HLA-DPB1 mismatch at position 69 is associated with high helper T lymphocyte precursor frequencies in unrelated bone marrow transplant pairs

Impact of HLA-DPB1 Matching on Outcome of Unrelated Transplant for Hematologic Malignant Diseases: A Systematic Review and Meta-analysis

OBJECTIVE

Human leukocyte antigen match is the most important donor factor affecting transplant outcome. The HLA-DPB1 mismatch on the clinical outcome of hematopoietic stem cell transplant (HSCT) is less clear. This study is the first meta-analysis to investigate the impact of HLA-DPB1 loci mismatch on clinical outcome after unrelated donor HSCT for hematologic malignant disease.

METHODS

We electronically searched the PubMed, EMBASE, Cochrane Central Register of Controlled Trials, and a related database (January 1995-December 2018) for all relevant articles. Comparative studies were carried out to investigate the impact of HLA-DPB1 loci mismatch on clinical outcome after unrelated donor HSCT, that is, the disease-free survival, engraftment, graft-vs-host disease, relapse, and transplant-related mortality (TRM). We performed a meta-analysis using Review Manager 5.3.5 software and adopted funnel plot regression to assess the publication bias.

RESULTS

A total of 1570 articles were retrieved; 21 studies including 27,852 patients were assessed. Pooled comparisons of studies found that the HLA-DPB1-mismatched group had a lower rate of disease-free survival than the DPB1-matched group and lower overall survival in non-T cell-depleted transplant than the DPB1-matched group. The DPB1-mismatched group has higher incidence of acute graft-vs-host disease (aGVHD) and severe (≥ III degree) aGVHD, lower relapse rate, and higher TRM. Moreover, compared with 1-antigen mismatch, 2-antigen mismatch in DPB1 had a higher risk of TRM and a lower relapse rate, and the nonpermissive DPB1 mismatch had significantly higher rate of severe aGvHD and lower rate of disease relapse.

CONCLUSIONS

This analysis confirmed that HLA-DPB1 has important influence on survival and transplant-related complications during unrelated donor HSCT, and HLA-DPB1 donor selection strategies have been proposed based on personalized algorithm.

T-cell precursor frequencies and long-term outcome following unrelated hematopoietic stem cell transplantation

Functional assays measuring alloreactivity of donor cells are desired to detect either cryptic epitopes inducing graft-vs.-host disease (GvHD) after human leukocyte antigen (HLA)-identical hematopoietic stem cell transplantation (HSCT) or permissible HLA mismatches. However, their value in predicting GvHD and survival is still limited. We determined the cytotoxic and helper T-cell precursor (CTLp and HTLp) frequencies by limiting dilution analysis (LDA) in 40 unrelated recipient/donor combinations. The median observation period at the time of this writing was 4.44 years (range from 0.1 to 11.28). Better overall survival was observed in patients with rather low host-specific CTLp and HTLp frequencies, whereas a trend toward high CTLp frequencies was seen in patients with higher incidence of acute GvHD, especially in patients mismatched in HLA-C. CTLp and HTLp frequencies did not correlate with the incidence of chronic GvHD and relapse. In conclusion, we detected a trend toward better overall survival of patient/donor pairs with low CTLp and HTLp frequencies, however, recommend to use LDA as an additional tool for identifying the most suitable donor when more than one fully HLA-matched stem cell donor is available.

Detailed analysis of the effects of Glu/Lys beta69 human leukocyte antigen-DP polymorphism on peptide-binding specificity

