Alanine solution as enzyme reaction buffer used in A to O blood group conversion / 中国实验血液学杂志

The aim of this study was to investigate the effect of alanine solution as α-N-acetylgalactosaminidase enzyme reaction buffer on the enzymatic activity of A antigen. The binding ability of α-N-acetylgalactosaminidase with RBC in different reaction buffer such as alanine solution, glycine solution, normal saline (0.9% NaCl), PBS, PCS was detected by Western blot. The results showed that the efficiency of A to O conversion in alanine solution was similar to that in glycine solution, and Western blot confirmed that most of enzymes blinded with RBC in glycine or alanine solution, but few enzymes blinded with RBC in PBS, PCS or normal saline. The evidences indicated that binding of enzyme with RBC was a key element for A to O blood group conversion, while the binding ability of α-N-acetylgalactosaminidase with RBC in alanine or glycine solution was similar. It is concluded that alanine solution can be used as enzyme reaction buffer in A to O blood group conversion. In this buffer, the α-N-acetylgalactosaminidase is closely blinded with RBC and α-N-acetylgalactosaminidase plays efficient enzymatic activity of A antigen.

Removal of αGal xenotransplantation antigen by a novel α-galactosidase / 中国实验血液学杂志

αGal, a xenotransplantations antigen (XTA), can lead to hyper acute reaction (HAR) in xenotransplantation. α-Galactosidase from B. fragilis is a novel galactosidase belong to CAZy GH110 which can clear the terminal αGal from branched and linear oligosaccharides. This study was purposed to investigate the removal effect of a novel α-galactosidase on α-Gal XTA on surface of red blood cells. The αGal XTA from the red blood cells of cattle, pig, dog and rabbit was digested by using recombinant α-galactosidase; the α-Gal antigens on surface of cells was detected by flow cytometry. The results showed that the XTA was disappeared completely or mainly. It is concluded that the novel α-galactosidase is a potential enzyme to remove the XTA on the surface of xenotransplants and can be used to overcome the HAR in xenotransplantation.

Research advance on universal red blood cell engineering / 中国实验血液学杂志

The preparation and application of universal group O donor red blood cells (RBC) are a trend of future transfusion medicine. This article reviewed the technologies for producing universal RBC in recent years. One of them is modification of blood group antigens, which includes two basic methods. One of these two methods is enzymatic cleavage of the terminal immunodominant sugars from carbohydrate chains on the membrane of group A or/and group B RBC, in order to produce so-called enzyme-converted group O (ECO) RBC. ECO RBC have been produced from whole units of B RBC, which then survived normally when given to type A and O individuals in clinical trial. Because of the complexity of group A antigens, conversion of group A RBC (especially A1 RBC) to group O RBC is more difficult. Recently, a new bacterial glycosidase efficiently cleaving antigens on the surface of both A₁ and A₂ RBC has been obtained. Another method is pegylation, which camouflage the antigens on the surface of RBC with non-immunogenic molecules such as polyethylene glycol (PEG) in a non-specific way, to provide O, minor antigen negative phenotype RBC. The second technology is generating universal RBC from stem cells (such as hematopoietic stem cells, human embryonic stem cells) and human dermal fibroblasts, which will provide a new resource for blood supply. Great progress has been made, but a number of challenges still remain for using them in clinical transfusion, including scale-up, effectiveness and safety of prepared RBC. However, these researches will provide solutions for the problems in current transfusion, such as blood supply shortage, blood borne disease and emergency blood transfusion, and enhance the safety of clinical transfusions in the near future.

A reconstructed B. Fragilis-derived recombinant α-galactosidase developed for human blood type B→O conversion / 中国实验血液学杂志

This study was aimed to prepare a reconstructed B. Fragilis-derived recombinant α-galactosidase developed for human B to O blood group conversion. Based on the construction of recombinant E. Coli (DE3) which can express α-galactosidase, the inducing time and inducer concentration were optimized for high expression of α-galactosidase. Then, the expression products in supernatant were purified by cation and anion exchange column chromatography. The purified α-galactosidase was used to treat B group red blood cells in phosphate buffer (pH 6.8) for 2 hours to prepare O group red blood cells. The results showed that the optimal inducing conditions for α-galactosidase expression were IPTG 0.1 mmol/L, 37°C and 2 hours. The specific enzyme activity of purified protein increased from 0.42 U/mg to 2.1 U/mg as compared with pre-purification. And, the conditions of B to O blood group conversion were 26°C, pH 6.8 (neutral pH condition) and 2 hours. Moreover, 225 µg of the enzyme could converse 1 ml B red blood cells to O completely. It is concluded that the technology of expression and purification of recombinant α-galactosidase has been established, and the purified protein can converse B red blood cells to O completely, which means that an effective enzyme conversing B red blood cells to O has been obtained.

