Prognostic impact of enhanced CD96 expression on NK cells by TGF-ß1 in AML.

Acute myeloid leukemia (AML) is one of the most common types of blood cancer in adults and is associated with a poor survival rate. NK cells play a crucial role in combating AML, and alterations in immune checkpoint expression can impair NK cell function against AML. Targeting certain checkpoints may restore this function. CD96, an inhibitory immune checkpoint, has unclear expression and roles on NK cells in AML patients. In this study, we initially evaluated CD96 expression and compared CD96+ NK with the inhibitory receptor and stimulatory receptors on NK cells from AML patients at initial diagnosis. We observed increased CD96 expression on NK cells with dysfunctional phenotype. Further analysis revealed that CD96+ NK cells had lower IFN-γ production than CD96- NK cells. Blocking CD96 enhanced the cytotoxicity of primary NK and cord blood-derived NK (CB-NK) cells against leukemia cells. Notably, patients with a high frequency of CD96+ NK cells at initial diagnosis exhibited poorer clinical outcomes. Additionally, TGF-ß1 was found to enhance CD96 expression on NK cells via SMAD3 signaling. These findings suggest that CD96 is invovled in NK dysfunction against AML blast, and might be a potential target for restoring NK cell function in the fight against AML.

Mechanism and intervention of murine transfusion-related acute lung injury caused by anti-CD36 antibodies.

Anti-CD36 Abs have been suggested to induce transfusion-related acute lung injury (TRALI) upon blood transfusion, particularly in Asian populations. However, little is known about the pathological mechanism of anti-CD36 Ab-mediated TRALI, and potential therapies have not yet been identified. Here, we developed a murine model of anti-CD36 Ab-mediated TRALI to address these questions. Administration of mouse mAb against CD36 (mAb GZ1) or human anti-CD36 IgG, but not GZ1 F(ab')2 fragments, induced severe TRALI in Cd36+/+ male mice. Predepletion of recipient monocytes or complement, but not neutrophils or platelets, prevented the development of murine TRALI. Moreover, plasma C5a levels after TRALI induction by anti-CD36 Abs increased more than 3-fold, implying a critical role of complement C5 activation in the mechanism of Fc-dependent anti-CD36-mediated TRALI. Administration of GZ1 F(ab')2, antioxidant (N-acetyl cysteine, NAC), or C5 blocker (mAb BB5.1) before TRALI induction completely protected mice from anti-CD36-mediated TRALI. Although no significant amelioration in TRALI was observed when mice were injected with GZ1 F(ab')2 after TRALI induction, significant improvement was achieved when mice were treated postinduction with NAC or anti-C5. Importantly, anti-C5 treatment completely rescued mice from TRALI, suggesting the potential role of existing anti-C5 drugs in the treatment of patients with TRALI caused by anti-CD36.

Improvement of Anti-CD36 Antibody Detection via Monoclonal Antibody Immobilization of Platelet Antigens Assay by Using Selected Monoclonal Antibodies.

Antibodies against human CD36 are responsible for several immune-mediated disorders. The detection of anti-CD36 antibodies using the standard monoclonal antibody (mAb) immobilization of platelet antigens (MAIPA) assay is hampered by a high frequency of false-negative results, most likely due to competitive inhibition of the mAb used as the capture antibody. We generated a panel of mouse mAbs against CD36 and seven hybridomas (GZ-3, GZ-13, GZ-70, GZ-143, GZ-413, GZ-507, and GZ-608), which were selected for MAIPA assays, as they reacted with mouse and human CD36. Fourteen anti-CD36 sera were assayed; all of which showed a positive reaction in a PakPlus (Immucor GTI Diagnostics, Inc., Waukesha, WI, USA) ELISA-based screening (optical density: 0.257-2.292). When the reference anti-CD36 mAb FA6-152 was used in the MAIPA assay, only 6/14 (42.9%) sera displayed a positive reaction. In contrast, anti-CD36 antibodies were detected in 13/14 (92.9%) sera when GZ-70 and GZ-608 mAbs were used. This significant improvement resulted in the identification of anti-CD36 antibodies by an antigen capture assay. Since patient's platelets possibly carrying rare native antigens are used, this method will facilitate the identification of new platelet antibodies against CD36 that are involved in immune-mediated thrombocytopenia and other diseases, such as transfusion-related acute lung injury.