The polymorphism at position beta69 of the human leukocyte antigen (HLA)-DP molecule has been associated with susceptibility to several immune disorders and alloreactivity. Using molecular modeling, we have predicted a detailed structure of the HLA-DP2 molecule (carrying Glubeta69) complexed with class II associated invariant chain derived peptide (CLIP) and compared it with the form carrying Lys at beta69 (HLA-DP2K69). Major changes between the two models were observed in the shape and charge distribution of pocket 4 and of the nearby pocket 6. Consequently, we analyzed in detail the peptide-binding specificities of both HLA-DP molecules expressed as recombinant proteins. We first determined that the minimum peptide-binding core of CLIP for both HLA-DP2 and DP2K69 is represented by nine aminoacids corresponding to the sequence 91-99 of invariant chain (Ii). We then assessed the peptide-binding specificities of the two pockets and determined the role of position beta69, using competition tests with the Ii-derived peptide CLIP and its mutated forms carrying all the aminoacidic substitutions in P4 and P6. Pocket 4 of HLA-DP2 showed high affinity for positively charged, aromatic, and polar residues, whereas aliphatic residues were disfavored. Pocket 4 of the DP2K69 variant showed a reduced aminoacid selectivity with aromatic residues most preferred. Pocket 6 of HLA-DP2 showed high affinity for aromatic residues, which was increased in DP2K69 and extended to arginine. Finally, we used the experimental data to determine the best molecular-modeling approach for assessing aminoacid selectivity of the two pockets. The results with best predictive value were obtained when single aminoacids were evaluated inside each single pocket, thus, reducing the influence of the overall peptide/ major histocompatibility complex interaction. In conclusion, the HLA-DPbeta69 polymorphism plays a fundamental role in the peptide-binding selectivity of HLA-DP. Furthermore, as this polymorphism is the main change in the pocket 4 area of HLA-DP, it could represent a supertype among HLA-DP molecules significantly contributing to the selection of epitopes presented in the context of this HLA isotype.

Molecular interaction and enzymatic activity of macrophage migration inhibitory factor with immunorelevant peptides

Disulfide reduction is an important step in antigen processing for HLA class II restricted T cell responses. Migration inhibitory factor (MIF) is a member of the thioredoxin family and has been classically defined as a cytokine. Using enzyme-linked immunosorbent assay and CD analysis, here we describe the binding to MIF of two peptides, hepatitis B surface antigen (HBsAg) and insulin B (InsB) with high affinity for HLA class II allo-types, HLA-DP2 and HLA-DQ8, respectively. At neutral pH, cysteinylated InsB was a substrate for MIF thiol reductase activity, as assessed by mass spectroscopy/electrospray analysis. Finally, a biologically active form of MIF co-immunopurified with mature forms of HLA DP2/15, and a peptide derived from the HLA-DP beta1 helix could be used for affinity purification of MIF. The possibility that MIF participates in class II antigen presentation and/or as a chaperone is discussed.

DPB1 disparities contribute to severe GVHD and reduced patient survival after unrelated donor bone marrow transplantation

In order to evaluate the impact of HLA-DBP1 incompatibilities on the occurrence of acute graft-versus-host disease (GVHD) in unrelated hematopoietic cell transplantation, we studied 57 donor/recipient pairs characterized by their allelic identity for HLA-A, B, C, DRB1 and DQB1 and also for DRB3, 4, 5 loci and aimed to correlate DPB1 mismatches to already described risk factors for GVHD using multivariate Cox regression analysis. DPB1 identity between donor and recipient was observed in 24% and DPB1 compatibility (GVHD vector) in 42%. Two factors were independently associated with severe acute GVHD: two DP incompatibilities (RR = 8.25, 95% confidence interval (CI): 1.67-40.10, P = 0.010) and disease risk (RR = 10.23, 95% CI: 1.12-93.13, P = 0.012). Two DPB1 incompatibilities appeared also to be a factor in poorer survival independent of its effect on acute GVHD (RR = 4.97, 95% Cl: 1.80-13.71, P = 0.002). A correlation between acute GVHD and matching for each individual DPB1 polymorphic region and for residue 69 of the DP beta molecule, which seems to be a key residue in the alloimmune response, was not observed. Our data indicate that the outcome of unrelated hematopoietic cell transplantation in terms of GVHD but also survival, could be improved through HLA-DPB1 matching or at least by avoiding two DPB1 mismatches.

