Inflammatory cytokines. Importantly, systemic infusion of TLR4-SiRNA in same dose could not produce the same results with the ICV injection of TLR4-SiRNA (data not shown). Although we did not check the effect 1317923 of the ICV injection of TLR4-SiRNA on plasma and/or heart cytokines, we consider that brain TLR4-mediated inflammatory cascade might be involved in LV remodeling with sympathoexcitation in MI-induced heart failure. Abnormal activation of SNS is associated with the prognosis of heart failure and beta-blocker therapy has significant benefits on the survival of heart failure [1?]. Furthermore, activation of SNS is closely associated with LV remodeling after MI, Title Loaded From File because previous many studies have clarified that chronic beta-blocker therapy improves LV performance and reverses LV remodeling [22?7]. In the present study, ICV injection of TLR4-SiRNA reduced LV dimension and LVEDP, and improved LVEF and cardiac output with sympathoinhibition in MI-induced heart failure. Moreover, ICV injection of TLR4-SiRNA also improves LV dP/dtmax and LV 2dP/dtmax with sympathoinhibition. TheseBrain TLR4-Mediated Sympathoexcitation in HFTable 1. Physiological, echocardiographic, and hemodynamic data.sham n BW (g) Lung/BW (mg/g) Heart/BW (mg/g) LVDD (mm) LVDS (mm) LVEF ( ) FS ( ) Cardiac output (ml/min) Infarct size ( ) HR (bpm) mBP (mmHg) LVEDP (mmHg) LV dP/dtmax (mmHg/ms) LV -dP/dtmax (mmHg/ms) 361.5614.5 114.165.1 2.460.3 118306684 275866562 5 440.7611.0 4.260.1 4.160.1 6.060.1 3.060.1 87.561.1 51.760.9 52.365.HF-hGAPDH 6 407.469.6* 7.760.4** 5.360.2** 8.760.1** 7.260.2** 43.361.2** 18.561.6** 31.363.8** 41.161.3 392.9610.1* 97.162.9* 17.961.1** 59836310** 241496612**HF-TLR4 6 429.062.5{ 6.060.3**{ 5.060.2** 7.960.2**{ 6.160.1**{ 53.961.0**{ 21.361.9** 40.862.7**{ 38.562.1 385.1612.2 104.765.0 10.661.0**{ 83356835*{ 253916774*{Data are shown as mean 6 standard error of the mean. Sham; sham operated rat, HF-hGAPDH; myocardial infarction-induced heart failure treated with hGAPDH-SiRNA, HF-TLR4; myocardial infarction-induced heart failure treate d with TLR4-SiRNA, BW; body weight, LVDD; left ventricular diastolic dimension, LVDS; left ventricular systolic dimension, LVEF; left ventricular ejection fraction, FS; left ventricular percent fractional shortening, HR; heart rate, mBP; mean blood pressure, LVEDP; left ventricular end-diastolic pressure, LV dP/dtmax; maximum rate of rise of left ventricular pressure, LV -dP/dtmax; highest rate of decline in left ventricular pressure. *P,0.01 vs sham, **P,0.05 vs sham, {P,0.05 in HF-TLR4 vs HF-hGAPDH. doi:10.1371/journal.pone.0069053.tresults suggest that partially silencing brain TLR4 improves LV performance such as LV contraction, relaxation, and ventricular filling via prevention of LV remodeling associated with sympathoinhibition in MI-induced heart faiure. Although there are possibilities that partially silencing TLR4 would affect plasma and heart cytokines and exacerbate smaller damages to heart independent of sympathoinhibition, we consider that partially prevention of LV remodeling in the present study would mainly obtained by sympathoinhibition directly. In a future, we would like to determine the effects of partially silencing brain TLR4 oncardiac fibrosis, because FS is often correlated with fibrosis [28] and the release of catecholamines by the activation of SNS at the heart level is known to induce cardiac fibrosis [29]. In addition, we also should determine sarcoplasmic reticulum Ca2+ (Sted P-value represents the false