Preliminary mechanism in fetal alloimmune thrombocytopenia associated with anti-HPA 15b antibodies.

OBJECTIVE: Fetal and neonatal alloimmune thrombocytopenia (FNAIT) is a bleeding disease that can cause fetal hydrops, a rare but life-threatening condition in which abnormal amounts of fluid accumulate in one or two areas of the fetus's body. A case of FNAIT with fetal hydrops caused by anti-HPA-15b antibodies was involved in this study, as we investigated whether or not anti-HPA-15b antibodies can induce endothelial angiogenesis and apoptosis. METHODS: The monoclonal antibody immobilization of platelet antigens assay (MAIPA) was used to identify anti-HPA-15b antibodies. The three groups in Tube formation and apoptosis assays were the PBS group, the AB serum IgG group, and the anti-HPA-15b serum IgG group, all reacted with HPA-15bb HUVEC. RESULTS: The presence of anti-HPA-15b antibodies was found in this case by MAIPA assay. The OD values are 0.33 and 0.21, reacted with HPA-15bb and HPA-15ab platelets, respectively (cutoff OD value = 0.2). Quantitative analysis revealed that the length of capillary-like tube induced by anti-HPA-15b antibodies was significantly decreased over that of AB serum IgG (*p = 0.0005), but weaker than when incubated with thrombin (**p = 0.0009). The apoptosis results show a significantly increased number of apoptotic endothelial cells in the anti-HPA-15b antibody IgG group when compared with the PBS and AB serum IgG groups (*p < 0.0001, **p < 0.0001). In addition, there is no statistical difference between the PBS and AB serum groups. CONCLUSION: Anti-HPA-15b antibodies can inhibit angiogenesis and induce apoptosis. This may associate with hydrops fetalis (HF), or fetal hydrops of FNAIT.

Generation of induced pluripotent stem cell line derived from FNAIT patient with CD36 deficiency mutations.

Fetal and neonatal alloimmune thrombocytopenia (FNAIT) caused by anti-CD36 isoantibodies is a common disease and the frequency of type I CD36 deficiency is relatively high in eastern Asian populations.Currently, patient-specific induced pluripotent stem cells (hiPSC) are believed to be useful tools for studying anti-CD36 mediated FNAIT and finding new therapeutic approaches to the disease.We generated an iPSC line from peripheral blood mononuclear cells of a patient carrying a 329-330delAC of the CD36 gene.The iPSC expressed pluripotency markers, gave rise to derivatives of three germ layers during spontaneous differentiation, had a normal karyotype, and retained the patient-specific mutation.

Increased TIGIT expressing NK cells with dysfunctional phenotype in AML patients correlated with poor prognosis.

AML is the most common blood cancer in adults with a high relapse and an overall poor survival rate. NK cells have been demonstrated to have the capacity to eradicate AML blast, and an impaired NK cell function is involved in AML development and progression. Immune checkpoints are involved in immune escape in various cancers. Immune checkpoints blockade therapy mainly aimed to unleash CD8+T cells function, but NK cells have emerged as new target. However, immune checkpoints profile on NK cells has not been observed in AML patients. Here, we studied the immune checkpoints expression of NK cells from AML patients at initial diagnosis and found increased PD-1, TIGIT and TIM-3 expression compared to NK cells from healthy donors. Further analysis showed that TIGIT expressing NK cells from AML patients had a dysfunctional phenotype, as TIGIT+NK cells exhibit lower antileukemia effect, cytokine production and degranulation compared to TIGIT-NK cells. TIGIT blockade could significantly enhance the function of NK cells. Moreover, AML patients with high frequency of TIGIT+NK cells had higher frequency of poor prognosis risk. Further analysis found that IL-10 upregulated TIGIT expression on NK cells. Thus, TIGIT blockade alone or in combination with other therapy might be potential strategy to treat AML.

Successful prenatal therapy for anti-CD36-mediated severe FNAIT by deglycosylated antibodies in a novel murine model.