Frequency of HLA-DPB1 disparities detected by reference strand-mediated conformation analysis in HLA-A, -B, and -DRB1 matched siblings

The role of HLA-DPB1 as transplantation antigen is controversial. The frequency and relevance of HLA-DPB1 mismatch in hematopoietic stem cell transplantation are unknown. To ascertain the rate of HLA-DBP1 mismatch in siblings that had been matched for HLA-A, -B, and -DRB1, reference strand mediated conformation analysis (RSCA) a high resolution HLA typing method was used. Locus-specific primers were used to amplify the HLA-DPB1 locus. The PCR product was then hybridized with two fluorescein-labeled references and the duplexes were analyzed after electrophoresis in a short polyacrylamide gel. Among the 113 pairs of individuals tested, six HLA-DPB1 mismatches were identified, which corresponds to a frequency of 5.31 % (95% confidence interval 3.20%-7.42 %).

The extent of HLA class II allele level disparity in unrelated bone marrow transplantation: analysis of 1259 National Marrow Donor Program donor-recipient pairs

A comprehensive analysis of the HLA-D region loci, DRB1, DRB3, DRB5, DQA1, DQB1, DPA1 and DPB1, was performed to determine allelic diversity and underlying HLA disparity in 1259 bone marrow recipients and their unrelated donors transplanted through the National Marrow Donor Program. Although 43.0% of DRB1 alleles known to exist at the beginning of the study were found in this predominantly Caucasian transplant population, a few alleles predominated at each locus. In recipients, 67.1% of DRB1 alleles identified were one or two of six common DRB1 alleles. Only 118 (9.4%) donor-recipient pairs were matched for all alleles of DRB1, DQA1, DQB1, DPA1 and DPB1. While 79.4% of the pairs were matched for DRB1, only 13.2% were matched for DPB1 alleles. Almost 66% of pairs differed by more than one allele mismatch and 59.0% differed at more than one HLA-D locus. DQB1 was matched in 85.9% of DRB1-matched pairs. In contrast, only 13.9% of the pairs matched for DRB1, DQA1 and DQB1 were also matched for DPA1 and DPB1. This database, highlighting the underlying HLA disparity within the pairs, forms the foundation of an ongoing study to establish the relationship between HLA matching and successful outcome in unrelated allogeneic stem cell transplant.

Differential Susceptibilities to Chronic Beryllium Disease Contributed by Different Glu69 HLA-DPB1 and -DPA1 Alleles

Chronic beryllium disease (CBD) is associated with the allelic substitution of a Glu69 in the HLA-DPB1 gene. Although up to 97% of CBD patients may have the Glu69 marker, about 30–45% of beryllium-exposed, unaffected individuals carry the same marker. Because CBD occurs in only 1–6% of exposed workers, the presence of Glu69 does not appear to be the sole genetic factor underlying the disease development. Using two rounds of direct automated DNA sequencing to precisely assign HLA-DPB1 haplotypes, we have discovered highly significant Glu69-containing allele frequency differences between the CBD patients and a beryllium-exposed, nondiseased control group. Individuals with DPB1 Glu69 in both alleles were almost exclusively found in the CBD group (6/20) vs the control group (1/75). Whereas most Glu69 carriers from the control group had a DPB1 allele *0201 (68%), most Glu69 carriers from the CBD group had a non-*0201 DPB1 Glu69-carrying allele (84%). The DPB1 allele *0201 was almost exclusively (29/30) associated with DPA1 *01 alleles, while the non-*0201 Glu69-containing DPB1 alleles were closely associated with DPA1 *02 alleles (26/29). Relatively rare Glu69-containing alleles *1701, *0901, and *1001 had extremely high frequencies in the CBD group (50%), as compared with the control group (6.7%). Therefore, the most common Glu69-containing DPB1 allele, *0201, does not seem to be a major disease allele. The results suggest that it is not the mere presence of Glu69, per se, but specific Glu69-containing alleles and their copy number (homozygous or heterozygous) that confer the greatest susceptibility to CBD in exposed individuals.

