Clinical Pathology - Research Publications
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ItemNo Preview AvailablePlasmodium Falciparum: Cytoadherence occurring in the absence of knobs uses the thrombospondin receptor (CD36)(Elsevier BV, 1990)P. falciparum is the cause of the lethal form of malaria which results in thousands of deaths each year. The primary cause of death, cerebral malaria, is associated with the sequestration of erythrocytes infected with the mature stages of P. falciparum (trophozoites and schizonts) in the post capillary venules of the brain. The identification of the parasite protein(s) involved in this process will provide important vaccine candidate molecules and knowledge about the pathological processes involved in cell-cell adhesion in general. The mechanism of cytoadherence is studied in vitro using cultured lines of P. falciparum which bind to umbilical vein endothelial cells and C32 amelanotic melanoma cells. Mature stages of the parasite may induce knob-like protrusions in the erythrocyte membrane, and it was previously thought that ‘knobs’ were necessary although not sufficient for cytoadherence to occur both in vitro and during natural infection. We have derived a clone of the Brazilian isolate of P. falciparum, ITG2F6, and selected for cytoadherence by repeated passage over amelanotic melanoma cells. Chromosome analysis using pulsed-field gradient electrophoresis and DNA amplification using the polymerase chain reaction reveal that this clone has deleted the gene coding for knobs. Furthermore, cytoadherence which is independent of knobs occurs via the receptor for the platelet protein, thrombospondin.
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ItemAntigen-driven B cell differentiation in vivo.(Rockefeller University Press, 1993-07-01)The secretion of specific antibodies and the development of somatically mutated memory B cells in germinal centers are consequences of T cell-dependent challenge with the hapten (4-hydroxy-3-nitrophenyl)acetyl (NP). Using six-parameter flow cytometry and single cell molecular analysis we can directly monitor the extent of somatic hypermutation in individual responsive (isotype switched) antigen-specific B cells. The current study provides a direct quantitative assessment of recruitment into the antibody-secreting compartment on the one hand, and the germinal center pathway to memory on the other. Cellular expansion in both compartments is exponential and independent during the first week after challenge. The first evidence of somatic mutation, towards the end of the first week, was restricted to the germinal center pathway. Furthermore, germinal center cells express a significantly shorter third hypervariable region (CDR3), even when unmutated, than their antibody-secreting counterparts, suggesting a secondary selection event may occur at the bifurcation of these two pathways in vivo. By the end of the second week, the majority of mutated clones express a shorter CDR3 and affinity-increasing mutations as evidence of further selection after somatic mutation. These data provide evidence for substantial proliferation within germinal centers before the initiation of somatic mutation and the subsequent selection of a significant frequency of mutated clonotypes into the memory compartment.
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Itemc-Ki-ras gene mutations in dysplasia and carcinomas complicating ulcerative colitis.(Springer Science and Business Media LLC, 1991-07)One hundred and nine samples comprising carcinomas, adenomas, dysplastic, inflamed and normal mucosa from patients with sporadic colon cancer and ulcerative colitis (UC) were analysed for c-Ki-ras mutations. DNA was extracted from archival paraffin-embedded material, amplified using the polymerase chain reaction (PCR) and the PCR products analysed using restriction enzyme digestion. Forty-two per cent (14/33) of the sporadic carcinoma controls contained Ki-ras codon 12 mutations in contrast to 24% (8/33) of ulcerative colitis carcinomas. A significantly higher c-Ki-ras mutation rate was observed in rectal carcinomas (72%) in comparison to colonic carcinomas (28%) in control patients (P less than 0.04), while the opposite was observed in UC patients. The difference between the incidence of c-Ki-ras mutations in rectal carcinomas in UC (9%) and in sporadic rectal carcinomas (72%) was also significant (P less than 0.01). This lower prevalence rate and different site distribution of c-Ki-ras mutations in UC carcinomas compared to sporadic carcinomas suggests that specific genetic differences may underlie the causation of carcinomas arising in these situations.
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ItemRapid detection of allele loss in colorectal tumours using microsatellites and fluorescent DNA technology.(Springer Science and Business Media LLC, 1993-06)In order to investigate allele loss in colorectal tumours we have developed a rapid technique which overcomes most of the problems associated with radioactive Restriction Fragment Length Polymorphism (RFLP) analysis of allele loss. We utilise microsatellite length polymorphisms which are highly informative and are closely linked to loci of interest. Sequences containing microsatellites can be amplified from normal and tumour DNA pairs by a polymerase chain reaction (PCR) in which one of the primers is fluorescently labelled. This enables us to detect the products on polyacrylamide gels run on an automated DNA sequencer using dedicated software, by which results are automatically quantitated in terms of peak size, height, and area. Using this technique we have analysed 26 normal tissue: cancer pairs for allele loss at two loci linked to the adenomatous polyposis coli (APC) gene on chromosome 5q. Repeated assays yielded identical results for each pair. Allele loss was found in 10 out of 25 informative samples (40%).