Recent studies have shown that maternal anti-CD36 antibodies represent a frequent cause of fetal/neonatal alloimmune thrombocytopenia (FNAIT) in Asian and African populations. However, little is known about the pathomechanism and antenatal treatment of anti-CD36-mediated FNAIT. Here, we established a novel animal model to examine the clinical features of pups from immunized Cd36-/- female mice after breeding with wild-type male mice. Mild thrombocytopenia was observed, but high pup mortality was also documented (40.26%). Administration of intravenous immunoglobulin (IVIG) (1 g/kg) on days 7, 12, and 17 to immunized Cd36-/- mothers after breeding reduced fetal death (12.70%). However, delaying the IVIG administration series on days 10, 15, and 20 did not reduce fetal death (40.00%). In contrast, injection of deglycosylated anti-CD36 (deg-anti-CD36) polyclonal antibodies (5 mg/kg) on days 10, 15, and 20 significantly reduced fetal death (5.26%). Subsequently, monoclonal antibodies (mAbs) against mouse CD36 were developed, and one clone producing high-affinity anti-CD36 (termed 32-106) effectively inhibited maternal antibody binding and was therefore selected. Using the same approach of deg-anti-CD36, the administration of deg-32-106 significantly reduced fetal death (2.17%). Furthermore, immunized Cd36-/- mothers exhibited placental deficiency. Accordingly, maternal anti-CD36 antibodies inhibited angiogenesis of placenta endothelial cells, which could be restored by deg-32-106. In summary, maternal anti-CD36 antibodies caused a high frequency of fetal death in our animal model, associated with placental dysfunction. This deleterious effect could be diminished by the antenatal administration of IVIG and deg-mAb 32-106. Interestingly, treatment with deg-32-106 seems more beneficial considering the lower dose, later start of treatment, and therapy success.

Hydrops fetalis associated with anti-CD36 antibodies in fetal and neonatal alloimmune thrombocytopenia: Possible underlying mechanism.

OBJECTIVES: In the present study, we asked whether anti-CD36 antibodies impair the maturation of erythropoietic stem cells to mature red blood cells (RBCs), leading to anaemia and hydrops fetalis (HF). BACKGROUND: Recent studies have shown the importance of anti-CD36 antibodies in the development of Fetal/Neonatal Alloimmune Thrombocytopenia (FNAIT). In comparison to other types of antibody-mediated FNAIT, anti-CD36 antibodies are frequently associated with anaemia and HF. As mature RBCs do not express CD36, the reason for this phenomenon is currently not fully understood. MATERIAL AND METHODS: A case of FNAIT with signs of HF was characterised in this study. Maternal anti-CD36 antibodies were isolated by an absorption/elution approach. We cultured haematopoietic stem cells (HSCs) with purified anti-CD36 antibodies, and the formation of burst-forming unit-erythroid and colony-forming unit-erythroid (CFU-E/BFU-E) cells was analysed. Apoptosis of HSCs was also investigated. RESULTS: Analysis of the mother showed type-1 CD36 deficiency. Anti-CD36 antibodies were found in maternal serum, as well as on fetal platelets, by ELISA, and the specificity of these antibodies was further substantiated by flow cytometry. In comparison to control IgG, incubation of HSCs with purified anti-CD36 antibodies led to a significant reduction in CFU-E/BFU-E cell formation, and this result was associated with an increased number of apoptotic CD34+ erythroid/myeloid precursor cells. Administration of intra-uterine transfusion with washed RBCs was effective in improving fetal anaemia. CONCLUSIONS: Anti-CD36 antibodies may cause anaemia and trigger HF through apoptosis of CD34+ erythroid/myeloid precursor cells. However, the contribution of other cells must also be taken into account.

Distribution of CD36 deficiency in different Chinese ethnic groups.