Matching for HLA DPA1 and DPB1 alleles in unrelated bone marrow transplantation

The impact of donor-recipient DPA1 and DPB1 matching was examined in 122 unrelated bone marrow transplant pairs. All pairs were serologically matched at the time of transplantation for HLA class I and II and a majority also DRB1 allele matched. Retrospective A, B, C, DRB1, DQA1, DQB1 in addition to DPA1 and DPB1 allele matching was performed by molecular techniques. The percentage of pairs that were allele matched was as follows; HLA-A = 91% (n = 80), HLA-B = 94% (n = 80), HLA-C = 78% (n = 80), HLA-DRB1 = 96% (n = 122), HLA-DQA1 = 99% (n = 80), HLA-DQB1 = 92% (n = 122). 92 recipient/donor pairs with informative clinical data were available for analysis. DPA1 identity (no incompatibility in either direction) was observed in 57% and DPA1 compatibility in 76% of pairs with no apparent beneficial effect of matching on patient survival or Graft Versus Host Disease (GVHD). DPB1 identity was observed in 11% and compatibility in 27% of pairs. A significant improvement in patient survival was observed in DPB1 matched compared to one DPB1 mismatch (p < 0.01) and combined one and two DPB1 mismatched transplants (p = 0.03). This beneficial effect remained when allele mismatches at HLA-A, B, C, DRB1, DQA1, DQB1 were excluded (p = 0.05, p = 0.03, respectively). There was a significant association of increased frequency of severe GVHD (grades III-IV) compared to mild GVHD (grades I-II) with DPB1 mismatched transplants compared to DPB1 matched transplants (p = 0.04). In DPB1 mismatched transplants an association between patient survival and matching for individual DPB1 polymorphic regions was not observed; however in the HLA-A, B, DRB1, DQA1, DQB1 allele matched transplants a non significant increase in the frequency of Grade IV GVHD was observed in recipients who were negative compared to those who were positive for DPB1 alleles coding for glutamic acid at position 69.

Cellular alloreactivity of human cord blood cells detected by T-cell frequency analysis and a human skin explant model

BACKGROUND

Recent clinical data have demonstrated the success of allogeneic stem cell transplantation using HLA-mismatched unrelated human umbilical cord blood (CB). The incidence and severity of acute graft-versus-host disease (GVHD) in these mainly pediatric transplants is low. The immunological mechanisms by which CB transplants may result in reduced GVHD is not completely clear. In this study, the functional cellular alloreactivity of CB cells was investigated, by measuring the frequency of alloreactive helper and cytotoxic T lymphocyte precursors (HTLp and CTLp, respectively) in CB and detecting the ability of CB cells to induce graft-versus-host (GVH) type alloreactivity in vitro.

METHODS

A human skin explant model was used to measure GVH type alloreactivity in vitro. A combined limiting dilution assay was carried out in parallel to determine alloreactive HTLp and CTLp frequencies. The cellular alloreactivity was compared between cord and HLA-haploidentical parental blood cells against the same HLA-mismatched unrelated stimulator.

RESULTS

The results demonstrated that alloreactive CTLp frequency in CB mononuclear cells (CBMCs) was significantly lower (mean, 1:35,694, range, 1:1,667-<1:500,000) than that in adult peripheral blood mononuclear cells (PBMCs) (mean, 1:5,333, range, 1:544-1:47,619). Alloreactive HTLp frequencies, however, were comparable for CBMCs and PBMCs (mean, 1:7,586, range, 1:1,359-1:200,000; and mean, 1:5,976, range, 1:385-1:50,000, respectively). A significantly decreased ability to induce in vitro GVH type alloreactivity was observed for CBMCs and that was strongly associated with low alloreactive CTLp frequencies (P=0.001).

CONCLUSIONS

The present study provides the first clear in vitro evidence to suggest that CBMCs are less able than PBMCs to induce skin GVH type alloreactivity in HLA-mismatched pairs. The severity of in vitro GVH type alloreactivity (graded as I-IV) was strongly associated with the levels of alloreactive CTLp frequencies. The low cellular alloreactivity of CBMCs detected in vitro suggests that in a proportion of cases HLA-mismatched unrelated CB may not give rise to severe GVHD in vivo after transplantation.

