Jacqueline D.H. Anholts

Biotinylated DRB sequence-specific oligonucleotides : comparison to serologic HLA-DR typing of organ donors in Eurotransplant

A novel HLA-DR typing method was applied using PCR-amplified fragments and biotin-labeled oligonucleotides (PCR-biotin-SSO). The PCR-biotin-SSO method can be used efficiently to perform HLA-DR typing for a large number of individuals when time is not the limiting factor. The reliability of HLA typing of cadaveric organ donors is of vital importance for organ exchange organizations such as ET. Due to lack of time, these typings are usually performed by the complement-dependent cytotoxicity. The individual donor center typings are immediately reported to ET, where the recipient selection procedure is started. DNA isolated from donor spleen material, sent to the ETRL for retyping purposes, was subjected to PCR-biotin-SSO typing. The results were compared with the serological HLA-DR typings as reported to ET. The analysis of 1052 donor samples for the broad DR1-DR10 antigens revealed a concordance rate of over 90% between the donor center and the ETRL. The majority of the discrepancies involved specificities of the HLA-DR5, DR6, and DR8 cross-reacting group, with DR6 as the predominant discordant specificity. The results indicate (a) that PCR-biotin-SSO is a reliable technique for DNA-based HLA-DR typing and (b) that HLA-DR serology is still a useful technique when time is limited, such as for cadaveric donor typing.

Irregular polymerase chain reaction—sequence-specific oligonucleotide hybridization patterns reveal seven new HLA-DRB1 alleles related to DR2, DR3, DR6, DR8, and DR11: Implications for sequence-specific priming

In the past 3 years we have typed over 7000 individuals for HLA-DRB using a nonradioactive PCR-SSO method. The use of locally developed computer programs simplified data input and the interpretation of the DRB PCR-SSO readings. In this way we detected a number of samples with unexpected hybridization patterns. DRB1 exon 2 segments of these samples were amplified, cloned, and sequenced and appeared to identify seven new DRB alleles: DRB1*0304, a DRB1*0301 variant, was observed in three unrelated Caucasoid individuals; DRB1*1606, which is very similar to *1603; DRB1*1113 is a *1101 variant with some *1401 sequences; DRB1*1310 is *1301-like; DRB1*1311 is similar to *1305 and *1307; DRB1*1416 is a *1401 sequence with a HV3 derived from *1301; DRB1*0808 was found in an Ethiopian individual. Next, we studied the effectiveness of PCR-SSP typing of the newly defined DRB1 alleles. Only two variants were distinguished as odd by PCR-SSP and two were typed as regular specificities. Three alleles were not amplified by the primer sets used. As compared to PCR-SSO, the PCR-SSP typing method using currently available typing kits clearly has limitations as far as the recognition of new and variant alleles is concerned. The products of some of these new alleles may be distinguished using conventional serology.

The immunomodulating effect of seminal plasma on T cells

Seminal plasma (SP) contains immunomodulatory factors that may contribute to the formation of a tolerogenic environment at the embryo implantation site. The main focus of this study was to investigate the influence of SP on female T cells in the presence and absence of antigen-presenting cells (APCs) in an in vitro model. Female PBMCs and T cells were incubated with SP from seminal fluid samples of known and variable sperm quality. The immediate effect of SP on the mRNA expression of CD25, IL-10, IFN-γ, and Foxp3 was measured. Furthermore, proliferative responses, cytokine production, and CD25 expression were determined. Exposure to SP leads to increased mRNA expression of CD25, IL-10, and Foxp3 in T cells. Induction of mRNA for IL-10 and CD25 was dependent on the presence of APCs. Both PBMCs and T cells exposed to SP showed a proliferative response and produced several cytokines. The proliferative effects of SP on T cells observed were independent of sperm quality parameters, cytokines or soluble HLA molecules in SP. Furthermore, the presence of SP induced a higher expression of CD25 on the membrane of CD4+ T cells. SP has a direct immunomodulatory effect on T cells, as reflected in a proliferative response and upregulation of Foxp3. The presence of APCs is needed to induce IL-10 and CD25 upregulation in T cells exposed to SP. In conclusion, SP has both a direct and an indirect effect mediated through APCs on T cells.

Preeclampsia in autologous and oocyte donation pregnancy: is there a different pathophysiology?

Oocyte donation (OD) is a specific method of artificial reproductive technology that is accompanied by a higher risk of preeclampsia during pregnancy. The pathophysiological mechanism underlying preeclampsia in OD pregnancies is thought to differ from preeclampsia in autologous pregnancies. As preeclampsia in autologous pregnancies is suggested to be associated with complement activation, we studied C4d deposition, circulating complement components and placental complement regulatory proteins in preeclamptic OD pregnancies. Women with uncomplicated and preeclamptic pregnancies after OD or spontaneous conception were selected. We stained the placentas for C4d, marker for complement activation, measured complement factors C1q, C3 and C4 in maternal sera and quantified the placental mRNA expression of complement regulatory proteins CD46, CD55 and CD59. A significantly (p < 0.03) higher incidence of C4d deposition was observed in placentas from women with preeclampsia compared with uncomplicated pregnancies, both OD and autologous. The level of complement factors in serum did not differ between the groups. Children born in the autologous preeclampsia group were significantly lower in birth weight (p < 10th percentile) compared with the preeclamptic OD group. In addition, the placental mRNA expression level of complement regulatory proteins was significantly lower in uncomplicated and preeclamptic OD compared with the autologous pregnancies. In line with autologous preeclampsia pregnancies, there is excessive activation of complement in preeclamptic OD pregnancies. However, in contrast to autologous pregnancies this is not associated with counterbalancing upregulation of complement regulatory proteins. Furthermore, C4d deposition in OD pregnancies is not related to the severity of preeclampsia, suggesting another trigger or regulatory mechanism of placental C4d deposition in preeclamptic OD pregnancies.

Thirty-six novel HLA alleles: 7 HLA-A, 11 HLA-B, 15 HLA-C and 3 HLA-DRB1.

Thirty-six novel human leukocyte antigen (HLA) alleles are described in this article: A*9225N, A*9234, A*030106, A*0337, A*2317, A*2480, A*3023; B*070206, B*0759, B*0761, B*0765, B*150106, B*1827, B*352002, B*3585, B*3943, B*4082, B*5151; Cw*0342, Cw*0343, Cw*0344, Cw*0428, Cw*0430, Cw*0433, Cw*050104, Cw*0519, Cw*060203, Cw*070109, Cw*070202, Cw*0750, Cw*0815, Cw*120306, Cw*1409; DRB1*0336, DRB1*0473 and DRB1*1382.