BACKGROUND: CD36 is a multifunctional receptor in cells that plays a role in important cellular processes including immune regulation. Evidence indicates that mutations in the CD36 gene are associated with malaria. Moreover, studies on the frequency of CD36 deficiency have been conducted in specific provinces of China. However, the frequency of CD36 deficiency may differ among various ethnic populations. In this study, we analyzed the frequency of CD36 deficiency among seven different provinces and minorities in China. METHODS AND MATERIALS: In this study, 5313 samples were randomly collected from seven provinces in China. CD36 deficiency on platelets and monocytes was determined via flow cytometry using a monoclonal antibody (mAb) against CD36. DNA sequencing analysis was performed to identify mutations associated with CD36 deficiency. RESULTS: The frequency of CD36 deficiency among individuals from different provinces (n = 7) was 1.60%, comprising 0.38% of type-I deficiency and 1.22% of type-II deficiency. The distribution among provinces ranged from 0.81% to 1.99%. The largest ethnic group, Han, showed a lower frequency of deficiency than ethnic minorities (1.30% versus 2.37%). The most common mutations found in our overall cohort were 329-330delAC and 1228-1239delATTGTGCCTATT. Significant high frequencies of CD36 deficiency were detected in two ethnic minorities, Zhuang (3.69%) and BuYi (3.05%), living in southern China. CONCLUSIONS: Through an analysis of a large cohort, we determined the frequencies of CD36 deficiency among different Chinese ethnic groups. A high frequency of type-I deficiency was found in certain minorities living in southern China, which is known to be vulnerable to malaria epidemics. These findings may help us understand the phenotypic consequences of CD36-deficient alleles associated with malaria.

[Construction of eukaryotic expression vector for human platelet CD36 gene 220C>T and 429+4insg variants and analysis of their expressions in HEK293T cells].

OBJECTIVE: To construct eukaryotic expression vectors for human platelet CD36 gene 220 C>T and 429+4insg variants and analyze their expressions in HEK293T cells. METHODS: RNA was isolated from human platelets and reversely transcribed into cDNA. Sequences of 220C>T and 429+4insg variants were derived by PCR amplification. The target sequence was ligated into a pcDNA3.1/V5-His-TOPO vector by TA cloning, which was transformed into TOP10 E. coli. Positive plasmids were screened by blue-white selection. After sequencing, plasmid DNA carrying 220C>T or 429+4insg variant was used to transfect HEK293T cells with the help of effectene. Expression of CD36 protein was then analyzed by flow cytometry and Western blotting. RESULTS: An eukaryotic expression vector pcDNA3.1/V5-His-CD36 (220C>T/429+4insg) was constructed by TA cloning. After transfected into HEK293T cells, the 220C>T and 429+4insg variants resulted in CD36 deficiency in HEK cells, which was confirmed by flow cytometry and Western blotting. CONCLUSION: The 220C>T and 429+4insg variants can cause CD36 deficiency in human platelets. This system may be used for assessing the effect of 220C>T, 429+4insg, and other variants on the expression of CD36.

Fetal/neonatal alloimmune thrombocytopenia due to anti-CD36 antibodies: antibody evaluations by CD36-transfected cell lines.

BACKGROUND: Isoantibodies against CD36 (platelet glycoprotein 4), developed in Type I CD36-deficient mothers are frequently reported as the cause of fetal/neonatal alloimmune thrombocytopenia in the Asian population. Therefore, further detailed characterization of anti-CD36-mediated fetal/neonatal alloimmune thrombocytopenia is warranted. Here, we report the characterization of a patient with fetal/neonatal alloimmune thrombocytopenia in a Taiwanese family caused by anti-CD36 isoantibodies using a novel antigen-capture method. STUDY DESIGN AND METHODS: Platelets and monocytes were analyzed for CD36 expression by flow cytometry. Sequencing analysis of the CD36 gene was performed to identify the mutation underlying the CD36 deficiency. Stable transfected human embryonic kidney HEK293 cells expressing recombinant CD36 were established. These cells were used for the characterization of anti-CD36 isoantibodies by flow cytometry, immunoprecipitation, and antigen-capture assay. RESULTS: Flow cytometry analysis revealed a total absence of CD36 on both platelets and monocytes of the mother (Type I CD36-deficient) caused by heterozygous deletions of the CD36 gene (332_333delCA and c.1254 + 6_1254 + 11delTATTTG). Analysis of maternal serum with CD36-transfected HEK293 cells by flow cytometry, immunoprecipitation, and antigen-capture assay demonstrated the presence of anti-CD36 isoantibodies in maternal serum. Interestingly, this antibody could not be detected by the monoclonal antibody immobilization of platelet antigens assay when anti-CD36 monoclonal antibody (clone FA6-152) was used as the capture antibody. CONCLUSION: This case reemphasizes the role of anti-CD36 isoantibodies on the pathomechanism of fetal/neonatal alloimmune thrombocytopenia. The fact that the monoclonal antibody immobilization of platelet antigens assay does not seem to be reliable for the identification of all anti-CD36 antibodies indicates that screening of anti-CD36 isoantibodies by a monoclonal antibody-independent method, as presented here, should be considered.

