Characterization of RHD alleles present in serologically RHD-negative donors determined by a sensitive microplate technique.

Background And Objectives: Weak D phenotypes with very low antigen densities and DEL phenotype may not be detected in RhD typing routine and could be typed as D-negative, leading to D alloimmunization of D-negative recipients. The present study aimed to investigate the presence of RHD-positive genotypes in blood donors typed as D-negative by an automated system using the solid-phase methodology as a confirmatory test.

Methods: Two screenings were performed in different selected donor populations.

SMIM1 polymorphisms in a donor population from southeast Brazil and their correlation with VEL expression.

Background: Vel is a high frequency blood group antigen and its alloantibody is involved in haemolytic transfusion reactions. After elucidation of the molecular basis of the Vel-negative phenotype defined by a 17-base pair deletion in SMIM1, genotyping has been the technique of choice to identify the Vel-negative phenotype, and molecular investigations have contributed to explain Vel expression variability. The present study was aimed at screening for Vel negative blood donors and characterising the genetic changes found in Brazilian donors with altered Vel expression.

Frequency of Wr(a) antigen and anti-Wr(a) in Brazilian blood donors.

Background: Wr(a) is a low-incidence antigen, which is antithetical to the high prevalence red blood cell antigen, Wr(b). Anti-Wr(a) is a naturally occurring antibody that is found in approximately 1-2% of blood donors. The aim of this study was to determine the frequency of Wr(a) and anti-Wr(a) in Brazilian blood donors.

A new strategy to identify rare blood donors: single polymerase chain reaction multiplex SNaPshot reaction for detection of 16 blood group alleles.

Background: As an alternative to phenotyping, large-scale DNA-based assays, which are feasible for high-throughput donor red blood cell typing, were developed for determination of blood group polymorphisms. However, high-throughput genotyping platforms based on these technologies are still expensive and the inclusion of single nucleotide polymorphisms and analysis of the alleles depend on the manufacturer's determination. To overcome this limitation and in order to develop an assay to enable the screening of rare donors, we developed a SNaPshot assay for analysis of nine single nucleotide polymorphisms related to antigens that are difficult to assess using conventional serology.

DARC (Duffy) and BCAM (Lutheran) reduced expression in thyroid cancer.

Duffy or DARC (Duffy Antigen Receptor for Chemokines) is a glycosylated membrane protein that selectively binds angiogenic chemokines. Previous in vivo and in vitro studies of DARC function in cancer have associated DARC over expression with better prognosis, decreased metastatic potential, and inhibition of tumor-associated neovascularization. Another carcinogenesis-associated antigen is Lutheran or BCAM (basal cell adhesion molecule), a surface glycoprotein that acts as a receptor for the extracellular matrix protein, laminin.