reduces cell viability and mitochondrial membrane potential in SH-SY5Y cells.

Parkinson's disease (PD) is a neurodegenerative movement disorder, affecting 1-2% of the human population over 65. A previous study by our group identified a p.G849D variant in neurexin 2α (NRXN2) co-segregating with PD, prompting validation of its role using experimental methods. This novel variant had been found in a South African family with autosomal dominant PD. NRXN2α is an essential synaptic maintenance protein with multiple functional roles at the synaptic cleft. The aim of the present study was to investigate the potential role of the translated protein NRXN2α and the observed mutant in PD by performing functional studies in an in vitro model. Wild-type and mutant NRXN2α plasmids were transfected into SH-SY5Y cells to assess the effect of the mutant on cell viability and apoptosis [(3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) Assay; ApoTox-Glo™ Triplex Assay)], mitochondrial membrane potential (MMP; MitoProbe™ JC-1 Assay), mitochondrial network analysis (MitoTracker®) and reactive oxygen species (ROS; ROS-Glo™ H2O2 Assay). Cells transfected with the mutant NRXN2α plasmid showed decreased cell viability and MMP. They also exhibited increased ROS production. However, these cells showed no changes in mitochondrial fragmentation. Our findings led us to speculate that the p.G849D variant may be involved in a toxic feedback loop leading to neuronal death in PD. Mitochondrial dysfunction and synaptic dysfunction have been linked to PD. Therefore, findings from this exploratory study are in line with previous studies connecting these two processes and warrants further investigation into the role of this variant in other cellular and animal models.

RhD alloimmunization by DEL variant missed in donor testing.

INTRODUCTION: Exposure to normal or variably expressed RhD antigens in an antigen-negative individual can elicit an immune response and lead to the formation of clinically significant anti-D alloantibodies. We present the case of anti-D alloimmunization by DEL variant missed in routine blood donor screening. MATERIAL AND METHODS: Blood donors were typed for D antigen using the direct serologic micromethod. Nonreactive samples were confirmed in the indirect antiglobulin method with an IgM/IgG anti-D monoclonal reagent. Genomic DNA was extracted using a commercial QIAamp DNA Blood Mini kit on the QIAcube device (Qiaqen, Germany). RHD genotyping was performed using the PCR-SSP genotyping kits- Ready Gene D weak, Ready Gene D weak screen, Ready Gene CDE, and Ready Gene D AddOn (Inno-Train, Germany). Unidentified alleles were sent for DNA genome sequencing. RESULTS: After identifying DEL positive blood units in RhD negative blood donor pool, a look-back study was performed to determine if their previous donations caused alloimmunization in recipients. Out of 40 D negative recipients, one developed anti-D alloantibody after 45 days. The patient did not receive other RhD positive blood products. Blood donor typed D negative in direct and indirect agglutination method. RHD screening was positive, but RHD genotyping and DNA sequencing showed no mutation indicating the normal genotype. CONCLUSION: Currently used methods in RHD genotyping are insufficient to identify many variant alleles, especially intronic variations. We suggest additional gene investigation including yet unexplored regions of regulation and intron regions to justify our serological finding.

RHD Genotyping of Rh-Negative and Weak D Phenotype among Blood Donors in Southeast Iran.

Background: The D antigen is a subset of Rh blood group antigens involved in the hemolytic disease of the newborn [HDFN] and hemolytic transfusion reaction [HTR]. The hybrid Rhesus box that was created after RH gene deletion, was known as a mechanism of the Rh-negative phenotype. Hybrid marker identification is used to confirm the deletion of the RHD gene and to determine zygosity. This study aims to detect this marker in Rh-negative and weak D phenotype blood donors of the southeast of Iran. Materials and Methods: The molecular analysis of the hybrid Rhesus box was performed on the 200 Rh-negative blood donors in Sistan and Baluchestan province, southeast Iran. The presence of alleles responsible for the D variants was assessed by DNA sequencing in 26 weak D phenotype donors. Results: Of the 200 Rh-negative blood samples, 198 samples were homozygous (99%), and two samples were heterozygous (1%). Heterozygous samples had RHD*01N.73 allele and the RHD*01N.18 allele. Of the 26 samples with weak D phenotype, 16 partial DLO (61%), 4 partial DBT1 (15.3%), 2 partial DV type 2 (7.7%), 1 weak D type 1, 1 weak D type 4.2.3, 1weak D type 105 and 1 RHD (S103P) (4%) were determined. Conclusion: Since RHD gene deletion is the main mechanism of the Rh-negativity in Sistan and Baluchestan provinces, a hybrid Rhesus box marker can be used in resolving RhD typing discrepancies by RHD genotyping methods.

