ABSTRACT
Aim To investigate the effects of overexpression of short-chain acyl-CoA dehydrogenase (SCAD) recombinant adenovirus on heart failure following myocardial infarction in rats, and to explore the relationship between SCAD and heart failure. Methods The rat model of heart failure following myocardial infarction was established by ligation of left anterior descending coronary artery (LAD). The SCAD recombinant adenovirus was injected into the apical wall. The experimental groups were divided into 6 groups; Sham + NS group, LAD + NS group, Sham + Ad-GFP group, Sham + Ad-SCAD group, LAD + Ad-GFP group and LAD + Ad-SCAD group. Systolic blood pressure (SBP) of tail artery was measured after surgery and the cardiac morphological changes were detected. The changes of SCAD mRNA expression, protein expression, enzyme activity, ATP content and free fatty acid content were examined. Results Compared with sham group, LAD + NS group showed heart failure significantly. Compared with LAD + NS group, SBP from LAD + Ad-SCAD group increased obviously after surgery, collagen deposition was apparently reduced and myocardial fibrosis was markedly improved. Compared with Sham + NS group, the SCAD mRNA, protein expression, enzyme activity and ATP content in LAD + NS group obviously decreased, and the contents of free fatty acids markedly increased. Compared with LAD + NS group, the above indicators of LAD + Ad-SCAD group were evidently reversed after treated with SCAD recombinant adenovirus. Conclusion Overexpression of SCAD recombinant adenovirus in heart can significantly improve heart failure caused by LAD.
ABSTRACT
Objective? To?Study?the?changes?of?short-chain?acyl-CoA?dehydrogenase?(SCAD)?in?heart?failure?(HF)?after?myocardial?infarction?(MI),?and?the?effect?of?aerobic?exercise?on?SCAD.? Methods? Healthy?male?Sprague-Dawley?(SD)?rats?were?divided?into?sham?operation?group?(Sham?group),?sham?operation?swimming?group?(Sham+swim?group),?HF?model?group?(LAD?group)?and?HF?swimming?group?(LAD+swim?group)?by?random?number?table?method,?with?9?rats?in?each?group.?The?left?anterior?descending?branch?of?coronary?artery?(LAD)?was?ligated?to?establish?a?rat?model?of?HF?after?MI.?In?Sham?group,?only?one?loose?knot?was?threaded?under?the?left?coronary?artery,?and?the?rest?operations?were?the?same?as?those?in?LAD?group.?Rats?in?Sham+swim?group?and?LAD+swim?group?were?given?swimming?test?for?1?week?after?operation?(from?15?minutes?on?the?1st?day?to?60?minutes?on?the?5th?day).?Then?they?were?given?swimming?endurance?training?(from?the?2nd?week?onwards,?60?minutes?daily,?6?times?weekly,?10?weeks?in?a?row).?Tail?artery?systolic?pressure??(SBP)?was?measured?before?swimming?endurance?training?and?every?2?weeks?until?the?end?of?the?10th?week.?Ten?weeks?after?swimming?training,?echocardiography?was?performed?to?measure?cardiac?output?(CO),?stroke?volume?(SV),?left?ventricular?ejection?fraction?(LVEF),?shortening?fraction?(FS),?left?ventricular?end-systolic?diameter?(LVESD),?left?ventricular?end-diastolic?diameter?