A link between hyperthyroidism and pulmonary hypertension has been reported, but the underlying mechanisms of these two conditions have not been clearly identified. The aim of this study was to determine the clinical correlates of pulmonary hypertension in patients with Graves’ disease. Among 50 consecutive patients with Graves’ disease referred for echocardiography, 18 patients (36 %) had pulmonary hypertension measured by continuous-wave Doppler echocardiography (pulmonary artery systolic pressure >35 mmHg). The patients with pulmonary hypertension had significantly higher pulmonary vascular resistance (PVR), cardiac output and thyroid-stimulating hormone receptor antibody (TRAb) compared to those without (p < 0.001, p = 0.028 and p < 0.001, respectively). Pulmonary artery systolic pressure had a good correlation with TRAb (r = 0.74, p < 0.001), but was not related to free T4 (r = 0.12, p = 0.419) and free T3 (r = 0.22, p = 0.126). To determine the important variables present in patients with Graves’ disease that may be related to pulmonary artery systolic pressure, 4 variables (PVR, cardiac output, TRAb and free T3) were used in the multivariate analysis. In addition to PVR (standard regression coefficient = 0.831, p < 0.001) and cardiac output (standard regression coefficient = 0.592, p < 0.001), TRAb (standard regression coefficient = 0.178, p < 0.001) emerged as a significant variable related to pulmonary artery systolic pressure. Thus, in addition to the effect of thyroid hormone on the cardiovascular system, autoimmune-mediated pulmonary vascular remodeling may play a role in Graves’ disease-linked elevated pulmonary artery systolic pressure.
Helicobacter pylori (H. pylori), a gram-negative spiral bacterium, colonizes the human stomach and establishes a persistent infection associated with gastrointestinal inflammatory diseases including peptic gastric ulcer, duodenal ulcer, gastric cancer (31) and gastric mucosa-associated lymphoid tissue (MALT) lymphoma (2). The diversity or adaptive mutation in H. pylori genes like babA (1) generally alters the biological aspect of the microbe to response to individual conditions and eventually establishes a persistent infection in the human stomach. We previously reported that cdrA, a unique gene of H. pylori, has a repressive function on cell division. A wild-type strain HPK5 formed multinuclear filamentous cells in the early stationary phase and adopted coccoid forms in the stationary phase when grown in a high-salt level medium. On the other hand, a cdrA-disrupted mutant HPKT510 did not show such an abnormality and remained as short rods under the same conditions (30). By microarray analysis, the cdrA gene was found to be lost in 3 out of 4 colonies recovered
In IL-5 transgenic mice (C3H/HeN-TgN(IL-5)-Imeg), in which 50% of peripheral blood leukocytes are eosinophils, the development of infection by Leishmania amazonensis was clearly suppressed. To determine mechanistically how this protozoan parasite is killed, we performed in vitro killing experiments. Either IL-4 or IFN-gamma effectively stimulated eosinophils to kill Leishmania amazonensis promastigotes, and most of the killing was inhibited by catalase but not by the NO inhibitor L-N5-(1-iminoethyl)-ornithine, suggesting that hydrogen peroxide is responsible for the killing of L. amazonensis by eosinophils. There was no significant degranulation of eosinophils in the culture, because eosinophil peroxidase was not detected in culture supernatants when L. amazonensis promastigotes were killed by activated eosinophils. Such resistance was also observed in BALB/c mice, which are highly susceptible to L. amazonensis. Expression plasmids for IL-4, IL-5, and IFN-gamma were transferred into muscle by electroporation in vivo starting 1 week before infection. Expression plasmid for IL-5 was most effective in slowing the development of infection among three expression plasmids. Expression plasmid for IL-4 was slightly effective and that for IFN-gamma had no effect on the progress of disease. These results suggest that IL-5 gene transfer into muscle by electroporation is useful as a supplementary protection method against L. amazonensis infection.
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