discovery rate. The IPA software ranks SERCA2) con.Inflammatory cytokines. Importantly, systemic infusion of TLR4-SiRNA in same dose could not produce the same results with the ICV injection of TLR4-SiRNA (data not shown). Although we did not check the effect 1317923 of the ICV injection of TLR4-SiRNA on plasma and/or heart cytokines, we consider that brain TLR4-mediated inflammatory cascade might be involved in LV remodeling with sympathoexcitation in MI-induced heart failure. Abnormal activation of SNS is associated with the prognosis of heart failure and beta-blocker therapy has significant benefits on the survival of heart failure [1?]. Furthermore, activation of SNS is closely associated with LV remodeling after MI, because previous many studies have clarified that chronic beta-blocker therapy improves LV performance and reverses LV remodeling [22?7]. In the present study, ICV injection of TLR4-SiRNA reduced LV dimension and LVEDP, and improved LVEF and cardiac output with sympathoinhibition in MI-induced heart failure. Moreover, ICV injection of TLR4-SiRNA also improves LV dP/dtmax and LV 2dP/dtmax with sympathoinhibition. TheseBrain TLR4-Mediated Sympathoexcitation in HFTable 1. Physiological, echocardiographic, and hemodynamic data.sham n BW (g) Lung/BW (mg/g) Heart/BW (mg/g) LVDD (mm) LVDS (mm) LVEF ( ) FS ( ) Cardiac output (ml/min) Infarct size ( ) HR (bpm) mBP (mmHg) LVEDP (mmHg) LV dP/dtmax (mmHg/ms) LV -dP/dtmax (mmHg/ms) 361.5614.5 114.165.1 2.460.3 118306684 275866562 5 440.7611.0 4.260.1 4.160.1 6.060.1 3.060.1 87.561.1 51.760.9 52.365.HF-hGAPDH 6 407.469.6* 7.760.4** 5.360.2** 8.760.1** 7.260.2** 43.361.2** 18.561.6** 31.363.8** 41.161.3 392.9610.1* 97.162.9* 17.961.1** 59836310** 241496612**HF-TLR4 6 429.062.5{ 6.060.3**{ 5.060.2** 7.960.2**{ 6.160.1**{ 53.961.0**{ 21.361.9** 40.862.7**{ 38.562.1 385.1612.2 104.765.0 10.661.0**{ 83356835*{ 253916774*{Data are shown as mean 6 standard error of the mean. Sham; sham operated rat, HF-hGAPDH; myocardial infarction-induced heart failure treated with hGAPDH-SiRNA, HF-TLR4; myocardial infarction-induced heart failure treate d with TLR4-SiRNA, BW; body weight, LVDD; left ventricular diastolic dimension, LVDS; left ventricular systolic dimension, LVEF; left ventricular ejection fraction, FS; left ventricular percent fractional shortening, HR; heart rate, mBP; mean blood pressure, LVEDP; left ventricular end-diastolic pressure, LV dP/dtmax; maximum rate of rise of left ventricular pressure, LV -dP/dtmax; highest rate of decline in left ventricular pressure. *P,0.01 vs sham, **P,0.05 vs sham, {P,0.05 in HF-TLR4 vs HF-hGAPDH. doi:10.1371/journal.pone.0069053.tresults suggest that partially silencing brain TLR4 improves LV performance such as LV contraction, relaxation, and ventricular filling via prevention of LV remodeling associated with sympathoinhibition in MI-induced heart faiure. Although there are possibilities that partially silencing TLR4 would affect plasma and heart cytokines and exacerbate smaller damages to heart independent of sympathoinhibition, we consider that partially prevention of LV remodeling in the present study would mainly obtained by sympathoinhibition directly. In a future, we would like to determine the effects of partially silencing brain TLR4 oncardiac fibrosis, because FS is often correlated with fibrosis [28] and the release of catecholamines by the activation of SNS at the heart level is known to induce cardiac fibrosis [29]. In addition, we also should determine sarcoplasmic reticulum Ca2+ (SERCA2) con.