(LVEDD),?left?ventricular?end-systolic?volume?(LVESV),?and?left?ventricular?end-diastolic??volume?(LVEDV).?Morphological?changes?of?heart?were?observed?by?Masson?staining.?Apoptosis?of?myocardial?cells?was?detected?by?transferase-mediated?deoxyuridine?triphosphate-biotin?nick?end?labeling?stain?(TUNEL)?and?apoptosis?index?(AI)?was?calculated.?Reverse?transcription-polymerase?chain?reaction?(RT-PCR)?and?Western?Blot?were?used?to?detect?the?mRNA?and?protein?expression?of?myocardial?SCAD?respectively.?In?addition,?the?enzyme?activity?of?SCAD,?the?content?of?adenosine?triphosphate?(ATP)?and?free?fatty?acid?(FFA)?in?serum?and?myocardium?were?detected?according?to?the?kit?instruction?steps.? Results? Compared?with?Sham?group,?Sham+swim?group?showed?SBP?did?not?change?significantly,?with?obvious?eccentric?hypertrophy?and?increased?myocardial?contractility,?and?LAD?group?showed?persistent?hypotension,?obvious?MI,?thinning?of?left?ventricle,?and?decreased?myocardial?systolic/diastolic?function.?Compared?with?LAD?group,?SBP,?systolic/diastolic?function?and?MI?in?LAD+swim?group?were?significantly?improved?[SBP?(mmHg,?1?mmHg?=?0.133?kPa):?119.5±4.4?vs.?113.2±4.5?at?4?weeks,?120.3±4.0?vs.?106.5±3.7?at??6?weeks,?117.4±1.3?vs.?111.0±2.3?at?8?weeks,?126.1±1.6?vs.?119.4±1.9?at?10?weeks;?CO?(mL/min):?59.10±6.31?vs.?33.19±4.76,?SV?(μL):?139.42±17.32?vs.?84.02±14.26,?LVEF:?0.523±0.039?vs.?0.309±0.011,?FS:?(28.17±2.57)%?vs.?(15.93±3.64)%,?LVEDD?(mm):?8.80±0.19?vs.?9.35±0.30,?LVESD?(mm):?5.90±0.77?vs.?7.97±0.60,?LVEDV?(μL):?426.57±20.84?vs.?476.24±25.18,?LVESV?(μL):?209.50±25.18?vs.?318.60±16.10;?AI:?(20.4±1.4)%?vs.?(31.2±4.6)%;?all?P?<?0.05].?Compared?with?Sham?group,?the?mRNA?and?protein?expression?of?myocardium?SCAD,?the?activity?of?SCAD?in?Sham+swim?group?were?significantly?increased,?the?content?of?ATP?was?slightly?increased,?the?content?of?serum?FFA?was?significantly?decreased,?and?the?content?of?myocardial?FFA?was?slightly?decreased;?conversely,?the?mRNA?and?protein?expression?of?myocardium?SCAD,?the?activity?of?SCAD?and?the?content?of?ATP?in?LAD?group?were?significantly?decreased,?the?content?of?serum?and?myocardial?FFA?were?significantly?increased.?Compared?with?LAD?group,?the?mRNA?and?protein?expression?of?myocardium?SCAD,?the?content?of?ATP?were?significantly?increased?in?LAD+swim?group?[SCAD?mRNA?(2-ΔΔCt):?0.52±0.16?vs.?0.15±0.01,?SCAD/GAPDH?(fold?increase?from?Sham?group):?0.94±0.08?vs.?0.60±0.11,?ATP?content?(μmol/g):?52.8±10.1?vs.?14.7±6.1,?all?P?<?0.05],?the?content?of?serum?and?myocardial?FFA?were?significantly?decreased?[serum?FFA?(nmol/L):?0.11±0.03?vs.?0.29±0.04,?myocardial?FFA?(nmol/g):?32.7±8.2?vs.?59.7±10.7,?both?P?<?0.05],?and?the?activity?of?SCAD?was?slightly?increased?(kU/g:?12.3±4.3?vs.?8.9±5.8,?P?>?0.05).? Conclusion? The?expression?of?SCAD?in?HF?was?significantly?down-regulated,?and?the?expression?was?significantly?up-regulated?after?aerobic?exercise?intervention,?indicating?that?swimming?may?improve?the?severity?of?HF?by?up-regulating?the?expression?of?SCAD.
