SUMMARY BackgroundIt is controversial whether proton pump inhibitor use leads to fundic gland polyp development.
To investigate whether altered megakaryocyte morphology contributes to reduced platelet production in idiopathic thrombocytopenic purpura (ITP), ultrastructural analysis of megakaryocytes was performed in 11 ITP patients. Ultrastructural abnormalities compatible with (para-)apoptosis were present in 78% ؎ 14% of ITP megakaryocytes, which could be reversed by in vivo treatment with prednisone and intravenous immunoglobulin. Immunohistochemistry of bone marrow biopsies of ITP patients with extensive apoptosis showed an increased number of megakaryocytes with activated caspase-3 com- IntroductionIdiopathic, or immune, thrombocytopenic purpura (ITP) is an autoimmune disease characterized by isolated thrombocytopenia in an otherwise healthy person. The thrombocytopenia in ITP is caused by accelerated platelet destruction due to the action of antiplatelet immunoglobulin G (IgG) autoantibodies that bind to antigens on the platelet cell membrane. The platelets are subsequently destroyed by tissue macrophages, predominantly in the spleen. 1 As a result of the accelerated destruction, platelet survival is usually greatly shortened and platelet production is thought to be compensatorily increased. 2,3 However, there is also evidence that platelet production can be impaired in ITP. This was demonstrated in platelet kinetic studies using radiolabeled platelets. [4][5][6] The reduced platelet production rate might be mediated by the action of antiplatelet antibodies, which can bind to megakaryocytes in the bone marrow. [7][8][9] Recent in vitro studies support this concept showing that human megakaryocyte colony formation and proplatelet formation is inhibited 10 and that a reduced expansion of megakaryocytic progenitors can be observed especially in the presence of certain antiplatelet glycoprotein antibodies. 11 However, despite the evidence of a reduced platelet production in several ITP patients, numbers of megakaryocytes in the bone marrow are usually normal or increased. 6 This is compatible with the finding that plasma thrombopoietin (TPO) levels in ITP patients are not significantly different from healthy controls, indicating that the total megakaryocytic mass has not been changed in ITP. Investigating the relationship between thrombokinetic parameters and the glycocalicin index (GCI), a parameter of platelet destruction, 12 we recently demonstrated that there is an inverse correlation between the platelet production rate and the GCI. 13 These results suggest that despite the normal number of megakaryocytes in the bone marrow an increased destruction of platelets and/or megakaryocytes might occur. These findings support the concept of ineffective thrombopoiesis in the bone marrow. To investigate whether apoptosis or other forms of programmed cell death are responsible for this ineffective thrombopoiesis, we examined the ultrastructure of bone marrow megakaryocytes from ITP patients with electron microscopy. The results demonstrate that, independent of the refractoriness of ITP to therapy, in all patients most bone ma...
ISRCTN46462267 ( http://www.controlled-trials.com).
Recombinant human (rh) TNF-related apoptosis-inducing ligand (TRAIL) harbors potential as an anticancer agent. RhTRAIL induces apoptosis via the TRAIL receptors TRAIL-R1 and TRAIL-R2 in tumors and is non-toxic to nonhuman primates. Because limited data are available about TRAIL receptor distribution, we performed an immunohistochemical (IHC) analysis of the expression of TRAIL-R1, TRAIL-R2, the anti-apoptotic TRAIL receptor TRAIL-R3, and TRAIL in normal human and chimpanzee tissues. In humans, hepatocytes stained positive for TRAIL and TRAIL receptors and bile duct epithelium for TRAIL, TRAIL-R1, and TRAIL-R3. In brains, neurons expressed TRAIL-R1, TRAIL-R2, TRAIL-R3 but no TRAIL. In kidneys, TRAIL-R3 was negative, tubuli contorti expressed TRAIL-R1, TRAIL-R2, and TRAIL, and cells in Henle's loop expressed only TRAIL-R2. Heart myocytes showed positivity for all proteins studied. In colon, TRAIL-R1, TRAIL-R2, and TRAIL were present. Germ and Leydig cells were positive for all proteins studied. Endothelium in liver, heart, kidney, and testis lacked TRAIL-R1 and TRAIL-R2. In alveolar septa and bronchial epithelium TRAIL-R2 was expressed, brain vascular endothelium expressed TRAIL-R2 and TRAIL-R3, and in heart vascular endothelium only TRAIL-R3 was present. Only a few differences were observed between human and chimpanzee liver, brain, and kidney. In contrast to human, chimpanzee bile duct epithelium lacked TRAIL, TRAIL-R1, and TRAIL-R3, lung and colon showed no TRAIL or its receptors, TRAIL-R3 was absent in germ and Leydig cells, and vascular endothelium showed only TRAIL-R2 expression in the brain. In conclusion, comparable expression of TRAIL and TRAIL receptors was observed in human and chimpanzee tissues. Lack of liver toxicity in chimpanzees after rhTRAIL administration despite TRAIL-R1 and TRAIL-R2 expression is reassuring for rhTRAIL application in humans.
