Naturally occurring interference in Luminex assays for HLA-specific antibodies: characteristics and resolution

The utility of comprehensive assessment of donor specific anti-HLA antibodies in the clinical management of pediatric kidney transplant recipients

Advances in anti-HLA antibody characterization have had a major impact on kidney transplantation. Comprehensive characterization of DSA has improved protocols for allosensitized transplant candidates, increasing access to acceptable donors. Sensitive and specific solid phase antibody detection assays have given important insight into the clinical characteristics of antibody-mediated allograft injury, resulting in the development of a classification system for acute AMR. In addition, important insights into the nature of chronic antibody-mediated allograft rejection have been achieved as a result of improvements in DSA characterization. Finally, assays initially developed as tools to detect DSA in the clinical setting have been employed in innovative research protocols, allowing the investigation of new therapeutic approaches.

Clinical relevance and IgG subclass determination of non-HLA antibodies identified using endothelial cell precursors isolated from donor blood

BACKGROUND

ABO and human leukocyte antigen (HLA) alloantibodies provide major immunologic barriers to successful transplantation; however, there is increasing recognition for the role of anti-endothelial cell antibodies (AECAs) in allograft rejection. We investigated the relationship between AECAs identified using donor-derived endothelial cell precursors (ECPs) and kidney allograft rejection and function.

METHODS

Sixty live donor kidney recipients were tested pretransplant for AECAs and HLA-antibodies using flow cytometric crossmatch tests and solid-phase bead immunoassays. Renal allograft function was assessed by serum creatinine (SCr) values collected at early (mean, 50 days) and late (mean, 815 days) time points posttransplant and by incidence and type of rejection. Immunoglobulin G (IgG) subtype determination of both AECAs and HLA antibodies bound to ECPs was performed using flow cytometry.

RESULTS

Fourteen patients (23%) tested positive for donor-reactive IgG AECAs and had statistically higher SCr values and incidences of cellular rejection early posttransplant compared with 46 patients who tested negative (P=0.014 and P<0.05). SCr values were not statistically different late posttransplant. IgG subclass determination showed AECAs to be enriched for IgG2 and IgG4, subclasses that do not activate complement effectively. Detection of donor-reactive immunoglobulin M (IgM) AECAs did not correlate with increased SCr or incidence of rejection.

CONCLUSION

Crossmatch tests performed using donor-derived ECPs allow for the identification of alloantibodies that are associated with cellular rejection and are distinct from alloantibodies detected using lymphocytes.

Development of simultaneous detection of total prostate-specific antigen (tPSA) and free PSA with rapid bead-based immunoassay

OBJECTIVE

Prostate-specific antigen (PSA) is the most important biochemical tumor marker for the early detection of prostate cancer; however, its diagnostic specificity is low. Therefore, free PSA (fPSA) test is recommended as an adjunct to increase the specificity. However, all the current technology only allows detecting one biomarker at one time. In this study, we reported a flexible bead-based immunoassay to measure total PSA (tPSA) and fPSA simultaneously.

MATERIALS AND METHODS

We used the Luminex xMAP bead array technology to measure tPSA and fPSA at one time, employing two mouse monoclonal anti-PSA antibodies (5G6 and 8A6) for coating and another mouse monoclonal anti-PSA antibody (5A6) for detection. Then we compared the data of Luminex assay with that of the conventional enzyme-linked immunosorbent assay (ELISA).

RESULTS

The assay was fast with a wide dynamic range. The lower detection limit for tPSA and fPSA were 2.3 and 1.3  pg/ml. The inter-assay coefficients for tPSA and fPSA were between 5.64 and 7.65%, and the intra-assay coefficients for tPSA and fPSA were between 4.15 and 5.89%. A close correlation between the new assay and the conventional ELISA was observed.

CONCLUSIONS

The bead-based platform is rapid, sensitive, and less expensive, which allows both single sample and high-throughput measurement of tPSA and fPSA over a wide range of concentrations.

