Kell expression on myeloid progenitor cells

Role of MiRNA in the Regulation of Blood Group Expression

Background

MicroRNAs (miRNAs) are small, endogenous non-coding RNA molecules that inhibit gene expression through either destabilization of the target mRNA or translational repression. MiRNAs recognize target sites, most commonly found in the 3'-untranslated regions of cognate mRNAs. This review aims to provide a state-of-the-art overview of the role of miRNAs in the regulation of major blood group antigens such as ABH as well as cancer-specific glycans.

Summary

Besides their known roles in the control of developmental processes, proliferation, apoptosis, and carcinogenesis, miRNAs have recently been identified to play a regulatory role during erythropoiesis and blood group antigen expression. Since only little is known about the function of the red cell membrane proteins carrying blood group antigens, it is of great interest to shed light on the regulatory mechanisms of blood group gene expression. Some carrier proteins of blood group antigens are not restricted to red blood cells and are widely expressed in other bodily fluids and tissues and quite a few play a crucial role in tumor cells, as either tumor suppressors or promoters.

Key Message

All available data point at a tremendous physiological as well as pathophysiological relevance of miRNAs in context of blood group regulation. Furthermore, miRNAs are involved in the regulation of pleiotropic genetic pathways such as hematopoiesis and tumorigenesis and thus have to be studied in future research on this subject.

Alloimmune hemolytic disease of the fetus and newborn: genetics, structure, and function of the commonly involved erythrocyte antigens

Hemolytic disease of the fetus and newborn (HDFN) can occur when a pregnant woman has antibody directed against an erythrocyte surface antigen expressed by her fetus. This alloimmune disorder is restricted to situations where transplacental transfer of maternal antibody to the fetus occurs, and binds to fetal erythrocytes, and significantly shortens the red cell lifespan. The pathogenesis of HDFN involves maternal sensitization to erythrocyte "non-self" antigens (those she does not express). Exposure of a woman to a non-self-erythrocyte antigen principally occurs through either a blood transfusion or a pregnancy where paternally derived erythrocyte antigens, expressed by her fetus, enter her circulation, and are immunologically recognized as foreign. This review focuses on the genetics, structure, and function of the erythrocyte antigens that are most frequently involved in the pathogenesis of alloimmune HDFN. By providing this information we aim to convey useful insights to clinicians caring for patients with this condition.

A high-density genome-wide association with absolute blood monocyte count in domestic sheep identifies novel loci

Monocytes are a core component of the immune system that arise from bone marrow and differentiate into cells responsible for phagocytosis and antigen presentation. Their derivatives are often responsible for the initiation of the adaptive immune response. Monocytes and macrophages are central in both controlling and propagating infectious diseases such as infection by Coxiella burnetii and small ruminant lentivirus in sheep. Genotypes from 513 Rambouillet, Polypay, and Columbia sheep (Ovis aries) were generated using the Ovine SNP50 BeadChip. Of these sheep, 222 animals were subsequently genotyped with the Ovine Infinium^® HD SNP BeadChip to increase SNP coverage. Data from the 222 HD genotyped sheep were combined with the data from an additional 258 unique sheep to form a 480-sheep reference panel; this panel was used to impute the low-density genotypes to the HD genotyping density. Then, a genome-wide association analysis was conducted to identify loci associated with absolute monocyte counts from blood. The analysis used a single-locus mixed linear model implementing EMMAX with age and ten principal components as fixed effects. Two genome-wide significant peaks (p < 5x10^-7) were identified on chromosomes 9 and 1, and ten genome-wide suggestive peaks (p < 1x10^-5) were identified on chromosomes 1, 2, 3, 4, 9, 10, 15, and 16. The identified loci were within or near genes including KCNK9, involved into cytokine production, LY6D, a member of a superfamily of genes, some of which subset monocyte lineages, and HMGN1, which encodes a chromatin regulator associated with myeloid cell differentiation. Further investigation of these loci is being conducted to understand their contributions to monocyte counts. Investigating the genetic basis of monocyte lineages and numbers may in turn provide information about pathogens of veterinary importance and elucidate fundamental immunology.