ABSTRACT
Objective To observe the changes of short-chain acyl-CoA dehydrogenase (SCAD) expression on human umbilical vein endothelial cell (HUVEC) apoptosis and investigate its relationship with apoptosis. Methods The HUVEC was cultured normally for 2-3 days. The apoptotic model of HUVEC was established by tert-butyl hydrogen peroxide (tBHP). The HUVEC was treated by different concentrations of tBHP (0, 10, 20, 30, 40, 50 μmol/L) for 12 hours and different time (0, 3, 6, 9, 12 hours) with 50 μmol/L tBHP to establish the apoptotic model of HUVEC. The cell viability was detected by methyl thiazolyl tetrazolium (MTT), the mRNA expression of SCAD was determined by real-time polymerase chain reaction (PCR), the protein expression of SCAD was achieved by Western Blot. The best concentrate and time were determined to interfere the HUVEC to achieve the apoptotic model of HUVEC. The SCAD gene of HUVEC was knocked down by RNA interference sequence (siRNA274, siRNA414, siRNA679). The mRNA expression of SCAD, the protein expression of SCAD and the activity of SCAD enzyme were detected to achieve the best RNA interference sequence. The HUVEC was intervened by the best RNA interference sequence and tBHP. The cell activity and apoptosis rate, the enzyme activity of SCAD, the mRNA and protein expression of SCAD, the contents of reactive oxygen species (ROS), aderosine triphosphate (ATP) and free fatty acid (FFA) were detected to observe the effect of SCAD on apoptosis of HUVEC. Results ① The cell viability, the mRNA expression and the protein expression of SCAD were decreased gradually in a concentration and time dependent manner with the increase of tBHP concentration and the prolongation of intervention time. The decline was most significant in the group of the 50 μmol/L tBHP to interfere HUVEC for 12 hours. ② The siRNA679 transfection was the most significant in reducing SCAD mRNA and protein expressions among the three interference sequences (siRNA274, siRNA414, siRNA679). ③ Compare with blank control group, the cell viability was significantly decreased in the siRNA679 group (A value: 0.48±0.09 vs. 1.00±0.09, P < 0.01), the apoptotic rate of HUVEC was significantly increased [(29.96±2.09)% vs. (2.90±1.90)%, P < 0.01], the expression of SCAD mRNA and SCAD protein, the activity of SCAD enzyme and the content of ATP were significantly decreased [SCAD mRNA (2-ΔΔCt): 0.50±0.16 vs. 1.34±0.12, SCAD/α-Tubulin: 0.67±0.11 vs. 1.00±0.06, the activity of SCAD enzyme (kU/g): 0.38±0.04 vs. 0.53±0.04, the content of ATP (μmol/g): 0.14±0.02 vs. 0.19±0.01, all P < 0.05], the contents of FFA and ROS were significantly increased [FFA (nmol/g): 0.84±0.07 vs. 0.47±0.04, ROS (average fluorescence intensity): 647.5±23.7 vs. 434.2±46.5, both P < 0.01]. Meanwhile, SCAD siRNA treatment triggered the same apoptosis as HUVEC treated with tBHP. Conclusions Down-regulation of SCAD may play an important role in HUVEC apoptosis. Increase in the expression of SCAD may become an important part in intervening HUVEC apoptosis.
ABSTRACT
AIM:To investigate the changes of short-chain acyl-CoA dehydrogenase(SCAD)in hypertensive vascular remodeling and to explore the relationship between SCAD and vascular remodeling in hypertension.METHODS:The spontaneously hypertensive rats(SHR;24 weeks old)and Wistar rats(24 weeks old)were used as experimental con-trol groups.The SHR and Wistar rats of 16 weeks old were trained by swimming as experimental groups.The systolic pres-sure was measured periodically.The thickness of vascular wall and the diameter of the vascular lumen were measured.The contents of ROS and ATP,the enzyme activity of SCAD, and the expression of SCAD at mRNA and protein levels in the aorta were determined.The free fatty acid in the serum and aorta was also measured.RESULTS:Compared with Wistar group,the diameter of vascular lumen decreased in SHR group.The thickness of vascular wall,the ratio of vascular wall and the diameter of vascular lumen,and the blood pressure in SHR group were increased significantly(P<0.05).Com-pared with SHR group,the diameter of vascular lumen increased in SHR +swim group.The thickness of vascular wall,the ratio of vascular wall and the diameter of vascular lumen,and the blood pressure in SHR +swim group were decreased sig-nificantly.Compared with control group, the expression of SCAD at mRNA and protein levels, the enzyme activity of SCAD,and the content of ATP were decreased in SHR group.However,the free fatty acid in the serum and aorta,and the content of ROS in the aorta were increased in SHR group.The expression of SCAD at mRNA and protein levels,the en-zyme activity of SCAD,the content of ATP were increased in Wistar +swim group and SHR +swim group.However, the free fatty acid in serum and aorta,and the content of ROS in the aorta were decreased in Wistar +swim group and SHR+swim group.CONCLUSION: Decrease in SCAD expression may be associated with hypertensive vascular remodeling. Swimming training can reverse hypertensive vascular remodeling by increasing the expression of SCAD in the aorta.
