Background:Shensong Yangxin Capsule (SSYX),traditional Chinese medicine,has been used to treat arrhythmias,angina,cardiac remodeling,cardiac fibrosis,and so on,but its effect on cardiac energy metabolism is still n...Background:Shensong Yangxin Capsule (SSYX),traditional Chinese medicine,has been used to treat arrhythmias,angina,cardiac remodeling,cardiac fibrosis,and so on,but its effect on cardiac energy metabolism is still not clear.The objective of this study was to investigate the effects of SSYX on myocardium energy metabolism in angiotensin (Ang) Ⅱ-induced cardiac hypertrophy.Methods:We used 2 μl (10-6 mol/L) AngⅡ to treat neonatal rat cardiomyocytes (NRCMs) for 48 h.Myocardial α-ac tinin staining showed that the myocardial cell volume increased.Expression of the cardiac hypertrophic marker-brain natriuretic peptide (BNP) messenger RNA (mRNA) also increased by real-time polymerase chain reaction (PCR).Therefore,it can be assumed that the model of hypertrophic cardiomyocytes was successfully constructed.Then,NRCMs were treated with 1 μl of different concentrations of SSYX (0.25,0.5,and 1.0 μg/ml) for another 24 h.To explore the time-depend effect of SSYX on energy metabolism,0.5 μg/ml SSYX was added into cells for 0,6,12,24,and 48 h.Mitochondria was assessed by MitoTracker staining and confocal microscopy.mRNA and protein expression of mitochondrial biogenesis-related genes-Peroxisome proliferator-activated receptor-γ coactivator-1 α (PGC-1 α),energy balance key factor -adenosine monophosphate-activated protein kinase (AMPK),fatty acids oxidation factor-camitine palmitoyltransferase-1 (CPT-1),and glucose oxidation factor-glucose transporter-4 (GLUT-4) were measured by PCR and Western blotting analysis.Results:With the increase in the concentration of SSYX (from 0.25 to 1.0 μg/ml),an increased mitochondrial density in Angll-induced cardiomyocytes was found compared to that of those treated with Angll only (0.25 μg/ml,18.3300 ± 0.8895 vs.24.4900 ± 0.9041,t =10.240,P 〈 0.0001;0.5 μg/ml,18.3300 ± 0.8895 vs.25.9800 ± 0.8187,t =12.710,P 〈 0.0001;and 1.0 μg/ml,18.3300 ± 0.8895 vs.24.2900 ± 1.3120,t =9.902,P 〈 0.0001;n =5 per dosage group).SSYX also increased the mRNA and protein expression ofPGC-1α (0.25 μg/ml,0.8892 ± 0.0848 vs.1.0970 ± 0.0994,t =4.319,P =0.0013;0.5 μg/ml,0.8892 ± 0.0848 vs.1.2330 ± 0.0564,t =7.150,P 〈 0.0001;and 1.0 μg/ml,0.8892 ± 0.0848 vs.1.1640 ± 0.0755,t =5.720,P 〈 0.0001;n =5 per dosage group),AMPK (0.25 μg/ml,0.8872 ± 0.0779 vs.1.1500 ± 0.0507,t =7.239,P 〈 0.0001;0.5 μg/ml,0.8872 ± 0.0779 vs.1.2280 ± 0.0623,t =9.379,P 〈 0.0001;and 1.0 μg/ml,0.8872 ± 0.0779 vs.1.3020 ± 0.0450,t =11.400,P 〈 0.0001;n =5 per dosage group),CPT-1 (1.0 μg/ml,0.7348 ± 0.0594 vs.0.9880 ± 0.0851,t =4.994,P =0.0007,n =5),and GLUT-4 (0.5 μg/ml,1.5640 ± 0.0599 vs.1.7720 ± 0.0660,t =3.783,P =0.0117;1.0 μg/ml,1.5640 ± 0.0599 vs.2.0490 ± 0.1280,t =8.808,P 〈 0.0001;n =5 per dosage group).The effect became more obvious with the increasing concentration of SSYX.When 0.5 μg/ml SSYX was added into cells for 0,6,12,24,and 48 h,the expression of AMPK (6 h,14.6100 ± 0.6205 vs.16.5200 ± 0.7450,t =3.456,P =0.0250;12 h,14.6100 ± 0.6205 vs.18.3200 ± 0.9965,t =6.720,P 〈 0.0001;24 h,14.6100 ± 0.6205 vs.21.8800 ± 0.8208,t =13.160,P 〈 0.0001;and 48 h,14.6100 ± 0.6205 vs.23.7400 ± 1.0970,t =16.530,P 〈 0.0001;n =5 per dosage group),PGC-1α (12 h,11.4700 ± 0.7252 vs.16.9000 ± 1.0150,t =7.910,P 〈 0.0001;24 h,11.4700 ± 0.7252 vs.20.8800 ± 1.2340,t =13.710,P 〈 0.0001;and 48 h,11.4700 ± 0.7252 vs.22.0300 ± 1.4180,t =15.390;n =5 per