D variants in the population of D-negative blood donors in the north-eastern region of Croatia.

OBJECTIVES: The aim of this study was to determine RHESUS D GENE (RHD) allelic variants among Croatian D-negative blood donors and compare our results with respective data from other European countries. BACKGROUND: Altered or reduced D antigen expression can result in D variants, which can be mistyped and can lead to the alloimmunisation of the blood recipient. RHD genotyping can distinguish D variants: weak D, partial D and DEL, thus preventing alloimmunisation. MATERIAL/METHODS: A total of 6523 samples obtained from D-negative Croatian donors were screened for the presence of RHD using the real-time polymerase chain reaction (PCR) method. PCR-SSP was performed for D variant genotyping by using commercial genotyping kits (Inno-Train, Kronberg, Germany). Genomic DNA sequencing for all 10 exons of the RHD was performed when the genotyping kits failed to assign a D variant. RESULTS: RHD molecular screening revealed 23 (0.35%) RHD-PCR positive samples, all C/E positive, in decreasing frequency: 11 hybrid RHD-CE (2-9) D-CE variants, 4 weak partial D type 11 and 2 weak D type 2. Six samples remained unresolved and were sequenced. For 12 of 23 samples (excluding large hybrids), an adsorption/elution of anti-D serum was performed, confirming that all 12 were RhD+. The calculated frequency of clinically significant D alleles in RhD-negative blood donors was 1:543 (0.18%) or 1:53 (1.89%) in C/E blood donors. CONCLUSION: Data on the significant frequency of D variants among serologically D-negative blood donors in the north-eastern region of Croatia could help in introducing RHD molecular screening of blood donors in a routine workflow.

Epitope analysis and molecular study of weak D type 136: A case report / 中国输血杂志

【Objective】 To identify the blood group epitope of a D variant individual and analyze its molecular characteristics. 【Methods】 The saline test and indirect antiglobulin test (IAT) were used to identify the RhD serologically. The anti-human globulin gel card was used for direct antiglobulin test (DAT). RhD epitopes were detected using the epitope detection kit (D-Screen). RhCE antigens were typed using Rh typing Card. The RHD gene zygomorphism was further analyzed by PCR-RFLP. Ten exons of RHD gene were amplified by PCR and analyzed by direct sequencing. 【Results】 DAT test was negative, and the serological results showed weak expression of RhD, which was D variant. The RhD epitope test results showed that the red blood cells of this patient had a weak agglutination with 4 monoclonal anti-D against epD6.4, epD6.1, epD2.1, and epD5.4 (w+ to 2+ ), and reacted negatively with other epitope antibodies. RhCE antigen typing was Ccee; The RHD gene zygomorphism result was D+ /D-, the sequencing of RHD exons revealed that the first exon carried c. 41C>T (p.Pro14Leu) missense mutation, and its genotype was RHD*01W.136/01N.01. 【Conclusion】 This D variant is the first weak D type 136 reported in the Chinese population, and its phenotype is weak partial D.

Identification of two novel weak D alleles by sequence-based typing / 中国输血杂志

【Objective】 To study the molecular basis of D variant and explore the molecular genetic mechanism of novel weak D alleles. 【Methods】 Blood samples were screened for D variants by serological method. The nucleotide sequences of coding region were amplified by PCR and sequenced directly, and RHD gene heterozygosity was detected. 【Results】 Weak D phenotype was confirmed by serological test, and two novel alleles were detected by DNA sequencing. The first was novel weak D 1102A allele, 1102G>A mutation in exon 8, resulting in a 368Glu>Arg substitution in two samples. The second was novel weak D 399C allele, carried a 399G>C mutation in exon 3, which led to a 133Lys>Asn substitution. 【Conclusion】 In this study, D variants were detected by sequence-based typing, and two new alleles were identified.