HLA-DPbeta residue 69 plays a crucial role in allorecognition

To investigate the contribution to allorecognition of the individual polymorphic positions Glu 69 and Val 36 from the DPB1*02012 allele, DPB1*02012 cDNA was subjected to site-directed mutagenesis and alleles expressing Lys at 69 and Ala at 36 were generated. The lymphoblastoid cell line (LCL) 45.EM1, a previously generated mutant B-LCL which expresses normal levels of DPA mRNA but is not able to transcribe DPB, was transfected with wild-type or mutant DPB1*02012 cDNAs. The ability of two HLA-DPw2 alloreactive CD4+ cytotoxic T-lymphocyte (CTL) clones to lyse the panel of DPB1*02012 wild-type and site-directed mutant B-cell lines was tested. Both CTL clones (8.3 and 8.9) lysed the B-LCL 45.1, which is haploid for HLA and expresses wild-type DPB1*02012, and transfectants expressing Ala at 36 instead of Val, indicating that this polymorphic residue is not critical for T-cell recognition. However, the change of Glu to Lys at 69 prevented recognition by clones 8.3 and 8.9. These data demonstrate that the residue at peptide-binding position 69 is crucial for T-cell receptor recognition and suggest the requirement for a negatively charged residue at this position for allostimulation of these T-cell clones. The side chain of DPbeta-69 is predicted to point into the peptide-binding groove, and the existence of positive(Lys) or negative (Glu) residues probably leads to substantial differences in the allo- or auto-DP-bound peptides or to differences in the conformation of the peptide-MHC complex, which would therefore be responsible for specific DPw2 allorecognition. The binding of a panel of monomorphic and polymorphic anti-HLA-DP monoclonal antibodies (mAbs) to these transfectants was also tested by flow cytometry. The changes at Glu 69 and Val 36 did not affect recognition by any of the monomorphic antibodies tested. However, the binding pattern of some of the polymorphic mAbs was clearly modified. Therefore, even though it is not crucial for T-cell allorecognition, polymorphic residue 36 must be involved in epitopes recognized by some polymorphic anti-DP antibodies, while residue 69 of the DPB molecule is crucial both for T-cell allorecognition and recognition by some mAbs.

Improved IL-2 detection for determination of helper T lymphocyte precursor frequency in limiting dilution assay

In the context of allogeneic bone marrow transplantation, an accurate estimate of the risk of developing graft-versus-host disease (GVHD) is of major interest. The pre-transplant frequency of donor's helper T-lymphocyte precursors (HTLp) directed against host's antigens may be helpful in predicting this risk. This technique relies on an indirect measurement of interleukin-2 (IL-2) secreted by the HTLp, as assessed by the proliferation of an IL-2 dependent cell line. Many authors use the murine CTLL-2 cell line in this assay, but these cells do not respond to the presence of minute amounts of IL-2 in the culture medium, and thus do not discriminate between the absence or the presence of very low levels of IL-2. We therefore decided to compare CTLL-2 with another IL-2 dependent cell line, the murine A9.12 cell line. A comparison was made using serial dilutions of recombinant human IL-2, limiting dilutions of baby hamster kidney (BHK) cells transfected with human IL-2 gene and in the context of clinical tests performed for the detection of pre-transplant HTLp. Both the sensitivity and reliability of the tests were better using A9.12. We conclude that the A9.12 cell line might be a more suitable tool for pre-transplant HTLp determinations before allogeneic bone marrow transplantation or whenever low IL-2 levels are to be measured.