CD8+T cells expressing both PD-1 and TIGIT but not CD226 are dysfunctional in acute myeloid leukemia (AML) patients.

Acute myeloid leukemia (AML) is one of the most common types of leukemia among adults with an overall poor prognosis and very limited treatment management. Immune checkpoint blockade of PD-1 alone or combined with other immune checkpoint blockade has gained impressive results in murine AML models by improving anti-leukemia CD8+T cell function, which has greatly promoted the strategy to utilize combined immune checkpoint inhibitors to treat AML patients. However, the expression profiles of these immune checkpoint receptors, such as co-inhibitory receptors PD-1 and TIGIT and co-stimulatory receptor CD226, in T cells from AML patients have not been clearly defined. Here we have defined subsets of CD8+ and CD4+ T cells in the peripheral blood (PB) from newly diagnosed AML patients and healthy controls (HCs). We have observed increased frequencies of PD-1- and TIGIT- expressing CD8+ T cells but decreased occurrence of CD226-expressing CD8+T cells in AML patients. Further analysis of these CD8+ T cells revealed a unique CD8+ T cell subset that expressed PD-1 and TIGIT but displayed lower levels of CD226 was associated with failure to achieve remission after induction chemotherapy and FLT3-ITD mutations which predict poor clinical prognosis in AML patients. Importantly, these PD-1+TIGIT+CD226-CD8+T cells are dysfunctional with lower expression of intracellular IFN-γ and TNF-α than their counterparts in HCs. Therefore, our studies revealed that an increased frequency of a unique CD8+ T cell subset, PD-1+TIGIT+CD226-CD8+T cells, is associated with CD8+T cell dysfunction and poor clinical prognosis of AML patients, which may reveal critical diagnostic or prognostic biomarkers and direct more efficient therapeutic strategies.

Successful management of a hydropic fetus with severe anemia and thrombocytopenia caused by anti-CD36 antibody.

Cases of CD36 deficiency are not rare in Asian populations, foetal and neonatal alloimmune thrombocytopenia (FNAIT) caused by anti-CD36 isoantibodies appears more frequent than other HPA alloantibodies. However, little is known about the treatment of anti-CD36 mediated FNAIT in this region. A Chinese male foetus, whose mother had a history of multiple intrauterine foetal demise and/or hydrops, was diagnosed with severe FNAIT at 27 weeks of gestational age. Immunological analysis revealed total absence of CD36 on platelets and monocytes from mother, caused by a 329-330delAC mutation of the CD36 gene. Anti-CD36 and anti-HLA class I antibodies were detected in the maternal serum, whereas only anti-CD36 isoantibodies were detectable in the foetal blood sample. Serial intrauterine transfusions with red blood cells (RBC) and platelets from a CD36null donor were performed to improve the severe anaemia and thrombocytopenia. The baby (2250 g; Apgar scores 10) was delivered vaginally at 32 weeks of gestation with normal haemoglobin (186 g/L) but low platelet count (48 × 109/L). After 2 days the platelet count rose to 121 × 109/L. This report suggests that intrauterine transfusions with compatible RBC and CD36null platelets are useful in preventing the deleterious clinical effects of anti-CD36-mediated severe FNAIT.

Studies on CD36 deficiency in South China: Two cases demonstrating the clinical impact of anti-CD36 antibodies.