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ItemRECOMBINANT SOLUBLE HUMAN FC-GAMMA-RII - PRODUCTION, CHARACTERIZATION, AND INHIBITION OF THE ARTHUS REACTION(ROCKEFELLER UNIV PRESS, 1993-11-01)A recombinant soluble form of human Fc gamma RII (rsFc gamma RII) was genetically engineered by the insertion of a termination codon 5' of sequences encoding the transmembrane domain of a human Fc gamma RII cDNA. Chinese hamster ovary cells were transfected with the modified cDNA and the secreted rsFc gamma RII purified from the tissue culture supernatant (to > 95%, assessed by SDS-PAGE) using heat aggregated human immunoglobulin G (IgG) immunoaffinity chromatography. The IgG-purified rsFc gamma RII was relatively homogeneous (approximately 31,000 M(r)) whereas the total unpurified rsFc gamma RII secreted into the tissue culture supernatant was heterogeneous relating to N-linked glycosylation differences. Functional in vitro activity of the rsFc gamma RII was demonstrated by: (a) ability to bind via the Fc portion of human IgG and mouse IgG (IgG2a > IgG1 > > IgG2b); (b) complete inhibition of binding of erythrocytes sensitized with rabbit IgG to membrane-bound Fc gamma RII on K562 cells; and (c) inhibition of the anti-Leu4-induced T cell proliferation assay. Blood clearance and biodistribution studies show the rsFc gamma RII was excreted predominantly through the kidney in a biphasic manner, with an alpha-phase (t1/2 approximately 25 min) and a beta-phase (t1/2 approximately 4.6 h); the kidneys were the only organs noted with tissue-specific accumulation. In vivo, the administration of rsFc gamma RII significantly inhibited the immune complex-mediated inflammatory response induced by the reversed passive Arthus reaction model in rats. There was a specific and dose-dependent relationship between the amount of rsFc gamma RII administered, and the reduction in the size and severity of the macroscopic inflammatory lesion. Histological analysis of the skin showed a diffuse neutrophil infiltrate in both control and rsFc gamma RII-treated rats, however the perivascular infiltrate and the red cell extravasation was less intense in the rsFc gamma RII-treated group. It is likely that complement activation leads to neutrophil chemotaxis, but neutrophil activation via Fc gamma RII, which results in inflammatory mediator release, is inhibited. The data indicate that rsFc gamma RII is a potential therapeutic agent for the treatment of antibody or immune complex-mediated tissue damage.
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ItemDELAYED HEMATOPOIETIC DEVELOPMENT IN OSTEOPETROTIC (OP/OP) MICE(ROCKEFELLER UNIV PRESS, 1993-01-01)Changes in structure, cellularity, hematopoietic progenitor cell and macrophage content, and osteoclast activity were investigated in the hematopoietic organs of the colony-stimulating factor 1(CSF-1)-less osteopetrotic (op/op) mouse. The data indicated that op/op mice undergo an age-related hematopoietic recovery and resolution of osteopetrosis, suggesting that the hematopoietic system has the capacity to use alternative mechanisms to compensate for the absence of an important multifunctional growth factor, CSF-1. In young animals, op/op femurs were heavily infiltrated with bone, and marrow cellularity was significantly reduced. After 6 wk of age, there was an increase in the marrow space available for hematopoiesis. The femoral cavity of op/op mice progressively enlarged, and by 22 wk of age its appearance and marrow cellularity was comparable to that of controls. The percentage of op/op mononuclear phagocytes, defined by F4/80 antigen expression, progressively increased to normal levels by 35 wk of age. There was no difference in the incidence of both primitive and mononuclear phagocyte-committed, CSF-1-responsive progenitor cells in op/op marrow, but their femoral content was significantly reduced in young mice. During the period of reduced hematopoiesis in the marrow of young op/op mice, splenic hematopoietic activity was elevated. This mutant mouse represents a system for the study of the CSF-1-independent regulatory mechanisms involved in hematopoietic regulation.
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ItemOVEREXPRESSION OF MULTIPLE ONCOGENES RELATED TO HISTOLOGICAL GRADE OF ASTROCYTIC GLIOMA(CHURCHILL LIVINGSTONE, 1992-07)The expression of the c-erbB-1, c-myc, Ha/N-ras and c-fos oncogenes was investigated in 62 astrocytomas of low, intermediate and high grades by immunogold silver histochemistry. Elevated expression of c-erbB-1 was observed in 95%, 48% and 86% of low, intermediate and high grade tumours respectively, c-myc in 5%, 33% and 76% respectively, Ha/N-ras in 0, 43% and 71% respectively and c-fos in 55%, 48% and 52% respectively. Controls included normal brain and tumour sections immunoreacted with pre-immune serum or with antisera absorbed with synthetic peptides. Analysis of co-overexpression revealed that low grade tumours co-overexpressed a maximum of two of these genes, intermediate grade tumours a maximum of three of these genes, while co-overexpression of all four genes was observed in some high grade tumours. Co-overexpression of c-erbB-1 and c-fos was frequently observed in low grade astrocytomas and may be predictive of non-progression. On the other hand, there was a statistically significant increase in the number of tumours overexpressing Ha/N-ras or c-myc with increasing grade of tumour, suggesting that overexpression of these two oncogenes may be indicative of progression.