HLA-DP epitope typing using monoclonal antibodies

We have made a panel of murine anti-DP monoclonal antibodies for serological typing of HLA-DP polymorphisms; they can be used in microcytotoxicity (for 7 epitopes) and binding assays (for 8 epitopes). The antibodies detect polymorphic differences in both alpha and beta chains. As immunogens we sometimes used B-lymphoblastoid lines or purified DP molecules but mostly used mouse fibroblast transfectants expressing DP molecules. The DP beta genes were made from a cloned DPB1*0201 gene by replacing its major area of polymorphism with matching stretches of DNA amplified from other alleles; cloned DPA1*01 and DPA1*02 genes were used for transfection along with the beta chain genes. The monoclonal antibodies showed reaction patterns that correlated with the presence of particular amino-acid sequence motifs; thus none of the antibodies is allele-specific. They bind instead to epitopes which are found on a number of different HLA-DP types. We have constructed frequency tables so that the epitope (motif) data can be interpreted as the most likely genotype in each case. The basic assumption to justify this work is that HLA-DP matching or mismatching will likely influence transplant outcome, particularly in bone marrow transplantation. The present challenge is to define permissive and nonpermissive combinations of HLA-DP; it may be that matching for epitopes, rather than for full alleles, will help to resolve this issue.

Comprehensive HLA-DP typing using polymerase chain reaction with sequence-specific primers and 95 sequence-specific primer mixes

HLA-DP is the third of the class II molecules. Its role is antigen presentation, and it has been suggested to play a part in the susceptibility to certain diseases such as berylliosis, sarcoidosis and juvenile chronic arthritis. The standard typing method is SSO typing, although other methods have been used. Probably the best is sequence-based typing, but this is time-consuming and requires expensive equipment. We describe a method for comprehensive HLA-DPB1 and HLA-DPA1 typing using sequence-specific primers. This method has the advantages that it is rapid - typing a single DNA sample takes under 3 hours - and does not require any special equipment or reagents. The method has been shown to be highly accurate by typing 60 cell line DNA samples in which there was 100% agreement between the types obtained and the published information. Similarly typing of 20 DNA samples previously typed by sequence-based typing gave 100% concordance. We used the method to type DNA samples from 102 UK Caucasoid kidney donors. The allele frequencies agree with previously published data. Linkage disequilibria between HLA-DPB1, HLA-DPA1 and the other class II antigens have been investigated. Strong linkage disequilibria exist between certain HLA-DPB1 and HLA-DPA1 alleles. This is unsurprising in view of their proximity on the chromosome. More unexpectedly, the data also suggest that genes further away along the chromosome are in linkage disequilibrium with HLA-DP, forming extended haplotypes.

Susceptibility to hard metal lung disease is strongly associated with the presence of glutamate 69 in HLA-DP beta chain

Clinical, epidemiological and experimental data indicate that inhaled metal dust containing cobalt may produce an interstitial lung disease termed "hard metal disease" (HMD). Some aspects of this pathology such as the lack of correlation with dose exposure, the low frequency of the disease and the presence of T cells in the inflammation site, all suggest the existence of a genetic susceptibility, possibly to an immunological response to cobalt or to self proteins modified by cobalt. Here we report that HMD is strongly associated with residue Glu-69 of the HLA-DP beta chain. All patients, except for one with a rare genotype, possessed this marker as compared to 17 out of 35 exposed unaffected individuals (p = 0.0014). These data allow us to genetically distinguish a subgroup of cobalt-exposed individuals at risk for HMD, independently from the more common allergic reaction.

Donor helper T-cell frequencies as predictors of acute graft-versus-host disease in bone marrow transplantation between HLA-identical siblings

BACKGROUND

Despite the current level of sophistication of molecular typing for class I and class II alleles, a significant proportion (20-40%) of recipients of HLA-identical sibling marrow develop severe, acute graft-versus-host disease (GVHD) after bone marrow transplantation. It has been suggested that the frequency of patient-specific helper T lymphocyte precursors (HTLp) detected in the HLA-identical sibling donor correlates with the incidence and severity of acute GVHD after transplantation.

METHODS

This study group consisted of 42 patients who all received bone marrow from HLA-identical sibling donors from January 1990 to December 1996. Using a limiting dilution analysis, donor HTLp frequencies were determined on samples collected before transplantation. The HTLp assay used the cytotoxic T-cell line, CTLL-2, which proliferates in the presence of interleukin-2. The reliability and reproducibility of this assay was established by using cryopreserved batches of CTLL-2 cells of known sensitivity.