Identification of differentially expressed genes in recurrent nasopharyngeal carcinoma and analysis of their chromosomal location / 中华耳鼻咽喉头颈外科杂志

<p><b>OBJECTIVE</b>To identify differentially expressed genes in recurrent nasopharyngeal carcinoma (rNPC) by DNA microarrays, and analyze chromosomal localizations and molecular function by bioinformatics.</p><p><b>METHODS</b>The primary nasopharyngeal carcinoma (pNPC) tissue samples and rNPC tissue samples were selected, and Affymetrix Gene1.0 ST gene chips were used to identify differential expressed genes in rNPC, and the bioinformatics was used to analyze their chromosomal localizations as well as molecular functions.</p><p><b>RESULTS</b>A total of 44 genes were identified to be differential expressed in rNPC. Thirty-six genes were down regulated, 8 genes were up regulated. Functional classification of down-regulation genes showed that most genes (10 genes, 27.8%) belonged to the enzyme activity genes, followed by calcium ion binding genes (7 genes, 19.4%), protein binding genes (5 genes, 13.9%), receptor activity genes (4 genes, 11.1%), ATP binding genes (2 genes, 5.6%), transcription factor genes (2 genes, 5.6%), extracellular matrix binding and growth factor binding have 1 gene respectively (each accounted for 2.8%). In addition, the functions of 4 genes (11.1%) were unknown. Functional classification of up-regulation genes showed most genes (3 genes, 37.5%) were unknown, followed enzyme activity genes (2 genes, 25.0%), receptor activity, calcium ion binding and voltage-gated ion channel activity genes have 1 genes respectively (each accounted for 12.5%). These genes were localized randomly on the most the chromosomes, with a majority of them localized on chromosomes 1, 17. Chromosome 1 contained the most differentially expressed genes (10, 22.7%), followed by chromosomes 17 (5, 11.3%).</p><p><b>CONCLUSIONS</b>The differential expressed genes in rNPC were supposed to be randomly distributed on most chromosomes, but the majorities were found on chromosomes 1, 17. Abnormality in three groups of genes, including in enzyme activity, calcium ion binding and protein binding associate genes, might play important roles in rNPC. Those genes need to be further studied.</p>

Construction of recombinant retroviruses expressing anti-CD20 scFv/CD80 /CD28/zeta gene and expression in Jurkat cell line / 中国应用生理学杂志

<p><b>AIM</b>To construct recombinant retroviruses expressing anti-CD20 scFv/CD80/CD28/zeta gene and detect its expression in Jurkat cells.</p><p><b>METHOD</b>CD28-zetacDNA were amplified from plasmids pBULLET and inserted into pLNCX vector that contained anti-CD20 scFv/CD80 gene. The recombinant plasmids were transfected into PA 317 cells. Retroviruses were harvested from culture medium of PA 317 cells. Then NIH 3T3 were transfected with retroviruses. Objective gene expression was determined by PCR and FACS. Jurkat cells were transfected with high titer of retroviruses and resistant clones were obtained by G418 selection. Objective mRNA was determined by RT- PCR.</p><p><b>RESULTS</b>The recombinant eukaryotic vector was constructed successfully by PCR and enzyme digestion analysis and objective gene was amplified from NIH 3T3 cells transfected with retroviruses by PCR; FACS showed that objective protein could be expressed in NIH 3T3 cells. Objective gene was amplified from Jurkat cells transfected with retroviruses by RT-PCR.</p><p><b>CONCLUSION</b>Recombinant retrovirus expressing anti-CD20 scFv/CD80/CD28/zeta gene was successfully constructed and objective protein could be expressed in Jurkat cells.</p>

Effects of matrine on the apoptosis and expression of adhesion molecule in multiple myeloma RMPI8226 cells / 中国实验血液学杂志

