Rho kinase inhibitor Y-27632 downregulates IL-1ß expression in mice with experimental autoimmune myocarditis.

Autoimmune myocarditis is the limited or diffuse inflammation of the myocardium due to dysfunctional cellular and humoral immunity mechanisms. We constructed mouse models of experimental autoimmune myocarditis (EAM) using peptide MyHC-α614-629. On the day after secondary immunization, the mice were intraperitoneally injected with Rho kinase (ROCK) inhibitor Y-27632. On day 21, the cardiac tissues were harvested and weighed. The hearts of EAM mice were significantly enlarged and whitened. Furthermore, body weight (BW) slowly increased during the treatment period, the heart weight (HW) and the ratio of HW/eventual BW were increased, and inflammatory infiltration and fibrosis were aggravated in the myocardial tissue. Y-27632 treatment improved the aforementioned phenotypic and pathological features of EAM mice. Mechanistic analysis revealed a significant increase in Notch1, Hes1, Jag2, Dil1, Toll-like receptor (Tlr) 2, and interleukin (IL)-1ß expression in the myocardial tissue of EAM mice. Notably, IL-1ß expression was correlated with that of Notch1 and Tlr2. Following Y-27632 treatment, the expression of key target genes of the Notch signaling pathway (Notch1, Hes1, Dil1, and Jag2) and Tlr2 were obviously decreased. Y-27632 treatment also decreased the number of monocytes in the spleen of EAM mice. Thus, ROCK inhibitor Y-27632 exerted a protective effect in EAM mice by downregulating IL-1ß expression. This study aimed to provide a reference point for the future treatment of myocarditis in clinical settings.

Quantitative assessment of myocardial perfusion defects with real-time three-dimensional myocardial contrast echocardiography.

OBJECTIVE: To evaluate the feasibility and accuracy of measurement of myocardial perfusion defects with intravenous contrast-enhanced real-time three-dimensional echocardiography (CE-RT3DE). METHODS: RT3DE was performed in 21 open-chest mongrel dogs undergoing acute ligation of the left anterior descending artery (LAD, n = 14) or distal branch of the left circumflex artery (LCX, n = 7). A perfluorocarbon microbubble contrast agent was injected intravenously to assess the resulting myocardial perfusion defects with Philips Sonos-7500 ultrasound system. Evans blue dye was injected into the occluded coronary artery for subsequent anatomic identification of underperfused myocardium. In vitro anatomic measurement of myocardial mass after removal of the animal's heart was regarded as the control. Blinded off-line calculation of left ventricular mass and perfusion defect mass from RT3DE images were performed using an interactive aided-manual tracing technique. RESULTS: Total left ventricular (LV) myocardial mass ranged from 38.9 to 78.5 (mean +/- SD: 60.0 +/- 10.1) g. The mass of perfusion defect ranged from 0 to 21.4 (mean +/- SD: 12.0 +/- 5.0) g or 0 to 27% of total LV mass (mean +/- SD: 19% +/- 6%). The RT3DE estimation of total LV mass (mean +/- SD: 59.8 +/- 9.9 g) strongly correlated with the anatomic measurement (r = 0.98; y = 2.01 + 0.96x). The CE-RT3DE calculation of the mass of underperfused myocardium (mean +/- SD: 12. 3 +/- 5.3 g) also strongly correlated with the anatomic measurement (r = 0. 96; y = - 0.10 + 1.04x) and when expressed as percentage of total LV mass (r = 0.95; y = -0.20 + 1.04x). CONCLUSIONS: RT3DE with myocardial contrast opacification could accurately estimate underperfused myocardial mass in dogs of acute coronary occlusion and would play an important role in quantitative assessment of myocardial perfusion defects in patients with coronary artery disease.

Effects of cholesterol on the phenotype of rabbit bile duct fibroblasts.

