GM-CSF/IL-3/IL-5 receptor common beta chain (CD131) expression as a biomarker of antigen-stimulated CD8+ T cells

Background

Upon Ag-activation cytotoxic T cells (CTLs) produce IFN-γ GM-CSF and TNF-α, which deliver simultaneously pro-apoptotic and pro-inflammatory signals to the surrounding microenvironment. Whether this secretion affects in an autocrine loop the CTLs themselves is unknown.

Methods

Here, we compared the transcriptional profile of Ag-activated, Flu-specific CTL stimulated with the FLU M1:58-66 peptide to that of convivial CTLs expanded in vitro in the same culture. PBMCs from 6 HLA-A*0201 expressing donors were expanded for 7 days in culture following Flu M1:58-66 stimulation in the presence of 300 IU/ml of interleukin-2 and than sorted by high speed sorting to high purity CD8+ expressing T cells gated according to FluM1:58-66 tetrameric human leukocyte antigen complexes expression.

Results

Ag-activated CTLs displayed higher levels of IFN-γ, GM-CSF (CSF2) and GM-CSF/IL-3/IL-5 receptor common β- chain (CD131) but lacked completely expression of IFN-γ receptor-II and IFN-stimulated genes (ISGs). This observation suggested that Ag-activated CTLs in preparation for the release of IFN-γ and GM-CSF shield themselves from the potentially apoptotic effects of the former entrusting their survival to GM-SCF. In vitro phenotyping confirmed the selective surface expression of CD131 by Ag-activated CTLs and their increased proliferation upon exogenous administration of GM-CSF.

Conclusion

The selective responsiveness of Ag-activated CTLs to GM-CSF may provide an alternative explanation to the usefulness of this chemokine as an adjuvant for T cell aimed vaccines. Moreover, the selective expression of CD131 by Ag-activated CTLs proposes CD131 as a novel biomarker of Ag-dependent CTL activation.

Another example of a KEL1 variant red cell phenotype due to a threonine to serine change at position 193 of Kell glycoprotein

BACKGROUND

Healthy subjects whose red blood cells (RBCs) react variably with anti-KEL1, but strongly express other Kell blood group antigens, have been described and called KEL1 variant. A 53-year-old Caucasian blood donor was identified whose RBCs reacted with three monoclonal and two polyclonal anti-KEL1 and did not react with two monoclonal and one polyclonal anti-KEL1. The molecular basis of this phenotype was investigated.

STUDY DESIGN AND METHODS

Genomic white blood cell DNA was analyzed for KEL*1/2 genotype by utilizing sequence-specific primers and polymerase chain reaction. In addition, the region of the KEL*1/2 polymorphism at position 578 of KEL was analyzed by DNA sequencing.

RESULTS

Genotyping of the donor with the KEL1 variant phenotype revealed that he was KEL*2 homozygous. Sequencing revealed one typical KEL*2 allele and a KEL*2 allele with an adenosine (A) to thymidine (T) substitution at position 577 that predicted a threonine to serine change at position 193.

CONCLUSION

It is not known if this phenotype is clinically relevant, but for at least some genotyping applications probes that identify this polymorphism should be used and anti-KEL1 should be tested for reactivity to this allele.

Rapid, single-subject genotyping to predict red blood cell antigen expression

Genotyping is useful to predict the expression of those RBC antigens for which antisera are difficult to obtain and to determine the probable phenotype of highly transfused patients, and it can be used to test stored DNA when a blood sample is not available. This study assessed a sequence-specific primer (SSP)-based genotyping system for blood group alleles suitable for the rapid testing of a small number of samples and assessed the use of stored whole blood. Genomic DNA was isolated from fresh and 1- and 2-week-old stored blood from 20 donors with known ABO and Rh phenotypes and was used for ABO, RHD, and RHCE genotyping using SSPs. The amplicons were analyzed using gel electrophoresis and a novel microfluidic on-chip electrophoresis system. Analysis of DNA from fresh and 1- and 2-week-old blood by SSP and gel electrophoresis yielded the correct ABO, RHD, and RHCE type in all samples, but with DNA from 2-week-old stored blood the amplicons were more difficult to visualize. Analysis of the same samples with the SSP on-chip electrophoresis assay correctly typed all samples except for one RHCE typing discrepancy of a fresh sample and one RHCE typing discrepancy of a 2-week-old sample. Analysis of amplicons by on-chip electrophoresis required one tenth the DNA that gel electrophoresis did and could be completed within 30 minutes compared with 2 hours with gel electrophoresis. Amplicons were also more readily visualized with on-chip electrophoresis. Fresh and 1- and 2-week-old samples could be ABO and RH genotyped with SSP. Analysis using on-chip electrophoresis was easier and more rapid than that using gel electrophoresis, but test reliability was slightly more variable.

CMV pp65 and IE-1 T cell epitopes recognized by healthy subjects

Background

Adoptive immune and vaccine therapies have been used to prevent cytomegalovirus (CMV) disease in recipients of hematopoietic progenitor cell transplants, but the nature of T cell responses to CMV have not been completely characterized.

Methods

Peptide pools and individual peptides derived from the immune-dominant CMV proteins pp65 and IE-1 and antigen-specific, cytokine flow cytometry were used to characterize the prevalence and frequency of CD4+ and CD8+ memory T cells in 20 healthy CMV-seropositive subjects.

Results

CD8+ T cell responses to pp65 were detected in 35% of subjects and to IE-1 in 40% of subjects. CD4+ T cell responses to pp65 were detected in 50% of subjects, but none were detected to IE-1. Several new IE-1 HLA class I epitopes were identified, including 4 restricted to HLA-C antigens. One region of IE-1 spanning amino acids 300 to 327 was rich in class I epitopes. The HLA class I restrictions of IE-1 peptides were more promiscuous than those of pp65 peptides.

Conclusion

Since naturally occurring CD4+ and CD8+ T cell responses to pp65 were detectable in many subjects, but only CD8+ T cell responses to IE-1 were detected, pp65 may be better than IE-1 for use in vaccine and adoptive immune therapies.