CD36 (also known as GPIV) deficiency is known to be responsible for the production of anti-Nak(a) antibodies in different clinical settings such as fetal/neonatal alloimmune thrombocytopenia (FNAIT), platelet transfusion refractoriness (PTR) and post-transfusion purpura (PTP). However, no data regarding the relevance of CD36 immunisation is currently available for China. In this study, healthy blood donors were typed for CD36 deficiency using flow cytometry. Nucleotide sequencing was performed to identify the molecular basis underlying the CD36 deficiency. Anti-Nak(a) antibodies in CD36-deficient individuals were analysed by ELISA and flow cytometry. By analysis of 998 healthy blood donors, 18 individuals failed to express CD36 on their platelets. In 5/12 individuals no CD36 expression was detected both on platelets and monocytes. This result suggested that the frequencies of type I CD36 deficiency (platelets and monocytes) and type II CD36 deficiency (platelets only) are approximately 0.5 and 1.3%, respectively. Nucleotide sequencing analysis of type I CD36 deficient individuals revealed eight different mutations; four of them were not described so far. However, 1228-1239del ATTGTGCCTATT and 329-330delAC appear to be the most common mutations related to type I CD36 deficiency in South Chinese population. Further analysis showed that 1/5 type I CD36 deficient individuals developed anti-Nak(a) antibodies. In addition, anti-Nak(a) antibodies could be identified in two cases of thrombocytopenia associated with FNAIT and PTR. In conclusion, more than 0.5% of CD36 type I-deficient individuals are at risk to be immunised through blood transfusion or pregnancy in China. Testing of anti-Nak(a) antibodies should be considered in FNAIT and PTR suspected cases. A registry of CD36-deficient donors should be established to allow treatment of immune-mediated bleeding disorders caused by anti-Nak(a) antibodies.

Distribution of MICA haplotypes in a Chinese Han population.

The MICA gene encodes nonclassical major histocompatibility complex class I molecules, centromeric to HLA-B and telomeric to HLA-DRB1. The MICA genes are polymorphic. The immune response against MICA may correlate with a decrease in graft survival after transplantation. However, data on the frequency of MICA polymorphisms in different populations are limited. In this study, we determined MICA allelic frequencies in a Han population living in Guangdong Province in south China. A total of 15 MICA alleles were identified using sequence-based typing. The most frequent allele was MICA*010 (22.22%), followed by MICA*002:01(18.56%), MICA*008:01(16.32%), and MICA*019(14.93%). The MICA null gene (MICA*Del) exhibited a frequency of 1.743% in this population. MICA and HLA, MICA-HLA-B, and MICA-HLA-A/HLA-B/HLA-DRB1 haplotype frequencies were estimated. The most common 2-, 3- and 4-locus haplotypes were HLA-B*40:01-MICA*008:01 (13.70%), HLA-A*11:01-B*40:01-MICA*008:01(8.25%), and HLA-A*33:03-B*58:01-DRB1*03:01-MICA*002:01(5.22%). A new MICA allele, MICA*061, was identified and appears to be evolutionarily related to MICA*012:01. This study provides high-resolution information on the distribution of haplotypes with MICA, HLA-A, HLA-B, and HLA-DRB1 in China. This information should help determine the mechanisms underlying diseases and allotransplant rejection associated with MICA polymorphisms in the southern Chinese Han population.

The frequencies of human neutrophil alloantigens in the Chinese Han population of Guangzhou.

