Cutting through the weeds: Evaluation of a novel adsorption with crossmatch cells and elution protocol to sharpen HLA antibody identification by the single antigen bead assay

Robert S Liwski; Sandra Tafulo; Robert Carroll; James H Lan; Anna L Greenshields

doi:10.3389/fgene.2022.1059650

Cutting through the weeds: Evaluation of a novel adsorption with crossmatch cells and elution protocol to sharpen HLA antibody identification by the single antigen bead assay

Front Genet. 2022 Nov 30:13:1059650. doi: 10.3389/fgene.2022.1059650. eCollection 2022.

Authors

Robert S Liwski¹, Sandra Tafulo², Robert Carroll^{3

4}, James H Lan⁵, Anna L Greenshields¹

Affiliations

¹ Department of Pathology and Laboratory Medicine, Dalhousie University, Halifax, NS, Canada.
² Blood and Transplantation Center of Porto, Portuguese Institute for Blood and Transplantation, Porto, Portugal.
³ Health and Medical Sciences, University of South Australia, Adelaide, SA, Australia.
⁴ Transplantation and Immunogenetics Service, Australian Red Cross Blood Services, Adelaide, SA, Australia.
⁵ Department of Pathology and Laboratory Medicine, University of British Columbia, Vancouver, BC, Canada.

Abstract

The single antigen bead (SAB) assay is the most used test for the identification of HLA specific antibodies pre- and post-transplant. Nevertheless, detection of spurious reactivities remains a recognized assay limitation. In addition, the presence of weak reactivity patterns can complicate unacceptable antigen assignment. This work presents the evaluation of the adsorption with crossmatch cells and elution (AXE) technique, which was designed to help differentiate weak HLA specific antibodies targeting native antigens from spurious and background SAB assay reactivity. The AXE protocol uses selected donor cells to adsorb HLA specific antibodies from sera of interest. Bound antibodies are then eluted off washed cells and identified using the SAB assay. Only antibodies targeting native HLA are adsorbed. Assay evaluation was performed using five cell donors and pooled positive control serum. AXE efficiency was determined by comparing SAB reactivity of adsorbed/eluted antibody to that of the antibodies in unadsorbed sera. A robust efficiency was seen across a wide range of original MFI for donor specific antibodies (DSA). A higher absorption/elution recovery was observed for HLA class I antigens vs. class II. Locus-specific variation was also observed, with high-expression HLA loci (HLA-A/B/DR) providing the best recovery. Importantly, negligible reactivity was detected in the last wash control, confirming that AXE eluates were not contaminated with HLA antibody carry-over. Donor cells incubated with autologous and DSA-containing allogeneic sera showed that AXE selectively adsorbed HLA antibodies in a donor antigen-specific manner. Importantly, antibodies targeting denatured epitopes or other non-HLA antigens were not detected by AXE. AXE was particularly effective at distinguishing weak HLA antibodies from background reactivity. When combined with epitope analysis, AXE enhanced precise identification of antibody-targeted eplets and even facilitated the characterization of a potential novel eplet. Comparison of AXE to flow cytometric crossmatching further revealed that AXE was a more sensitive technique in the detection of weak DSA. Spurious reactivities on the current SAB assay have a deleterious impact on the assignment of clinically relevant HLA specificities. The AXE protocol is a novel test that enables users to interrogate reactive patterns of interest and discriminate HLA specific antibodies from spurious reactivity.

Keywords: HLA antibodies; adsorption; denatured antigens; elution; epitopes; flow cytometry crossmatch; single antigen bead assay; transplantation.