RESULTS

The recipient-directed HTLp frequencies detected in the donor before transplantation were correlated with the incidence and severity of acute GVHD experienced by the recipient after transplantation. Statistical analysis revealed an extremely significant correlation between donor precursor frequencies and the development of acute GVHD in the patient after transplantation (P<0.0001).

CONCLUSIONS

This study suggests that together with molecular typing the HTLp frequency should be considered when selecting the most suitable sibling donor for bone marrow transplantation.

Alloresponses to HLA-DP detected in the primary MLR: correlation with a single amino acid difference

The one-way mixed lymphocyte reaction (MLR-1) response was measured in both directions in 50 HLA-A, B, DR and DQ identical pairs and the role of DP studied in MLR stimulation. DR, DQ and DP typing was performed at the allele level by the polymerase chain reaction-sequence specific oligotyping (PCR-SSO) technique. The group consisted of 19 potential bone marrow transplant recipients and 34 matched unrelated donors. When more than one matched donor was available for a patient, donor/donor MLR-1 was also studied. DP identity was observed in 3 out of 50 pairs (6%), however due to homozygosity no incompatibility was present in the stimulating cells in 21 out of 100 cases (21%). There was a significant difference in the range of relative responses (RR) between zero DPB1 mismatches and one (p = 0.002) and two (p = 0.02) DPB1 mismatches: 52.4% of cases in the zero DPB1 mismatch group had RR < 1.0% compared with 31.6% and 27.3% in the one and two DPB1 mismatches. Stimulation by DPB1*0201 and 0301 gave the highest RR (12.9 +/- 22.5 and 17.5 +/- 17.0, respectively) while stimulation with DPB1*0401 and 0402 resulted in low levels of T cell response (1.3 +/- 8.2 and 0.6 +/- 11.5, respectively). When the responses were restricted to DPB1*0401 homozygotes to standardise for responder type similar results were obtained (DPB1*0201 v DPB1*0402 p = 0.008). The protein products of the DPB1*0201 and 0402 alleles differ by a single amino acid at position 69 (DPB1*0402--Lysine, DPB1*0201--glutamic acid). A further analysis was performed therefore scoring responders and stimulators as glutamic acid positive (E+) or negative (E-). There was a highly significant increase in the response to E+ stimulators compared with E- stimulators (p = 0.004). There was also a significant difference in the distribution of relative responses between the E+ stimulator group and the subgroups of E- responders/E- stimulators (p = 0.012) and E+ responders/E- stimulators (p = 0.009). However the amino acid difference at position 69 does not explain all responses due to DP in the MLR-1 as evidenced by the strong responses observed in cases where DPB1*0301 (lysine pos.) was the only difference on the stimulator cells. The results indicate that not all DP incompatibilities elicit a measurable T cell MLR response, but where a response does occur residue 69 in the first domain of DP appears to be pivotal. These results may have implications with respect to GVHD in bone marrow transplantation.

Factors influencing the outcome of bone marrow transplants using unrelated donors

The use of unrelated donors for bone marrow transplantation (BMT) is associated with an increased morbidity and mortality when compared with HLA-identical donors, primarily due to an increased rate of graft-versus-host disease, but also to increased susceptibility to infections and graft failure. HLA matching for donors and recipients is the single most important factor influencing the outcome of BMT. However, unrelated donor selection generally relies on matching only for HLA-A, -B and -DR antigens without considering potential incompatibility for other HLA loci, such as HLA-C, -DQ and -DP. In addition, other factors that affect the outcome of BMT need to be taken into consideration in selecting the best unrelated donor. In this review, we will focus on the effects of HLA-associated factors in determining the result of a transplant procedure. We will also mention other relevant factors, drawing on our experience of laboratory studies performed at The Anthony Nolan Research Institute and clinical studies at the Hammersmith Hospital in London.