To investigate the effects of matrine on apoptosis and expression of adhesion molecules in human multiple myeloma cell line RPMI8226 cells, RPMI8226 cells were incubated with indicated concentrations of matrine. The growth of RPMI8226 cells was observed by CCK-8 colorimetric assay and apoptosis was detected by flow cytometry using Annexin V-FITC/PI staining. The cell cycles were analyzed by PI staining. Flow cytometry using Annexin V-FITC/PI staining was used to detect the expression of cell adhesion molecules, including CD44, CD44v6, CD54 and CD106. The results showed that RPMI8226 cell viability in presence of matrine decreased markedly in a dose- and time-dependent manners. The apoptosis could be induced by matrine and its level increased following the augmentation of the drug concentration. After treated by matrine for 48 hours, a concentration-dependent increase of cells in G(0)/G(1) phase and a decrease in S phase could be detected, but no obvious change of cell count was found in G(2)/M phase. Treatment of RPMI8226 cells with matrine for 48 hours resulted in decrease of expression levels of CD44 and CD54, while expressions of CD44v6 and CD106 had no significant change. It is concluded that matrine induces in vitro apoptosis, suppresses proliferation in multiple myeloma cells and depresses expression of some adhesion molecules.

Correlation between DNA methylation of the ABO gene promoter CpG island and leukemia / 中国实验血液学杂志

Recent studies have found that ABO blood group antigen is also closely related to the onset and development of many diseases. More and more attention is being paid to the decrease of A/B blood group antigen caused by some tumors. This study was purpose to investigate the correlation between DNA methylation of the ABO gene promoter CpG island and leukemia. The relative contents of ABH antigen on the surface of RBC from kinds of blood disease patients and healthy individuals were detected by using flow cytometry and confocal laser scanning microscopy. The DNA sequences and CpG methylation of ABO gene promoter in patients with hematopathy and healthy individuals, as well as the -102 site methylation of ABO gene promoter in patients with hematopathy and healthy individuals were detected by PCR and MSP-PCR respectively. The results showed that RBC from leukemia patients displayed different degree of A/B antigen decrease. The sequences of ABO gene promotor of patients with hematopathy were not different from healthy individuals indicating high conservation of promoter sequences. Comparison of sequences between patients with hematopathy and healthy individual indicated that CpG islands on ABO gene promoter either from blood disease patients or from healthy individual had no methylated site in AA patients, but C residues at position -102, -101, -100, -99 and -97 on the promoter of ABO gene in AML, CML, ALL and some MDS patients were methylated. It is concluded that methylation of CpG islands in promoter of ABO gene may result in AB antigen decrease in patients with leukemia. The methylation sites -102, -101, -100, -99 and -97 may be specific for leukemia. The methylation of site -102 can be used as a molecular marker in differential diagnosis for leukemias.

Construction of anti-cD20scFv/CD80/CD28/zeta recombinant gene modified T cell and research on its targeting cytotoxicity / 中华血液学杂志

<p><b>OBJECTIVE</b>To construct anti-CD20scFv/CD80/CD28/zeta recombinant gene modified T cells, test its effectiveness of eradicating CD20+ lymphoma cells and provide a probably new approach to tumor adoptive immunotherapy.</p><p><b>METHODS</b>CD28-zeta cDNA were amplified from vector pBULLET and inserted into pLNCX vector that contained anti-CD20scFv/CD80 gene. The recombinant vectors were transduced into PA317 cells and high titer retroviruses were obtained to infect human peripheral blood T lymphocytes. Resistant T cells were obtained by G418 selection at one week. Then transduced T lymphocytes and lymphoma cell lines Daudi Raji were cocultured. The cytotoxicity and cytokine production of transduced T cells were determined by non-radio-activation cytotoxicity assay and ELISA respectively.</p><p><b>RESULTS</b>The recombinant eukaryotic vector was constructed successfully as proved by enzyme digestion analysis and sequencing. These T cells were able to lyse CD20+ target cells and secrete high levels of IL-2 and IFN-gamma in vitro.</p><p><b>CONCLUSION</b>Recombinant gene modified T cells can be constructed successfully. It can specially kill CD20 positive lymphoma cells in vitro.</p>

B to O erythrocyte conversion by the recombinant alpha-galactosidase / 中华医学杂志(英文版)

