Anti-HLA alloantibodies of the IgA isotype in re-transplant candidates part II: Correlation with graft survival.

We reported previously on the widespread occurrence of anti-HLA alloantibodies of the IgA isotype (anti-HLA IgA) in the sera of solid-organ re-transplantation (re-tx) candidates (Arnold et al., ). Specifically focussing on kidney re-tx patients, we now extended our earlier findings by examining the impact of the presence and donor specificity of anti-HLA IgA on graft survival. We observed frequent concurrence of anti-HLA IgA and anti-HLA IgG in 27% of our multicenter collective of 694 kidney re-tx patients. This subgroup displayed significantly reduced graft survival as evidenced by the median time to first dialysis after transplantation (TTD 77 months) compared to patients carrying either anti-HLA IgG or IgA (TTD 102 and 94 months, respectively). In addition, donor specificity of anti-HLA IgA had a significant negative impact on graft survival (TTD 74 months) in our study. Taken together, our data strongly indicate that presence of anti-HLA IgA, in particular in conjunction with anti-HLA-IgG, in sera of kidney re-tx patients is associated with negative transplantation outcome.

Determination of unacceptable HLA antigen mismatches in kidney transplant recipients: recommendations of the German Society for Immunogenetics.

One of the major tasks of histocompatibility and immunogenetics laboratories is the pretransplant determination of unacceptable antigen mismatches (UAM) in kidney transplant recipients. In this procedure, human leucocyte antigen (HLA) specificities are defined against which the patient has circulating alloantibodies that are expected to harm the transplanted organ. Using the information on UAM and the potential donor's complete HLA typing, prediction of the crossmatch result, the so called 'virtual crossmatch', is possible. Currently, the laboratories are using different algorithms for the determination of UAM, and depending on the algorithm, more or fewer organ offers are excluded for patients with a similar antibody profile. In order to bring homogeneity into the allocation of organs to immunized patients in Germany, the German Society for Immunogenetics established, on the basis of current knowledge, recommendations for the determination of UAM. The UAM recommendations, which are thought to serve as a common tool for responsible physicians at different transplant centers, contain technical issues that need to be considered and are individualized for sensitized patients with a high or intermediate risk of antibody-mediated rejection. The present review contains these recommendations and puts them into perspective to current international practice.

16(th) IHIW: anti-HLA alloantibodies of the of IgA isotype in re-transplant candidates.

In this multicentre study, sera from 803 retransplant candidates, including 775 kidney transplant recipients, were analysed with regard to the presence and specificity of anti-HLA alloantibodies of the IgA isotype using a modified microsphere-based platform. Of the kidney recipients, nearly one-third (n = 237, 31%) had IgA alloantibodies. Mostly, these antibodies were found in sera that also harboured IgG alloantibodies that could be found in a total of 572 (74%) of patients. Interestingly, IgA anti-HLA antibodies were preferentially targeting HLA class I antigens in contrast to those of the IgG isotype, which targeted mostly both HLA class I and II antigens. Donor specificity of the IgA alloantibodies could be established for over half of the 237 patients with IgA alloantibodies (n = 124, 52%). A further 58 patients had specificities against HLA-C or HLA-DP, for which no information regarding donor typing was available. In summary, these data showed in a large cohort of retransplant candidates that IgA alloantibodies occur in about one-third of patients, about half of these antibodies being donor specific.

Bioinformatic integration of biomechanics makes HLA sequencing universally applicable.

Sequencing provides the most reliable and accurate information of the sequence of a gene and is therefore of particular interest for fully characterizing the genetic complexity and allelic diversity of human leukocyte antigens (HLA) genes. This complexity makes sequencing the method of choice for HLA low- and high-resolution typing. However, sequencing is considered a complex process, which requires the management of an overwhelming amount of data. However, only sequencing can be used as a sole typing technique without the need of supplementation by other typing techniques; it offers additional advantages by providing results in electronic formats and by being fully automatable. This makes sequencing the best candidate for bioinformatic and biomechanic integration to maintain the benefits and discard the drawbacks. We have, therefore, developed robotic platforms and a bioinformatic tool allowing complete documentation, interpretation and processing of all amplification and sequencing steps as well as the full integration of all instruments involved. It was shown that this integrative approach allows sequencing to run fully automated for low- and high-resolution typing on each throughput level desired. This integration of robotics and software secures the traceability of each specimen at each step of the process and minimizes the risk of contamination and sample mix-up.

Sequence analysis of the new allele HLA-A*020112.

The novel allele HLA-A*020112 differs from HLA-A*020101 by a synonymous nucleotide exchange at position 53 in exon 2 (G-->A).