Genetic polymorphism and antibody screening of RhD negative Chinese Han population in Jiayuguan / 中国输血杂志

【Objective】 To investigate and analyze the polymorphism of RHD gene in RhD-negative population in Jiayuguan using molecular biological technique, so as to accurately identify RhD-negative individuals, and formulate individualized transfusion strategies. 【Methods】 The RhD negative voluntary blood donors and patients (mainly pregnant women) were recruited. After informed consent, history of blood transfusion and pregnancy of them were investigated, and samples were collected for negative D confirmation, gene sequencing as well as antibody screening and identification. 【Results】 Among the 96 samples, 73 cases were RHD gene deletion, 18 RHD*01EL.01(17 RHD1227A homozygous type and 1 RHD1227A heterozygous type), 2 weak RHD*15 type (845G/A), 1 partial D type, i. e. RHD-CE(7) -D heterozygous allele, and 2 RHD*01N.16 variant. Antibody was detected out in 4 cases, among which 2 were positive for anti-D, 1 anti-D plus anti-E, and 1 anti-Dia. 【Conclusion】 The proportion of DEL gene in RhD negative Chinese Han population in Jiayuguan is slightly lower than that in general Chinese Han population. No anti-D or RHD-HDN was observed in DEL type women due to multiple pregnancy or delivery of D positive newborns.

Serologic strategy in detecting RHD altered alleles in Brazilian blood donors

ABSTRACT Background: We evaluated different technological approaches and anti-D clones to propose the most appropriate serologic strategy in detecting the largest numbers of D variants in blood donors. Methods: We selected 101 samples from Brazilian blood donors with different expressions of D in our donor routine. The tests were performed in immediate spin (IS) with eleven commercially available anti-D reagents in a tube and microplate. The D confirmatory tests for the presence of weak D included the indirect antiglobulin test (IAT) in a tube, gel and solid-phase red blood cell adherence (SPRCA). All DNA samples were extracted from peripheral blood and the D variants were classified using different molecular assays. Results: The RHD variants identified by molecular analysis included weak D types (1, 2, 3, 11 and 38) and partial Ds (DAR1.2, DAR1, DAR3.1, DAU0, DAU2, DAU4, DAU5, DAU6, DMH and DVII). The monoclonal-monoclonal blend RUM-1/MS26 was the best anti-D reagent used in detecting the D antigen in the IS phase in a tube, reacting with 83.2% of the D variants, while the anti-D blend D175 + 415 was the best monoclonal antibody (MoAb) used in a microplate to minimize the need for an IAT, reacting with 83.2% of the D variants. The D confirmatory tests using SPRCA showed a reactivity (3 - 4+) with 100% of the D variant samples tested. Conclusion: Our results show that, even using sensitive methods and MoAbs to ensure the accurate assignment of the D antigen, at least 17% of our donor samples need a confirmatory D test in order to avoid alloimmunization in D-negative patients.

Serologic strategy in detecting RHD altered alleles in Brazilian blood donors.