<p><b>BACKGROUND</b>Human group O red blood cells have great benefit in specialized transfusion areas such as armed conflict and natural calamity. The group B antigen differs structurally from group O antigen only by the addition of one terminal alpha-linked galactose residue. In this study we aimed to remove the terminal galactose from group B red blood cell to get group O red blood cell.</p><p><b>METHODS</b>alpha-galactosidase cDNA was cloned by RT-PCR from Catimor coffee beans grown on Hainan Island of China. The vector for alpha-galactosidase cDNA expression was constructed and transferred into Pichia pastoris cells by electroporation. The transgenic cells were cloned by fermentation and the recombinant alpha-galactosidase was purified by ion exchange chromatography. After studying the biochemical characters of alpha-galactosidase, we have used it in converting human erythrocytes from group B to group O.</p><p><b>RESULTS</b>The purity of recombinant alpha-galactosidase was higher than 96%, which was thought to be suitable for the use of blood conversion. Enzymatically converted human group O red blood cells (ECHORBC) exhibited membrane integrity, metabolic integrity, normal cell deformation and morphology. There were no coagulation between ECHORBC and any group of human blood. The ECHORBC will keep normal structure and function for a period of 21 days at 4 degrees C in monoammoniumphosphate nutrient solution. Experiments with Rhesus monkeys and gibbons showed that transfusion of enzymatically converted erythrocytes was safe.</p><p><b>CONCLUSION</b>ECHORBC can be easily obtained from group B red blood cell by alpha-galactosidase digestion. This study suggests that ECHORBC could be transfused to patients safely and efficiently.</p>

Rh antigen stability of mPEG modified red blood cells / 中国实验血液学杂志

The objective of study was to investigate the Rh antigen stability of mPEG-modified RBC. RBC membrane protein SDS-PAGE technology was used to analyze the combination of the mPEG modified RBC membrane protein with mPEG molecules; the RBC ghost coagulation test and 4 degrees C CPD-preserved modified RBC mixed with matched blood were used to observe the stability of RBC Rh antigen camouflaged by mPEG. The results showed that the blood groups of stored mPEG-modified RBC were kept consistency before or after simulating transfusion, i.e. mixture of modified RBC with matched bloods, while the plasma hemoglobin after simulating transfusion was not only within the normal range during the storage, but also less than that before simulating transfusion even after incubation at 37 degrees C. The electrophoresis pattern stained with iodine and Coomassie blue displayed the bands of mPEG combined with RBC membrane protein and the slow mobility of membrane protein. The hemagglutination of PEGylation RBC ghosts did not take place and mPEG still covered the antigen. In conclusion, mPEG-SPA can bind the erythrocyte with its extracted membrane protein in both ghosts and living erythrocytes.

Preliminary study on xenotransfusion from porcine red blood cell into Rhesus monkey / 中国实验血液学杂志

In order to study the possibility of xenotransfusion from porcine red blood cell (pRBC) to primate, the antigens on pRBC surface were modified to make it more compatible to primate sera. Porcine RBCs were subjected to both enzymatic removal of membrane alpha-Gal antigens with recombinant alpha-galactosidase (AGL) and covalent attachment of succinimid propionate-linked methoxypolyethyleneglycol (mPEG-SPA) to camouflage non-alphaGal antigens. The effects of double modifications were determinated by hemagglutination and clinical cross-match testing with rhesus sera. In vivo clearance rates and safety of modified pRBCs were measured after it was transfused into Rhesus monkey with or without immunosuppressant treatment. The validity of pRBC was detected in exsanguine Rhesus monkey model. The results showed that AGL could effectively remove alpha-Gal xenoantigens on pRBC membrane and reduce hemagglutination. The combination of mPEG modification with AGL treatment could significantly increased compatibility between pRBCs and Rhesus monkey sera. Modified pRBCs were detectable in Rhesus monkey blood at 12 hours after transfusion, and their survival time was 40 hours in the immunosuppressant-treated Rhesus monkey. In vivo survival rates of pRBCs were 38% in exsanguine Rhesus monkey at 8 hours after transfusion, and during that time, the hemoglobin and hematocrit of Rhesus monkey were maintained at the same level as before it lost blood. It is concluded that the modified pRBC can be safely transfused into Rhesus monkey and relieve the anemic symptom exsanguine Rhesus monkey. It suggested that pRBC can be hopefully used as a blood substitute for primate and human in the future.