dosage group),CPT-1 (24 h,15.1600 ± 1.0960 vs.18.5800 ± 0.9049,t =6.048,P 〈 0.0001,n =5),and GL UT-4 (6 h,10.2100 ± 0.9485 vs.12.9700 ± 0.8221,t =4.763,P =0.0012;12 h,10.2100± 0.9485 vs.16.9100± 0.8481,t=1 1.590,P〈 0.0001;24 h,10.2100±0.9485 vs.19.0900± 0.9797,t=15.360,P〈 0.0001;and 48 h,10.2100 ± 0.9485 vs.14.1900 ± 0.9611,t =6.877,P 〈 0.0001;n =5 per dosage group) mRNA and protein increased gradually with the prolongation of drug action time.Conclusions:SSYX could increase myocardial energy metabolism in AngⅡ-induced cardiac hypertrophy.Therefore,SSYX might be considered to be an alternative therapeutic remedy for myocardial hypertrophy.展开更多
With the rapidly increasing number of mobile devices being used as essential terminals or platforms for communication, security threats now target the whole telecommunication infrastructure and become increasingly ser...With the rapidly increasing number of mobile devices being used as essential terminals or platforms for communication, security threats now target the whole telecommunication infrastructure and become increasingly serious. Network probing tools, which are deployed as a bypass device at a mobile core network gateway, can collect and analyze all the traffic for security detection. However, due to the ever-increasing link speed, it is of vital importance to offioad the processing pressure of the detection system. In this paper, we design and evaluate a real-time pre-processing system, which includes a hardware accelerator and a multi-core processor. The implemented prototype can quickly restore each encapsulated packet and effectively distribute traffic to multiple back-end detection systems. We demonstrate the prototype in a well-deployed network environment with large volumes of real data. Experimental results show that our system can achieve at least 18 Gb/s with no packet loss with all kinds of communication protocols.展开更多
基金This study was supported by a grant from the National Natural Science Foundation of China (No. 81670363).
文摘Background:Shensong Yangxin Capsule (SSYX),traditional Chinese medicine,has been used to treat arrhythmias,angina,cardiac remodeling,cardiac fibrosis,and so on,but its effect on cardiac energy metabolism is still not clear.The objective of this study was to investigate the effects of SSYX on myocardium energy metabolism in angiotensin (Ang) Ⅱ-induced cardiac hypertrophy.Methods:We used 2 μl (10-6 mol/L) AngⅡ to treat neonatal rat cardiomyocytes (NRCMs) for 48 h.Myocardial α-ac tinin staining showed that the myocardial cell volume increased.Expression of the cardiac hypertrophic marker-brain natriuretic peptide (BNP) messenger RNA (mRNA) also increased by real-time polymerase chain reaction (PCR).Therefore,it can be assumed that the model of hypertrophic cardiomyocytes was successfully constructed.Then,NRCMs were treated with 1 μl of different concentrations of SSYX (0.25,0.5,and 1.0 μg/ml) for another 24 h.To explore the time-depend effect of SSYX on energy metabolism,0.5 μg/ml SSYX was added into cells for 0,6,12,24,and 48 h.Mitochondria was assessed by MitoTracker staining and confocal microscopy.mRNA and protein expression of mitochondrial biogenesis-related genes-Peroxisome proliferator-activated receptor-γ coactivator-1 α (PGC-1 α),energy balance key factor -adenosine monophosphate-activated protein kinase (AMPK),fatty acids oxidation factor-camitine palmitoyltransferase-1 (CPT-1),and glucose oxidation factor-glucose transporter-4 (GLUT-4) were measured by PCR and Western blotting analysis.Results:With the increase