Characterization of an antibody specific for HLA-A36 and not reactive with HLA-A1

Humoral sensitization to HLA often results in antibodies to public determinants shared among two or more antigens. Although monoclonal antibodies to A36 have been produced, there are no reports of polyclonal antibodies that react with A36 but not A1. We report here sera from a heart transplant recipient that reacted with A36 but not A1 in tests with both phenotype and single antigen panels on the Luminex platform. Flow cytometric crossmatch tests yielded positive results with an A36 bearing phenotype but not with a phenotype containing A1. A36 reactivity in solid phase assays was abrogated by absorption with cells bearing A36, but not with A1-positive cells. The frequency of B cells in this patient specific for A1 was comparable to that for individuals not sensitized to A1. These data indicate that reactivity was to an epitope present on A36 but absent from A1.

Solid phase HLA antibody detection technology--challenges in interpretation

The introduction into routine diagnostic laboratories of solid phase assays for human leukocyte antigen (HLA) antibody detection has resulted in the application of new laboratory matching algorithms in clinical organ transplantation which have improved pre-transplant detection of immunization, in turn resulting in avoidance of rejection in many cases which until their introduction would not have been possible using the historical complement dependent serological techniques. There have been two generations of solid phase assays introduced into routine practice, namely, the enzyme-linked immunosorbent assay (ELISA) technique and the use of fluorescent beads with HLA molecules bound to their surface which can either be used in conventional flow cytometry or in conjunction with Luminex instrumentation, the latter having become the most popular approach. The use of the fluorescent bead techniques has raised interesting questions both with respect to technical performance and the interpretation of the results obtained. The advantages of bead technology for HLA antibody determination and the technical issues requiring resolution are the subject of this review.

Utility of the virtual crossmatch in solid organ transplantation

PURPOSE OF REVIEW

Solid-phase assays covered with single HLA molecules - such as single-antigen flow-beads (SAFBs) - allow determining the presence of donor-specific HLA antibodies (HLA-DSAs) 'virtually' by comparison of the HLA-antibody specificities of the recipient with the HLA typing of the donor. In this review, prospects and current limitation of the virtual crossmatch are discussed.

RECENT FINDINGS

Several prospective and retrospective studies indicate that a negative virtual crossmatch is associated with a very low risk of early rejection and good long-term allograft survival. By contrast, a positive virtual crossmatch is associated with a significant risk for early rejection and decreased allograft survival. However, these studies revealed that not all HLA-DSAs detected by SAFB have a detrimental clinical impact.

SUMMARY

The virtual crossmatch has emerged as a very useful tool for pretransplant risk assessment and organ allocation. Further advances of the virtual crossmatch approach will require improvements on the technical part of SAFB analysis and a better understanding and definition of pathogenic factors of HLA-DSA. Together with an extended HLA typing of the donor, this scenario will provide us the full benefits of applications based on virtual crossmatching.

Clinical significance of anti-HLA antibodies detected by Luminex: enhancing the interpretation of CDC-BXM and important post-transplantation monitoring tools

B-cell crossmatch (BXM) was originally introduced to increase the sensitivity to detect anti-HLA antibodies of conventional CDC crossmatch in renal transplantation. Newer techniques such as Luminex((R)) have greater sensitivity in detecting anti-HLA antibodies but have not been directly evaluated versus BXM. We discuss our experience with Luminex testing and the significance of donor-specific antibodies (DSA) defined by Luminex in three populations, as compared with the CDC crossmatch. In the general transplant population, Luminex-defined DSA were found in only one third of positive CDC-BXM and were associated with graft rejection. Luminex testing enhanced the interpretation of CDC-BXM and identified patients with clinically relevant BXM. In the highly sensitized transplant population, Luminex-defined DSA were found in two thirds of positive BXM and were a better predictor of graft rejection. Therefore, Luminex assays rather than CDC-BXM should be used to facilitate kidney allocation in highly sensitized patients. In the post-transplantation population, Luminex antibody monitoring for DSA was shown to be important, as it defined low-level de novo DSA that were associated with development of transplant glomerulopathy and a significant predictor of graft loss in those patients. Thus Luminex testing facilitated the interpretation of CDC-BXM and provided a useful predictive tool for the detection of clinically significant DSA in post-transplantation antibody monitoring.