Animal trials for mPEG-modified red blood cells / 中国实验血液学杂志

This study was aimed to investigate the survival rate and difference of transfused modified and unmodified RBC at 24 hours. The modified and unmodified RBC from mice, monkey, pig and human were labeled by using FITC, then these blood RBCs were transfused to homogeneous and heterogeneous animals. The result showed that 24 hour survival rate of unmodified mice RBC transfused to mice was 74%, while survival rate of 2.0 mmol/L mPEG-SPA modified mice RBC transfused to mice was 45%, difference between them was significant. The 24 hour survived rate of unmodified human RBC transfused to mice was 8%, while 24 hours survival rate of 2.0 mmol/L mPEG-SPA modified human RBC transfused to mice was 5% without statistical difference. The 24 hour survived rate of homogeneous transfusion of modified monkey RBC was 90%, while survival rate of modified human and pig RBC was zero on 24 hours after transfusion to monkey. It is concluded that RBC labeling methods and mice species are unrelated to 24 hours survival rate, but mPEG variety and concentration are related to mouse RBC life-span. It is incredible to use mouse RBC homogeneous transfusion result instead of human RBC to evaluate longevity and safety of modified human RBC. But modified human RBC transfused to mice can be a model to evaluate longevity of modified human RBC. It is very difficult to get the result about modified RBC life span by RBC transfusion among great heterogeneous mammal animals. So evaluation in large mammal animal models needs to be further studied.

A pilot study on establishment of human/pig hematopoietic chimera model in fetal and neonatal pigs / 中国实验血液学杂志

This study was aimed to explore the feasibility of transplanting human cord blood stem cells (HSC) into pre-immune fetal and neonatal pigs, and to investigate the self-renewal of HSC in the recipient pigs. The fetus and neonate were manipulated in sterile separated room and human donor cells were injected into fetus via fetus muscle or umbilical vein (dissectted womb) or into neonate via umbilical vein before cutting it. Human CD45(+) cells s were detected by labeling with human anti-CD45 antibody and analyzed by fluorescence activated cell sorting (FACS). The results showed that tested pigs developed as well as control and a definite proportion of human cells existed in peripheral blood of chimeric pig on day 60 after transplantation. In conclusion, the fetus and neonate pigs can tolerate a definite proportion of human antigens, and to establish the human/pig model of hematopoietic chimerism is possible.

Comparison of modification of surface xenoantigens on bovine and porcine erythrocytes / 中国实验血液学杂志

This study was aimed to explore impact of removal of cell membrane G alalpha1-3Gal beta1-4Glc NAc epitopes (called alpha-Gal) and chemical modification of other xenoantigen on bovine red blood cell (bRBC) and porcine red blood cell (pRBC) antigenicity and to compare their modified erythrocytes, in order to provide basis for development of human blood substitute with rich source, high safety and efficacy. bRBC and pRBC were subjected to both enzymatic removal of membrane alpha-Gal with recombinant coffee bean alpha-galactosidase (rC alpha-GalE) and covalent attachment of benzotriazole carbonate-linked methoxypolyethylene glycol (mPEG-BTC, MW = 20 kD). The effects of treatment were measured by hemagglutination, flow cytometric assay of IgG binding and clinical cross-match testing to human sera. The results showed that although alpha-galactosidase treatment reduced hemagglutination titers to levels similar to negative control, the combination of the treatments was most effective. Clinically used cross-match tests between bRBC, pRBC and human sera demonstrated increased compatibility. Bovine RBC were more robust than pRBC, and had less xenoantigens, and had longer half life than pRBC in vivo. These characteristics suggested that bRBCs were more suitable to investigation as an alternatives to hRBC in clinical transfusion than pRBC. These data suggested that strategies to remove or mask xenoantigens on bRBC reduce antigenicity sufficiently to allow in vitro cross-match compatibility to human sera, and therefore bRBC following modification may be considered as human blood substitute.

Preliminary study on conversion of RhD positive red blood cells to RhD negative by modification with methoxy polyethylene glycol / 中国实验血液学杂志

Rh is a very important blood group like ABO blood system in transfusion medicine. It causes severe transfusion reaction and hemolytic disease of the newborn (HDN) if RhD blood group does not match between the donor and the recipient. The population of RhD negative is only about 0.2% - 0.5% in Chinese. Conversion of RhD positive RBCs to RhD negative is very important in clinical transfusion. This study was to try to modify RhD antigen located on the surface of A, B, O and AB red blood cells in order to convert RhD positive to RhD negative by the modification of four kinds of methoxypolyethylene glycol (mPEG) derivatives and to observe the effect of mPEG modification on cell morphology, structure and function. The result demonstrated that modification efficiency of mPEG-BTC (mPEG-benzotriazole carbonate) was better than other three kinds of mPEG derivatives. It could camouflage RhD antigen efficiently when the concentration reached to 1 mmol/L. The result also showed that there were no harmful effects of mPEG modification on cell morphology, osmotic fragility, hemolysis, AchE, cholesterol, ATP, 2,3-DPG and deformability. It is suggested that success in converting RhD positive RBCs to RhD negative was preliminarily achieved.