Background-Atherosclerosis is an inflammatory disease in which interferon (IFN)-␥, the signature cytokine of Th1 cells, plays a central role. We investigated whether interleukin (IL)-17, the signature cytokine of Th17 cells, is also associated with human coronary atherosclerosis. Methods and Results-Circulating IL-17 and IFN-␥ were detected in a subset of patients with coronary atherosclerosis and in referent outpatients of similar age without cardiac disease but not in young healthy individuals. IL-17 plasma levels correlated closely with those of the IL-12/IFN-␥/CXCL10 cytokine axis but not with known Th17 inducers such as IL-1, IL-6, and IL-23. Both IL-17 and IFN-␥ were produced at higher levels by T cells within cultured atherosclerotic coronary arteries after polyclonal activation than within nondiseased vessels. Combinations of proinflammatory cytokines induced IFN-␥ but not IL-17 secretion. Blockade of IFN-␥ signaling increased IL-17 synthesis, whereas neutralization of IL-17 responses decreased IFN-␥ synthesis; production of both cytokines was inhibited by transforming growth factor-1. Approximately 10-fold fewer coronary artery-infiltrating T helper cells were IL-17 producers than IFN-␥ producers, and unexpectedly, IL-17/IFN-␥ double producers were readily detectable within the artery wall. Although IL-17 did not modulate the growth or survival of cultured vascular smooth muscle cells, IL-17 interacted cooperatively with IFN-␥ to enhance IL-6, CXCL8, and CXCL10 secretion. Conclusions-Our findings demonstrate that IL-17 is produced concomitantly with IFN-␥ by coronary arteryinfiltrating T cells and that these cytokines act synergistically to induce proinflammatory responses in vascular smooth muscle cells.
Th1 inflammation and remodeling characterized by local tissue destruction coexist in pulmonary emphysema and other diseases. To test the hypothesis that IL-18 plays an important role in these responses, we characterized the regulation of IL-18 in lungs from cigarette smoke (CS) and room air-exposed mice and characterized the effects of CS in wild-type mice and mice with null mutations of IL-18Rα (IL-18Rα−/−). CS was a potent stimulator and activator of IL-18 and caspases 1 and 11. In addition, although CS caused inflammation and emphysema in wild-type mice, both of these responses were significantly decreased in IL-18Rα−/− animals. CS also induced epithelial apoptosis, activated effector caspases and stimulated proteases and chemokines via IL-18Rα-dependent pathways. Importantly, the levels of IL-18 and its targets, cathepsins S and B, were increased in pulmonary macrophages from smokers and patients with chronic obstructive lung disease. Elevated levels of circulating IL-18 were also seen in patients with chronic obstructive lung disease. These studies demonstrate that IL-18 and the IL-18 pathway are activated in CS-exposed mice and man. They also demonstrate, in a murine modeling system, that IL-18R signaling plays a critical role in the pathogenesis of CS-induced inflammation and emphysema.
Liver transplant combined with chemotherapy is an excellent treatment that provides long-term disease-free survival in children diagnosed with advanced HBL and HCC. Early addition to a waiting list and aggressive multimodal therapy provide excellent results. Transplant should still be considered in children with HCC larger than the Milan and University of California, San Francisco, criteria.
Inflammation is associated with the pathogenesis of coronary atherosclerosis, although the mechanisms remain unclear. We investigated whether cytokine secretion by innate immune responses could contribute to the production of proarteriosclerotic Th1-type cytokines in human coronary atherosclerosis. Cytokines were measured by ELISA in the plasma of patients with coronary atherosclerosis undergoing cardiac catheterization. IL-18 was detected in all subjects, whereas a subset of patients demonstrated a coordinated induction of other IFN-γ-related cytokines. Specifically, elevated plasma levels of IL-12 correlated with that of IFN-γ and IFN-γ-inducible chemokines, defining an IFN-γ axis that was activated independently of IL-6 or C-reactive protein. Systemic inflammation triggered by cardiopulmonary bypass increased plasma levels of the IFN-γ axis, but not that of IL-18. Activation of the IFN-γ axis was not associated with acute coronary syndromes, but portended increased morbidity and mortality after 1-year follow-up. IL-12 and IL-18, but not other monokines, elicited secretion of IFN-γ and IFN-γ-inducible chemokines in human atherosclerotic coronary arteries maintained in organ culture. T cells were the principal source of IFN-γ in response to IL-12/IL-18 within the arterial wall. This inflammatory response did not require, but was synergistic with and primed for TCR signals. IL-12/IL-18-stimulated T cells displayed a cytokine-producing, nonproliferating, and noncytolytic phenotype, consistent with previous descriptions of lymphocytes in stable plaques. In contrast to cognate stimuli, IL-12/IL-18-dependent IFN-γ secretion was prevented by a p38 MAPK inhibitor and not by cyclosporine. In conclusion, circulating IL-12 may provide a mechanistic link between inflammation and Th1-type cytokine production in coronary atherosclerosis.
Esophageal and gastric cancers are both common and deadly. Patients present most often after disease progression and survival is therefore poor. Due to demographic variability and recent changes in disease incidence, much emphasis has been placed on studying risk factors for both esophageal and gastric cancers. However, with increasing understanding of these diseases, low survival rates persist and continued intensive studies are necessary to optimize treatment plans. This review article discusses updates in the evolving epidemiology, clinical presentation, risk factors, and diagnostic and treatment modalities of esophageal and gastric cancers.
To elucidate molecular mechanism(s) of cellular response to mercaptopurine, a widely used antileukemic agent, we assessed mercaptopurine (MP) sensitivity in mismatch repair (MMR) proficient and MMR deficient human acute lymphoblastic leukemia (ALL) cells. Sensitivity to thiopurine cytotoxicity was not dependent on MMR (i.e., MutSalpha) competence among six cell lines tested. Using electrophoretic mobility shift assay analysis, we found that the incubation of nuclear extracts from ALL cells with synthetic 34-mer DNA duplexes containing deoxythioguanosine (G(S)) within either G(S).T or G(S).C pairs, resulted in formation of a DNA-protein complex distinct from the DNA-MutSalpha complex and unaffected by ATP. Isolation and sequence analysis of proteins involved in this DNA-protein complex identified glyceraldehyde 3-phosphate dehydrogenase (GAPDH) as a component. Western blot analysis of nuclear extracts from a panel of human lymphoblastic leukemia cell lines revealed markedly different basal levels of GAPDH in nuclei, which was significantly related to thiopurine sensitivity (p = 0.001). Confocal analysis revealed markedly different intracellular distribution of GAPDH between nucleus and cytosol in six human ALL cell lines. Redistribution of GAPDH from cytosol to nucleus was evident after MP treatment. These findings indicate that a new DNA-protein complex containing GAPDH and distinct from known MMR protein-DNA complexes binds directly to thioguanylated DNA, suggesting that this may act as a sensor of structural alterations in DNA and serve as an interface between these DNA modifications and apoptosis.
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