These results add support to the hypothesis that the accumulation of collagen seen in gingival overgrowth can be explained by a cyclosporin-induced inhibition of collagenolytic activity within the gingival tissues.
Venous thromboembolism (VTE) is a frequent complication in individuals with cancer and is considered to be a cause of substantial mortality. Epidemiological studies identify malignancy as an independent VTE risk factor and show that cancer patients are at increased risk of both initial and recurrent VTE events. The risk due to cancer is compounded by the effects of chemotherapy and other treatments. The pathogenesis of cancer-associated VTE is complex involving multiple interactions between tumours and various components of haemostasis. The development of a systemic hypercoagulable state is considered a key pathogenetic feature and is attributed to tumour expression of tissue factor and other procoagulants, activation of vascular cells by tumour-derived cytokines and adhesive interactions between tumour cells and host cells. An increasing body of evidence indicates that the activation of haemostasis in malignant disease contributes to tumour growth and progression by stimulation of intracellular signalling pathways. The interaction of tissue factor, thrombin and other coagulation factors with protease activated receptor (PAR) proteins expressed by tumour cells and host vascular cells leads to the induction of genes related to the processes of angiogenesis, cell survival and cell adhesion and migration.
Summary. Gene expression profiles during erythropoietin (Epo)-induced differentiation of erythroid progenitor cells derived from the Friend virus anaemia (FVA) and phenylhydrazine (PHZ) murine models have been examined using differential display polymerase chain reaction (PCR). Ten cDNA fragments upregulated by Epo were isolated. The ribonuclease protection assay confirmed differential expression between Epo-stimulated and Epo-deprived cells for one of these, provisionally named ERIC-1. Sequencing of the fulllength cDNA predicted a protein of 558 amino acids, 17 amino acids longer than mTACC3, the third member of a novel family of proteins that contain a coiled-coil domain. The human homologue, cloned using rapid amplification of cDNA ends (RACE)-PCR, encodes a larger protein of 838 amino acids that is identical to hTACC3. In addition to erythroid precursor cells, ERIC-1/TACC3 is expressed at high levels in the testes, at moderate levels in the thymus and peripheral leucocytes, and at lower levels in the spleen and intestinal tissue. Immunohistochemical analysis using an antibody to a GST fusion product of the C-terminus of hERIC-1/TACC3 revealed that it is localized to Sertoli cells in the human testes. Confocal microscopy demonstrated hERIC-1/TACC3 protein concentrated in the perinuclear vesicles of dermal microvascular endothelial cells. Although ERIC-1/TACC3 is expressed in a wide range of tissues, its upregulation by Epo in erythroid progenitors implies that it has a role in terminal erythropoiesis.
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