in the concentration of SSYX (from 0.25 to 1.0 μg/ml),an increased mitochondrial density in Angll-induced cardiomyocytes was found compared to that of those treated with Angll only (0.25 μg/ml,18.3300 ± 0.8895 vs.24.4900 ± 0.9041,t =10.240,P 〈 0.0001;0.5 μg/ml,18.3300 ± 0.8895 vs.25.9800 ± 0.8187,t =12.710,P 〈 0.0001;and 1.0 μg/ml,18.3300 ± 0.8895 vs.24.2900 ± 1.3120,t =9.902,P 〈 0.0001;n =5 per dosage group).SSYX also increased the mRNA and protein expression ofPGC-1α (0.25 μg/ml,0.8892 ± 0.0848 vs.1.0970 ± 0.0994,t =4.319,P =0.0013;0.5 μg/ml,0.8892 ± 0.0848 vs.1.2330 ± 0.0564,t =7.150,P 〈 0.0001;and 1.0 μg/ml,0.8892 ± 0.0848 vs.1.1640 ± 0.0755,t =5.720,P 〈 0.0001;n =5 per dosage group),AMPK (0.25 μg/ml,0.8872 ± 0.0779 vs.1.1500 ± 0.0507,t =7.239,P 〈 0.0001;0.5 μg/ml,0.8872 ± 0.0779 vs.1.2280 ± 0.0623,t =9.379,P 〈 0.0001;and 1.0 μg/ml,0.8872 ± 0.0779 vs.1.3020 ± 0.0450,t =11.400,P 〈 0.0001;n =5 per dosage group),CPT-1 (1.0 μg/ml,0.7348 ± 0.0594 vs.0.9880 ± 0.0851,t =4.994,P =0.0007,n =5),and GLUT-4 (0.5 μg/ml,1.5640 ± 0.0599 vs.1.7720 ± 0.0660,t =3.783,P =0.0117;1.0 μg/ml,1.5640 ± 0.0599 vs.2.0490 ± 0.1280,t =8.808,P 〈 0.0001;n =5 per dosage group).The effect became more obvious with the increasing concentration of SSYX.When 0.5 μg/ml SSYX was added into cells for 0,6,12,24,and 48 h,the expression of AMPK (6 h,14.6100 ± 0.6205 vs.16.5200 ± 0.7450,t =3.456,P =0.0250;12 h,14.6100 ± 0.6205 vs.18.3200 ± 0.9965,t =6.720,P 〈 0.0001;24 h,14.6100 ± 0.6205 vs.21.8800 ± 0.8208,t =13.160,P 〈 0.0001;and 48 h,14.6100 ± 0.6205 vs.23.7400 ± 1.0970,t =16.530,P 〈 0.0001;n =5 per dosage group),PGC-1α (12 h,11.4700 ± 0.7252 vs.16.9000 ± 1.0150,t =7.910,P 〈 0.0001;24 h,11.4700 ± 0.7252 vs.20.8800 ± 1.2340,t =13.710,P 〈 0.0001;and 48 h,11.4700 ± 0.7252 vs.22.0300 ± 1.4180,t =15.390;n =5 per dosage group),CPT-1 (24 h,15.1600 ± 1.0960 vs.18.5800 ± 0.9049,t =6.048,P 〈 0.0001,n =5),and GL UT-4 (6 h,10.2100 ± 0.9485 vs.12.9700 ± 0.8221,t =4.763,P =0.0012;12 h,10.2100± 0.9485 vs.16.9100± 0.8481,t=1 1.590,P〈 0.0001;24 h,10.2100±0.9485 vs.19.0900± 0.9797,t=15.360,P〈 0.0001;and 48 h,10.2100 ± 0.9485 vs.14.1900 ± 0.9611,t =6.877,P 〈 0.0001;n =5 per dosage group) mRNA and protein increased gradually with the prolongation of drug action time.Conclusions:SSYX could increase myocardial energy metabolism in AngⅡ-induced cardiac hypertrophy.Therefore,SSYX might be considered to be an alternative therapeutic remedy for myocardial hypertrophy.
基金supported by the National High-Tech R&D Program(863)of China(No.2012AA013002)
文摘With the rapidly increasing number of mobile devices being used as essential terminals or platforms for communication, security threats now target the whole telecommunication infrastructure and become increasingly serious. Network probing tools, which are deployed as a bypass device at a mobile core network gateway, can collect and analyze all the traffic for security detection. However, due to the ever-increasing link speed, it is of vital importance to offioad the processing pressure of the detection system. In this paper, we design and evaluate a real-time pre-processing system, which includes a hardware accelerator and a multi-core processor. The implemented prototype can quickly restore each encapsulated packet and effectively distribute traffic to multiple back-end detection systems. We demonstrate the prototype in a well-deployed network environment with large volumes of real data. Experimental results show that our system can achieve at least 18 Gb/s with no packet loss with all kinds of communication protocols.