Frequencies of red blood cell major blood group antigens and phenotypes in the Chinese Han population from Mainland China

Alloantibodies directed to red blood cell (RBC) antigens play an important role in alloimmune-mediated haemolytic transfusion reactions and haemolytic disease of the foetus and newborn. The frequencies and phenotypes of RBC antigens are different in populations from different geographic areas and races. However, the data on major blood group antigens in the Chinese Han population from Mainland China are still very limited; thus, we aimed to investigate them in this study. A total of 1412 unrelated voluntary Chinese Han blood donors were randomly recruited. All donors were typed for blood group antigens: D, C, c, E, e, C(w) , Jk(a) , Jk(b) ,M, N, S, s, Le(a) , Le(b) , K, k. Kp(a) , Kp(b) , Fy(a) , Fy(b) , Lu(a) , Lu(b) , P1 and Di(a) using serological technology. Calculations of antigen and phenotype frequencies were expressed as percentages and for allele frequencies under the standard assumption of Hardy-Weinberg equilibrium. Amongst the Rh antigens, D was the most common (98.94%) followed by e (92.28%), C (88.81%), c (58.43%), E (50.78%) and C(w) (0.07%) with DCe/DCe (R1 R1 , 40.72%) being the most common phenotype. In the Kell blood group system, k was present in 100% of the donors and a rare phenotype, Kp (a+b+), was found in 0.28% of the donors. For the Kidd and Duffy blood group systems, Jk (a+b+) and Fy (a+b-) were the most common phenotypes (44.05% and 84.35%, respectively). In the MNS blood group system, M+N+S-s+ (45.54%) was the most common, whereas M+N-S-s- and M-N+S-s- were not found. The rare Lu (a-b-) and Lu (a+b+) phenotypes were identified in 0.43% and 1.13% of the donors, respectively. Le(a) and Le(b) were seen in 17.92% and 63.03% of donors, respectively. The frequency of Di(a) was 4.75%, which was higher than in the Chinese population in Taiwan region or the Caucasian and Black populations (P < 0.0001). This study systematically describes the frequencies of 24 blood group antigens in the Chinese Han population from Mainland China. The data can be helpful in creating a donor database for preparation of indigenous cell panels and providing antigen-negative blood to patients with multiple alloantibodies.

Blood grouping based on PCR methods and agarose gel electrophoresis

The study of erythrocyte antigens continues to be an intense field of research, particularly after the development of molecular testing methods. More than 300 specificities have been described by the International Society for Blood Transfusion as belonging to 33 blood group systems. The polymerase chain reaction (PCR) is a central tool for red blood cells (RBC) genotyping. PCR and agarose gel electrophoresis are low cost, easy, and versatile in vitro methods for amplifying defined target DNA (RBC polymorphic region). Multiplex-PCR, AS-PCR (Specific Allele Polymerase Chain Reaction), and RFLP-PCR (Restriction Fragment Length Polymorphism-Polymerase Chain Reaction) techniques are usually to identify RBC polymorphisms. Furthermore, it is an easy methodology to implement. This chapter describes the PCR methodology and agarose gel electrophoresis to identify the polymorphisms of the Kell, Duffy, Kidd, and MNS blood group systems.

Rh, Kell, Duffy, Kidd and Diego blood group system polymorphism in Brazilian Japanese descendants

Polymorphisms of Rh, Kell, Duffy, Kidd and Diego blood group systems were studied in 209 unrelated Brazilian Japanese descendants from South of Brazil. The methods used were multiplex-PCR, AS-PCR and RFLP-PCR. The differences in frequencies among the populations were evaluated using chi-square test. The frequencies for Rh, Kell, Kidd and Diego system were similar to those of the Japanese. RHCE(*)CC, RHCE(*)EE genotypes and FY(*)01 allele were lower and FY(*)01N.01 was higher than Japanese. These differences in the frequencies between Brazilian Japanese descendants and Japanese could indicate a gene flow in Brazilian population and reinforce the importance of this knowledge to achieve safe red blood cells.

[Kell immunization--a case report]

INTRODUCTION

The frequency of occurrence of RhD alloimmunization, due to preventive protocols, is decreased in our country, but more often there are other antigens that emerge as a cause of hemolytic disease of fetus. The most prominent is Kell antigen, which promotes specific course of disease based on an innate pathogenetic mechanism. Anti-Kell antibody production is, just as in other atypical antibodies, provoked with transfusion of incompatible blood. Except for the immune-mediated hemolysis, anti-Kell antibodies can also inhibit the function of progenitor (erytroid and megakariocyte) cell lines.

