Henrik Zetterquist

Bio: Henrik Zetterquist is an academic researcher from Karolinska Institutet. The author has contributed to research in topics: Transplantation & Cancer. The author has an hindex of 12, co-authored 15 publications receiving 2508 citations.

HLA-DR typing by PCR amplification with sequence-specific primers (PCR-SSP) in 2 hours: an alternative to serological DR typing in clinical practice including donor-recipient matching in cadaveric transplantation.

Abstract: In most PCR-based tissue typing techniques the PCR amplification is followed by a post-amplification specificity step. In typing by PCR amplification with sequence-specific primers (PCR-SSP), typing specificity is part of the amplification step, which makes the technique almost as fast as serological tissue typing. In the present study primers were designed for DR "low-resolution" typing by PCR-SSP, i.e. identifying polymorphism corresponding to the serologically defined series DR1-DRw18. This resolution was achieved by performing 19 PCR reactions per individual, 17 for assigning DR1-DRw18 and 2 for the DRw52 and DRw53 superspecificities. Thirty cell lines and 121 individuals were typed by the DR "low-resolution" PCR-SSP technique, TaqI DRB-DQA-DQB RFLP analysis and serology. The concordance between PCR-SSP typing and RFLP analysis was 100%. The reproducibility was 100% in 40 samples typed on two separate occasions. No false-positive or false-negative typing results were obtained. All homozygous and heterozygous combinations of DR1-DRw18 could be distinguished. Amplification patterns segregated according to dominant Mendelian inheritance. DNA preparation, PCR amplification and post-amplification processing, including gel detection, documentation and interpretation, were performed in 2 hours. In conclusion, PCR-SSP is an accurate typing technique with high sensitivity, specificity and reproducibility. The method is rapid and inexpensive. DR "low-resolution" typing by the PCR-SSP technique is ideally suited for analyzing small numbers of samples simultaneously and is an alternative to serological DR typing in routine clinical practice including donor-recipient matching in cadaveric transplantations.

HLA-DRB1*01 subtyping by allele-specific PCR amplification: a sensitive, specific and rapid technique.

Abstract: The two DR1-associated cellular specificities Dw1 and Dw20, as well as DR'Br' (Dw'BON'), cannot be unequivocally assigned by serological typing or restriction fragment length polymorphism (RFLP) analysis. We have developed and compared two polymerase chain reaction-based (PCR) typing methods for distinguishing these DRB1 alleles; allele-specific amplification of DRB1*01 alleles followed by an agarose gel electrophoresis detection step and group-specific DRB1*01 amplification followed by hybridization with sequence-specific oligonucleotide probes. The two typing strategies gave completely concordant results in the 33 DRB1*01-positive and the 46 DRB1*01-negative individuals and cell lines studied. No false-negative or false-positive typing results were obtained. All possible heterozygous combinations of the DRB1*0101-0103 alleles could be distinguished by both typing methods. DRB1*01 subtyping by allele-specific PCR amplification was performed in less than 3 hours, including PCR amplification, detection and interpretation steps. The technique will be a valuable complement to DR typing by serology and RFLP analysis. Allele-specific DRB1 amplifications or group-specific amplifications followed by directed allele-specific amplifications of DRB1 alleles, typing based on the absence or presence of amplified products, may well prove to be the technical innovation that will firmly establish PCR-based DR typing in routine clinical tissue typing.

Mixed chimerism in the B cell lineage is a rapid and sensitive indicator of minimal residual disease in bone marrow transplant recipients with pre-B cell acute lymphoblastic leukemia.

Abstract: One of the major problems after allogeneic bone marrow transplantation (BMT) is a high frequency of leukemia relapse. We have prospectively studied the presence of donor- and recipient-derived chimeric cells in bone marrow recipients with pre-B cell acute lymphoblastic leukemia (pre-B-ALL). The chimeric status of BMT recipients was compared to minimal residual disease (MRD) detection by analysis of immunoglobulin heavy chain (IgH) and T cell receptor (TcR) genes. Post-transplant blood and bone marrow samples from 12 patients with pre-B-ALL were studied. Five patients showed mixed chimerism (MC) in the CD19-positive cell fraction. Four of them have relapsed to date. The remaining patient with MC in the B cell lineage was also MRD positive in the same samples. All seven patients with donor chimerism in the B cell fraction remain in clinical remission (P = 0.01). In samples from all five patients having MC in the B cell lineage, the patient-specific IgH or TcR rearrangement was also detected. In three of four patients who relapsed, MC in the B cell lineage was seen more than 2.5 months prior to morphologically verified relapse. The results of this comparison suggest that routinely performed MC analysis of the affected cell lineage may facilitate post-BMT monitoring and rapid therapeutic decisions in transplanted patients with pre-B-ALL.

HLA-DR typing by PCR amplification with sequence-specific primers (PCR-SSP) in 2 hours: an alternative to serological DR typing in clinical practice including donor-recipient matching in cadaveric transplantation.