BACKGROUND: We evaluated different technological approaches and anti-D clones to propose the most appropriate serologic strategy in detecting the largest numbers of D variants in blood donors. METHODS: We selected 101 samples from Brazilian blood donors with different expressions of D in our donor routine. The tests were performed in immediate spin (IS) with eleven commercially available anti-D reagents in a tube and microplate. The D confirmatory tests for the presence of weak D included the indirect antiglobulin test (IAT) in a tube, gel and solid-phase red blood cell adherence (SPRCA). All DNA samples were extracted from peripheral blood and the D variants were classified using different molecular assays. RESULTS: The RHD variants identified by molecular analysis included weak D types (1, 2, 3, 11 and 38) and partial Ds (DAR1.2, DAR1, DAR3.1, DAU0, DAU2, DAU4, DAU5, DAU6, DMH and DVII). The monoclonal-monoclonal blend RUM-1/MS26 was the best anti-D reagent used in detecting the D antigen in the IS phase in a tube, reacting with 83.2% of the D variants, while the anti-D blend D175 + 415 was the best monoclonal antibody (MoAb) used in a microplate to minimize the need for an IAT, reacting with 83.2% of the D variants. The D confirmatory tests using SPRCA showed a reactivity (3 - 4+) with 100% of the D variant samples tested. CONCLUSION: Our results show that, even using sensitive methods and MoAbs to ensure the accurate assignment of the D antigen, at least 17% of our donor samples need a confirmatory D test in order to avoid alloimmunization in D-negative patients.

Identification and functional analysis of a novel G310D variant in the insulin-like growth factor 1 receptor (IGF1R) gene associated with type 2 diabetes in American Indians.

AIMS: Insulin-like growth factor 1 receptor (IGF1R) is involved in cell growth and glucose homeostasis. In the current study, the IGF1R locus was analysed as a candidate gene for type 2 diabetes (T2D) in American Indians. MATERIALS AND METHODS: Whole genome sequence data from 335 American Indians identified 3 novel missense variants in IGF1R. The associations of IGF1R variants with T2D, age of T2D onset and birth weight were analysed in a population-based sample of 7701 American Indians. RESULTS: A novel glycine-to-aspartic acid substitution (G310D) in IGF1R was identified, which associated with T2D in a sex-specific manner (Psex interaction = 0.02). In women, the aspartic acid (D) allele (frequency = 0.034) was associated with increased risk for T2D (n = 4292, P = 2.0 × 10-5 adjusted for age, birth year, and the first 5 genetic principal components; odds ratio [OR] = 2.23 [1.54-3.23] per risk allele) and an earlier age of T2D onset (n = 4292, P = 2 × 10-4 , hazard rate ratio = 1.45 [1.20-1.75], Psex interaction = 0.05). Female carriers of the D-allele also had lower birth weight (n = 1313, ß = -163 g, P = .006, Psex interaction = 0.008). Among 85 siblings discordant for G310D, carriers of the D-allele had shorter stature as compared with carriers of the G-allele (ß = -1.6 cm, P = .001, within family model). The G310D variant was functionally studied in vitro, where the D-allele had a 22% increase (P = .0005) in FOXO1-induced transcriptional activity, due to decreased activation of the PI3K/AKT pathway mediated through reduced IGF1R activity. CONCLUSION: A unique G310D variant in IGF1R, which occurs in 6% American Indians, may impair IGF1R signalling pathways, thereby increasing the risk of T2D.

A case study of severe hemolytic disease with the newborn caused by DⅣb type of RhD variant / 中华微生物学和免疫学杂志

Objective To study a case of severe hemolytic disease with the newborn induced by DⅣb type of RhD variant and to investigate its molecular mechanism .Methods Indirect Coombs test was performed to identify RhD blood type and detect antibodies against red blood cells (RBCs).RHD genes were analyzed by polymerase chain reaction-sequence specific primers (PCR-SSP) analysis.All of the 10 exons of RHD gene were sequenced .The Rhesus boxes were further analyzed to identify the homozygosis of RHD genes.Results The mother of the newborn was RhD positive carrying anti-D antibody.PCR-SSP analysis indicated that the RHD exons 7-9 were missing, although the sequences of other RHD exons were consistent with standard sequences .RHD zygosity test showed that the mother was RHD+/RHD-.The newborn was RhD positive with anti-D antibody in serum .The result of the direct antiglobulin test was also positive .The sequence of the RHD exons 1-10 of the newborn were identical with standard sequences .The genotype of the newborn was identified as RHD+/RHD+homozygote .Conclusion The mother bears a DⅣb genotype lac-king RHD exons 7-9 which is significantly different from the newborn .The anti-D antibodies in the mother might induce the severe hemolytic disease in the newborn .