AIM: To investigate how cholesterol (Ch) can affect the phenotype of bile duct fibroblasts of New Zealand rabbits. METHODS: 16 rabbits were divided randomly into two groups: the control group and the experiment group. The rabbits in experiment group were fed with hypercholesterol diet for 8 weeks. Bile duct was dissociated from rabbits and prepared for transmission electron microscopy. The purified bile duct fibroblasts were cultured and divided randomly into three groups: control group, Ch middle concentration group (0.6 g/L), Ch high concentration group (1.2 g/L). After incubated for 72 h, the fibroblasts were made into specimens for transmission electron microscopy. The expression of alpha-actin in bile duct fibroblasts was measured by means of laser scanning confocal microscopy. RESULTS: With the transmission electron microscopy, the normal bile duct fibroblasts were shuttle-shaped, and there were abundant rough endoplasmic reticulums (RER), but few mitochondria or microfilaments in cytoplasm. This is the typical phenotype of fibroblasts. Bile duct fibroblasts of hypercholesterolemic rabbits were observed. by the transmission electron microscopy Rough endoplasmic reticulums were significantly reduced, with a lot of microfilament bundles or stress fibers appeared in cytoplasm, especially under plasma membrane. Dense bodies were scattered within these bundles. Macula densas and discontinuous sarcolemma were found under plasma membrane. It suggested that the bile duct fibroblasts of hypercholesterolemic rabbits presented the phenotype of smooth muscle cell. The cultured bile duct fibroblasts also had typical phenotype of fibroblasts. After stimulated by middle concentration cholesterol (0.6 g/L) for 72 h, there appeared lots of microfilaments in cytoplasm, but without dense body, macula densa and discontinuous sarcolemma. Observed with confocal microscopy, there were many regular bundles of microfilaments in fibroblasts treated with middle concentration ch (0.6 g/L) and the expression of alpha-actin was significantly increased. The average fluorescence value of middle concentration group was 1 628+/-189 (P<0.01 vs control group). Microfilaments and the expression of alpha-actin were greatly decreased in fibroblasts of high concentration group (1.2 g/L). The average fluorescence value of high concentration group was 1 427+/-153 (P<0.05 vs middle concentration group). There were a lower expression of alpha-actin and few microfilaments in bile duct fibroblasts of control group with an average fluorescence value of 1 224+/-138. CONCLUSION: Cholesterol can make bile duct fibroblasts have the phenotypic characteristics of smooth muscle cell both in vitro and in vivo and this effect is more significant in vivo. The effect is probably associated with some other factors besides cholesterol.

Effect of cholesterol liposomes on calcium mobilization in muscle cells from the rabbit sphincter of Oddi.

AIM: To analyze the influence of cholesterol liposome on the Ca2+ mobilization of cultured muscle cells in the rabbit sphincter of Oddi's. METHODS: New Zealand rabbit was sacrificed and the sphincter of Oddi (SO) segment was obtained aseptically. The SO segment was cut into pieces and cultured in DMEM solution. Then the smooth muscle cells were subcultured, and the 4th-7th passage cells were used for further investigation. The intracellular Ca2+ increase was measured under confocal microscope after the addition of 20 mmol x L(-1) KCl, 10(-7) mol x L(-1) acetylcholine and 10(-7) mol x L(-1) cholecystokinin, and different antagonists were added to analyze the Ca2+ mobilization pathway. After the cells were incubated with 1g x L(-1) cholesterol liposome (CL)(molar ratio was -2:1), the intracellular Ca2+ increase was measured again to determine the effect of CL on cellular Ca(2+) mobilization. RESULTS: The resting cellular calcium concentration of cultured SO cell was 108+/-21 nmol x L(-1).The intracellular Ca2+ increases induced by 20 mmol x L(-1) KCl, 10(-7) mol x L(-1) ACh and 10(-7) mol x L(-1) CCK were 183+/-56% 161+/-52% and 130+/-43%, respectively. When the extracellular Ca2+ was eliminated by 2 mmol x L(-1) EGTA and 5 micromol x L(-1) verapamil, the intracellular Ca2+ increases induced by KCl, ACh and CCK were 20+/-14%,82+/-21% and 104+/-23%, respectively. After the preincubation with heparin, the Ca2+ increases were 62+/-23% and 23+/-19% induced by ACh and CCK, as for preincubation with procaine they were 72+/-28% and 85+/-37% induced by ACh and CCK, respectively. Pretreatment with CL for 18 h, the resting cellular Ca2+ concentration elevated to 152+/-26 nmol x L(-1), however, the cellular Ca2+ increase percentages in response to these agonists were 67+/-32%,56+/-33% and 34+/-15%. CONCLUSION: KCl elicit the SO cellular Ca2+ increase depends on influx of extracellular Ca2+, ACh evoked the SO cellular Ca2+ increase is through the mobilization of intracellular Ca2+ pool and influx of extracellular Ca2+ as well, CCK excites the SO cells mainly through mobilization of intracellular IP3-sensitive Ca2+ store. After the incorporation with cholesterol liposome, KCl,ACh and CCK induced cellular Ca2+ increase percentages decreased.