CASE REPORT

We present the case of G1P1 woman in whom a distinct fetal hydrops was sonographically detected in the 28th week of pregnancy. The results of immunological tests undoubtedly pointed to Kell immunization (anti-Kell antibody titer was more than 1:32), and antenatal tests for evaluation of fetal condition (Doppler ultrasound and CTG) clearly showed the severe form of hemolytic disease. We concluded that the fetus was in a hopeless, terminal stage of the disease, and then decided to terminate the pregnancy.

CONCLUSION

The only clinical approach to a problem of Kell alloimunization is active one. Early cordocentesis is recommended as the optimal method for evaluation of fetal condition. The clinical outcome of the fetus will strictly depend on a timely intrauterine transfusion (IUT) procedure. Prophylaxis emerges as a crucial factor in prevention of Kell-alloimmunization. It is to be considered that all females in childhood and throughout the reproductive period should take only K1-negative blood transfusion in order to decrease the incidence of Kell-alloimmunization.

The changing face of haemolytic disease of the newborn

The diagnosis, acute management and follow-up of neonates with haemolytic disease of the newborn (HDN) still represents a significant area of activity for maternity/neonatal services. ABO incompatability is now the single largest cause of HDN in the western world. However, with increasing knowledge at the molecular level, and closer liaison between neonatal paediatricians and haematologists, the diagnosis of non-immune causes of HDN is increasing. As these conditions have an inherited basis and therefore have implications for other family members (or future children), it remains a high priority for all neonatal paediatricians to achieve an accurate diagnosis in all cases of HDN. As the efficacy of phototherapy increases the role of exchange transfusion in acute management is rapidly decreasing. This makes gauging the appropriate time to intervene with exchange transfusion a difficult clinical decision, and guidelines appropriate to the spectrum of contemporary disease are required. In the future intravenous immunoglobulin and/or intramuscular metalloporphyrins may further reduce the need for exchange transfusion and continue to change the spectrum of HDN faced by neonatal paediatricians.

HLA-DRB1 polymorphism is associated with Kell immunisation

K immunisation is observed in some polytransfused patients and pregnant women but does not occur in all cases of K incompatibility. This study analysed the role of genetic background in this selective response to K antigen by investigating HLA-DRB1 alleles associated with K immunisation in a southern European population. HLA-DRB1 genotyping was performed by polymerase chain reaction sequence-specific oligonucleotide/sequence-specific primer procedures in 54 K immunised patients and 200 healthy controls. The frequency of HLA-DRB1*11 was significantly higher in K immunised patients than healthy controls: 31 of 54 (57%) vs. 56 of 200 (28%) (P(c) < 0.001). In the remaining K immunised HLA-DRB1*11-negative patients, the frequency of HLA-DRB1*13 was increased: 14 of 23 (61%) vs. 49 of 144 in healthy controls (34%) (P < 0.02). The combined frequency of the two HLA-DRB1 alleles (HLA-DRB1*11 and HLA-DRB1*13) was 83% in K immunised patients when compared with 52% in healthy controls (P(c) < 0.001). K and k differ by a single amino acid T193 (M). The DRB1*11 and DRB1*13 alleles share a HLA-DRB1 gene sequence containing S in position 13, D in 70 and A in 74, and coding for the P4 pocket within the HLA-DR binding groove. This feature of the HLA-DRB1 gene could be involved in the K peptide presentation through a polymorphism ligand specific for the T193 (M) of K. In conclusion, this study demonstrated a high frequency of HLA-DRB1*11 or HLA-DRB1*13 alleles in K immunised patients, which could be due to specific K peptide presentation by HLA-DR molecules.

Pancytopenia due to suppressed hematopoiesis in a case of fatal hemolytic disease of the newborn associated with anti-K supported by molecular K1 typing

The authors report on a fatal case of hemolytic disease of the newborn (HDN) due to anti-K antibodies with subsequent trilineage pancytopenia in a preterm infant of 28 weeks gestational age, with pronounced leukopenia and neutropenia. In addition, molecular typing of the Kk polymorphism was necessary to confirm HDN. This case of HDN associated with anti-K provides additional evidence that trilineage pancytopenia due to suppressed hematopoiesis is part of the disease. Therefore, antibodies against antigens of the Kell blood group system should be considered as a potential cause of unexplained inhibition of myelopoiesis.