Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0002895 (
sickle cell disease
)
11,747
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Polymorphism encountered within the immunogenic blood group antigens is responsible for allo-immunization after transfusion or pregnancy. Antigen frequency differs depending on the ethnic background. This is the case for the Afro-caribbean population. Three levels of differences can be identified: common antigens in the RH, FY, JK and
MNS
blood groups, high frequency antigens in the RH, KEL, FY and
MNS
blood groups and low frequency antigens in the RH and KEL blood groups. When donors are primarily European caucasian in ancestry, the ethnic polymorphism may affect donor service in term of supply and demand. The effects of differences in antigen frequency are especially important when long term transfusion support is needed such as in
sickle cell disease
. When a Black patient is immunized against an association of common antigens for the Caucasian population (ex: anti-RH2, anti-FY1, anti-JK2, anti-MNS3) or against a high frequency antigen always present in the Caucasian population (anti-MNS5), only rare blood from the same ethnic population kept frozen at the rare blood bank can be transfused to avoid immuno-haemolytic accidents.
...
PMID:[Immunohematologic characteristics in the Afro-caribbean population. Consequences for transfusion safety]. 1279 55
Antigens of 23 of the 30 human blood group systems are defined by the amino acid sequence of red cell membrane proteins. The antigens of DI, RH, RHAG,
MNS
, GE and CO systems are carried on blood group-active proteins (Band 3, D and CE polypeptides, RhAG, Glycophorins A and B, Glycophorins C and D and Aquaporin 1, respectively) which are expressed at high levels (>200,000 copies/red cell). These major proteins contribute to essential red cell functions either directly as membrane transporters and by providing linkage to the underlying red cell skeleton or by facilitating the membrane assembly of the protein complexes involved in these processes. The proteins expressing antigens of the remaining 17 blood group systems are much less abundant (<20,000 copies/red cell) and their functional importance for the circulating red cell is largely unknown. Human gene knock-outs (null phenotypes) have been described for many of these minor blood group-active proteins, but only absence of Kx glycoprotein has been clearly linked with pathology directly related to the function of circulating red cells. Recent evidence suggesting the normal quality control system for glycoprotein synthesis is altered during the latter stages of red cell production raises the possibility that many of these low abundance blood group-active proteins are vestigial. In
sickle cell disease
and polycythaemia vera, elevated Lutheran glycoprotein expression may contribute to pathology. Dyserythropoiesis with reduced antigen expression can result from mutations in the erythroid transcription factors GATA-1 and EKLF.
...
PMID:The functional importance of blood group-active molecules in human red blood cells. 2117 64
The clinical importance of blood group antigens relates to their ability to evoke immune antibodies that are capable of causing hemolysis. The most important antigens for safe transfusion are ABO and D (Rh), and typing for these antigens is routinely performed for patients awaiting transfusion, prenatal patients, and blood donors. Typing for other blood group antigens, typically of the Kell, Duffy, Kidd, and
MNS
blood groups, is sometimes necessary, for patients who have, or are likely to develop antibodies to these antigens. The most commonly used typing method is serological typing, based on hemagglutination reactions against specific antisera. This method is generally reliable and practical for routine use, but it has certain drawbacks. In recent years, molecular typing has emerged as an alternative or supplemental typing method. It is based on detecting the polymorphisms and mutations that control the expression of blood group antigens, and using this information to predict the probable antigen type. Molecular typing methods are useful when traditional serological typing methods cannot be used, as when a patient has been transfused and the sample is contaminated with red blood cells from the transfused blood component. Moreover, molecular typing methods can precisely identify clinically significant variant antigens that cannot be distinguished by serological typing; this capability has been exploited for the resolution of typing discrepancies and shows promise for the improved transfusion management of patients with
sickle cell anemia
. Despite its advantages, molecular typing has certain limitations, and it should be used in conjunction with serological methods.
...
PMID:Advances in Blood Typing. 2771 18
The development of red blood cell (RBC) alloantibodies and autoantibodies complicates transfusion therapy in
sickle cell disease
(
SCD
) patients. In an effort to reduce the risk of alloimmunization, some strategies have been used to provide antigen-matched RBC transfusions to patients with
SCD
in Brazil, including molecular matching in 3 levels: RH and K matching; extended matching (RH, KEL, FY, JK,
MNS
, DI), and extended matching including
RHD
and
RHCE
variant alleles. Molecular matching has shown clinical benefits to the patients with
SCD
, contributing significantly to reduce the rates of alloimmunization. Improvements in the clinical outcomes of the patients have also been observed as shown by an increase in their hemoglobin levels and reduction in their percentage of hemoglobin S as well as better in vivo RBC survival and diminished frequency of transfusions. However, prevention of RBC alloimmunization still remains a challenge in Brazil due to the difficulty to fulfill all transfusion requests of the patients with antigen-matching units, inaccuracy of RBC phenotyping, RBC transfusions outside the institution where the patient is treated, advanced age of some patients, the RBC antigen discrepancy between donors and recipients, and the presence of
RH
variants.
...
PMID:Optimized Antigen-Matched in Sickle Cell Disease Patients: Chances and Challenges in Molecular Times - the Brazilian Way. 3028 75
This review presents the French strategy for blood group genotyping in high-responder and newly diagnosed
sickle cell disease
(
SCD
) patients. In addition to
FY
,
JK
, and
MNS
genotyping, the RH blood group system is now explored in
SCD
patients in France. Molecular typing has been used for the deduction of partial RH2 (C) antigens since 2010, and the gradual implementation of systematic
RHD
and
RHCE
genotyping nationwide was initiated in late 2014. In our laboratory, 962 RH:2 (C-positive)
SCD
patients have been tested since 2010, and 1,148
SCD
patients of all RH phenotypes have been genotyped for clinically relevant alleles of
RHD
and
RHCE
since late 2014.
...
PMID:Genotyping in Sickle Cell Disease Patients: The French Strategy. 3028 76