BACKGROUND: Antibodies against polymorphic structures on human neutrophil antigens (HNAs) play a role in alloimmune-mediated neutropenia and are the leading cause of antibody-mediated transfusion-related acute lung injury (TRALI). This study aimed to determine the frequencies of HNAs in the major Han ethnic group living in Guangdong Province, Southern China. STUDY DESIGN AND METHODS: A total of 493 healthy Chinese Han blood donors from Guangzhou were recruited. DNA samples were isolated and typed for all five HNA-1, -2, -3, -4, and -5 systems using allele-specific polymerase chain reaction approaches. Results were compared with available data from other Chinese cohorts and other Asian and Caucasian populations. RESULTS: In this cohort, the gene frequency for HNA-1a (0.667) was approximately twice that of HNA-1b (0.333). In contrast to Caucasian populations, HNA-1a represents the most frequent allele in the Chinese population. HNA-3 system genotyping revealed comparable frequencies for HNA-3a (0.738) and -3b (0.262) in Chinese and Caucasian populations. Homozygous HNA-3 bb individuals were found in 5.64% of our cohort. HNA-4 genotyping revealed no HNA-4 bb homozygous individuals. In contrast, HNA-5 bb homozygous individuals represented 2.43% of the population. Typing the HNA-2 system for the single-nucleotide polymorphism C42G showed that the C-allele (69%) is overrepresented and is associated with an increased number of HNA-2a-positive neutrophil subpopulations. CONCLUSION: This study describes for the first time the frequencies of all HNA systems, including the newly identified HNA-3, within one cohort of Chinese Han population. Comparison with Caucasian populations may allow assessment of anti-HNA alloimmunization and estimation of alloimmune neutropenia and TRALI incidence in Chinese populations.

[Study of the platelet GP specific antibodies and HLA antibodies expression in platelet transfusion refractoriness patients].

OBJECTIVE: To investigate the correlation between the platelet GP specific antibodies/HLA antibodies and platelet transfusion refractoriness (PTR). METHODS: Sixty-five patients with PTR were selected in this study and were genotyped for HLA-A and HLA-B as well as HPA systems by standard PCR-SSP assays. The platelet GP specific antibodies and HLA antibodies in serum and platelet elution were tested with a solid phase ELISA. RESULTS: The HLA-A/B antigens and the frequencies of HPA-1, 2, 4, 5, 6, 9, 15 antigens in PTR patients had no difference from those in healthy donors. The freguencies of HPA-3a and 3b were 0.65 and 0.35, respectively. There was statistical difference between the 65 PTR patients and the healthy donors in HPA-3 freguencies (P < 0.05). Twenty-four patients (36.9 %) only expressed HLA antibodies, and 14 (21.5%) expressed HLA and platelet GP specific antibodies. The highest expression of anti-HLA-A/B specific antibodies was -A*9(46.2 %)/-B*40(33.6%), respectively. In serum, GPIIb/IIIa was expressed (26.2%), followed by GPIa/IIa (21.5 %). In platelet elution, GPIIb/IIIa was expressed of 41.5% and GPIb/IX 41.5%. Pedigree study was carried out for 2 patients. The results showed that the platelet GP specific antibody/HLA antibody developed in PTR patients was highly related to the mismatch with the platelet antigen/HLA antigen in their parents. CONCLUSION: The expressions of the HLA and platelet GP specific antibodies are the most important reason in PTR, it's meaningful to explore the correlation between PTR and HLA and HLA-A/B antigen in guiding platelet transfusion.

[Expression of anti-platelet glycoprotein specific antibodies and anti-HLA antibodies in idiopathic thrombocytopenic purpura].

In order to investigate the expression of the anti-platelet glycoprotein specific antibodies and anti-HLA antibodies in idiopathic thrombocytopenic purpura (ITP), 45 patients with ITP were selected in this study. An easy PCR-SSP assay was used to detect single-nucleotide polymorphisms or deletion in HPA and HLA systems. The anti-platelet glycoprotein specific antibodies and anti-HLA antibodies in plasma or platelet eluate were tested with a solid phase ELISA. The results indicated that the anti-platelet glycoprotein specific antibodies were detected in plasma or platelet eluate of 45 patients, among which anti-GPIIb/IIIa/and anti-GpIb/IX were most common. Both the anti-platelet glycoprotein specific antibodies and anti-HLA antibodies were found in plasma of 11 patients. Pedigree investigation in 2 patients (case 37 and case 40) was carried out, the results showed that anti-platelet glycoprotein specific antibodies and anti-HLA antibodies detected in 2 patients closely related to incompatibility with platelet antigens and HLA antigens in parents. In conclusion, the results suggested that detection of the anti-platelet glycoprotein specific antibodies and anti-HLA antibodies in plasma or platelet eluate in combination with investigation of clinical manifestation of patients is important for diagnosis of idiopathic thrombocytopenic purpura.