Abstract: In most PCR-based tissue typing techniques the PCR amplification is followed by a post-amplification specificity step. In typing by PCR amplification with sequence-specific primers (PCR-SSP), typing specificity is part of the amplification step, which makes the technique almost as fast as serological tissue typing. In the present study primers were designed for DR "low-resolution" typing by PCR-SSP, i.e. identifying polymorphism corresponding to the serologically defined series DR1-DRw18. This resolution was achieved by performing 19 PCR reactions per individual, 17 for assigning DR1-DRw18 and 2 for the DRw52 and DRw53 superspecificities. Thirty cell lines and 121 individuals were typed by the DR "low-resolution" PCR-SSP technique, TaqI DRB-DQA-DQB RFLP analysis and serology. The concordance between PCR-SSP typing and RFLP analysis was 100%. The reproducibility was 100% in 40 samples typed on two separate occasions. No false-positive or false-negative typing results were obtained. All homozygous and heterozygous combinations of DR1-DRw18 could be distinguished. Amplification patterns segregated according to dominant Mendelian inheritance. DNA preparation, PCR amplification and post-amplification processing, including gel detection, documentation and interpretation, were performed in 2 hours. In conclusion, PCR-SSP is an accurate typing technique with high sensitivity, specificity and reproducibility. The method is rapid and inexpensive. DR "low-resolution" typing by the PCR-SSP technique is ideally suited for analyzing small numbers of samples simultaneously and is an alternative to serological DR typing in routine clinical practice including donor-recipient matching in cadaveric transplantations.

Sarcoidosis

Abstract: 结节病易误诊,据王洪武等~([1])收集国内18篇关于此病误诊的文献,误诊率高达63.2%,当然有误诊就会有误治,如孙永昌等~([2])报道26例结节病在影像学检查诊断的第一印象中拟诊结核5例,其中就有2例完成规范的抗结核治疗,为此应引起临床对本病诊治的重视。

A new model for an etiology of rheumatoid arthritis: smoking may trigger HLA-DR (shared epitope)-restricted immune reactions to autoantigens modified by citrullination.

Abstract: A new model for an etiology of rheumatoid arthritis : smoking may trigger HLA-DR (shared epitope)-restricted immune reactions to autoantigens modified by citrullination.

Pathologic Basis of Disease

Abstract: Pathologic Basis of Diseaseby Stanley L. Robbins is really the fourth edition of hisPathology. Appropriate updating and addition enhance the otherwise identical format, sequence, writing, and illustrations. So many medical students have benefited from this source that it may be the best known general book in the field. I recommend it even more now. Like his former texts, this will be enjoyed for its readability. He clearly lays out a great deal of information. When he includes minutiae, the reasons are clear and one feels that all the material is pertinent. Robbins keeps the whole field in perspective—that is, he does not dwell so long or so heavily on pathologic anatomy or pathogenesis as to tempt the reader to overlook clinical presentation or prognosis. A great strength of the subject of pathology is that it bonds strongly with many other medical sciences and specialties and thus occupies the

Determinants of Viral Clearance and Persistence during Acute Hepatitis C Virus Infection

Abstract: The virological and immunological features of hepatitis C virus (HCV) infection were studied weekly for 6 months after accidental needlestick exposure in five health care workers, four of whom developed acute hepatitis that progressed to chronicity while one subject cleared the virus. In all subjects, viremia was first detectable within 1–2 weeks of inoculation, 1 month or more before the appearance of virus-specific T cells. The subject who cleared the virus experienced a prolonged episode of acute hepatitis that coincided with a CD38+ IFN-γ− CD8+ T cell response to HCV and a small reduction in viremia. Subsequently, a strong CD4+ T cell response emerged and the CD8+ T cells became CD38− and started producing IFN-γ in response to HCV, coinciding with a rapid 100,000-fold decrease in viremia that occurred without a corresponding surge of disease activity. Chronic infection developed in two subjects who failed to produce a significant T cell response and in two other subjects who initially mounted strong CD4+ T cell responses that ultimately waned. In all subjects, viremia was higher at the peak of acute hepatitis than it was when the disease began, and the disease improved during the viremia. These results provide the first insight into the host–virus relationship in humans during the incubation phase of acute HCV infection, and they provide the only insight to date into the virological and immunological characteristics of clinically asymptomatic acute HCV infection, the commonest manifestation of this disease. In addition, the results suggest that the vigor and quality of the antiviral T cell response determines the outcome of acute HCV infection, that the ability of HCV to outpace the T cell response may contribute to its tendency to persist; that the onset of hepatitis coincides with the onset of the CD8+T cell response, that disease pathogenesis and viral clearance are mediated by different CD8+ T cell populations that control HCV by both cytolytic and noncytolytic mechanisms, and that there are different pathways to viral persistence in asymptomatic and symptomatic acute HCV infection.