Tumour necrosis factor-related apoptosis-inducing ligand (TRAIL) induces apoptosis in tumour cell lines. Four membrane-bound receptors for TRAIL have been identified, two apoptosis-mediating receptors, DR4 and DR5, and two apoptosis-inhibiting receptors, DcR1 and DcR2. The aim of this study was to examine the role of TRAIL and its receptors in colorectal cancer development. The immunohistochemical expression and localization of TRAIL and its receptors were investigated in normal mucosa (n=10), adenomas (n=19), and carcinomas (n=21). Correlations between the expression of TRAIL and its receptors and the degree of apoptosis (assessed by M30 expression) and histopathological characteristics were explored. TRAIL and its receptors were expressed in normal mucosal epithelium. Expression of the receptors was seen in adenomas and carcinomas. TRAIL expression was lost in a subset of colorectal tumours, more frequently in carcinomas than in adenomas (p<0.05). DR4 and DR5 staining was stronger in neoplastic cells than in normal cells and was accompanied by a higher degree of apoptosis. No differences were found between tumour and normal cells regarding DcR1 and DcR2 expression. No correlations were found between TRAIL or TRAIL receptor expression and histopathological characteristics. In conclusion, marked changes were seen in the course of the adenoma-carcinoma sequence with respect to the expression of TRAIL and TRAIL receptors DR4 and DR5. The stronger expression of DR4 and DR5 in neoplastic cells than in normal cells, together with a higher degree of apoptosis, suggests a possible functional role for these receptors in apoptosis induction in neoplastic colorectal cells.
OBJECTIVE: Serrated polyposis syndrome (SPS) is accompanied by an increased risk of colorectal cancer (CRC). Patients fulfilling the clinical criteria, as defined by the WHO, have a wide variation in CRC risk. We aimed to assess risk factors for CRC in a large cohort of patients with SPS and to evaluate the risk of CRC during surveillance. DESIGN: In this retrospective cohort analysis, all patients with SPS from seven centres in the Netherlands and two in the UK were enrolled. WHO criteria were used to diagnose SPS. Patients who only fulfilled WHO criterion-2, with IBD and/or a known hereditary CRC syndrome were excluded. RESULTS: In total, 434 patients with SPS were included for analysis; 127 (29.3%) were diagnosed with CRC. In a per-patient analysis ???1 serrated polyp (SP) with dysplasia (OR 2.07; 95% CI 1.28 to 3.33), ???1 advanced adenoma (OR 2.30; 95% CI 1.47 to 3.67) and the fulfilment of both WHO criteria 1 and 3 (OR 1.60; 95% CI 1.04 to 2.51) were associated with CRC, while a history of smoking was inversely associated with CRC (OR 0.36; 95% CI 0.23 to 0.56). Overall, 260 patients underwent surveillance after clearing of all relevant lesions, during which two patients were diagnosed with CRC, corresponding to 1.9 events/1000 person-years surveillance (95% CI 0.3 to 6.4). CONCLUSION: The presence of SPs containing dysplasia, advanced adenomas and/or combined WHO criteria 1 and 3 phenotype is associated with CRC in patients with SPS. Patients with a history of smoking show a lower risk of CRC, possibly due to a different pathogenesis of disease. The risk of developing CRC during surveillance is lower than previously reported in literature, which may reflect a more mature multicentre cohort with less selection bias
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