ABSTRACT
AIM:To investigate the effect of short-chain acyl-CoA dehydrogenase ( SCAD) on collagen expres-sion and proliferation of rat cardiac fibroblasts and to explore the relationship between SCAD and cardiac fibrosis . METHODS:The model of proliferation and collagen expression of rat cardiac fibroblasts induced by angiotensin II was es -tablished.After treatment with siRNA-1186, the expression of SCAD at mRNA and protein levels , fatty acids beta oxida-tion rate, ATP, the enzyme activity of SCAD and free fatty acids in the rat cardiac fibroblasts were determined . RESULTS:The mRNA and protein expression of SCAD was decreased in the rat cardiac fibroblasts induced by angiotensin II compared with the control cells , and the expression of collagen I and collagen III was significantly upregulated .Com-pared with negative control group , SCAD expression and activity , fatty acid beta-oxidation rate and ATP significantly de-creased in siRNA-1186 group, but the content of free fatty acids were obviously increased in the rat cardiac fibroblasts , and the expression of collagen I and collagen III was significantly up-regulated.CONCLUSION:The expression and synthesis disorder of collagen may be triggered by down-regulation of SCAD .SCAD may be a promising therapeutic target for myocar-dial fibrosis .
ABSTRACT
AIM:To investigate the change of short-chain acyl-CoA dehydrogenase (SCAD) expression during cardiomyocyte apoptosis and to explore the relationship between SCAD and cardiomyocyte apoptosis .METHODS: The neonatal rat cardiomyocytes treated by tert-butyl hydroperoxide (tBHP) were used as the model of cardiomyocyte apoptosis . The cell viability , the expression of SCAD at mRNA and protein levels , the activity of SCAD and the content of free fatty acids were determined .RESULTS:The mRNA and protein expression of SCAD decreased in the cardiomyocyte apoptosis model.Compared with negative control group , SCAD expression and activity were both significantly decreased in siRNA-1186 group, but the content of free fatty acids were obviously increased in the cardiomyocytes .Meanwhile, SCAD siRNA treatment triggered the same apoptosis as cardiomyocytes treated with tBHP .CONCLUSION: Down-regulation of SCAD may play an important role in primary cardiomyocyte apoptosis .Increase in the expression of SCAD may become an impor-tant part in intervening cardiomyocyte apoptosis .
ABSTRACT
La acil-CoA deshidrogenasa de cadena corta (SCAD) cataliza la reacción inicial de la ß-oxidación de los ácidos grasos de cadena corta. La deficiencia hereditaria de SCAD ha sido reportada y han sido descritos pocos casos de la misma. El presente estudio pretendió determinar la posible presencia del polimorfismo 511C>T en Caldas (Colombia), debido a que las variantes 625G>A y 511C>T en el gen de la acil-CoA deshidrogenasa de cadena corta están presentes en el 14% de algunas poblaciones estudiadas, causando algunas veces su deficiencia. El presente estudio es descriptivo. Muestras de sangre de 300 voluntarios fueron estudiadas para el polimorfismo 511C>T mediante la técnica de polimorfismo de conformación de la cadena simple, utilizando ADN amplificado por reacción en cadena de la polimerasa. Los resultados fueron confirmados por secuenciación. El polimorfismo fue identificado en tres personas aparentemente sanas. Existe evidencia de la presencia del polimorfismo 511C>T en el gen de la acil-CoA en Colombia, lo que significa que algunas personas de esta población pueden tener riesgo de sufrir su deficiencia.
Short-chain acyl-CoA dehydrogenase (SCAD) catalyzes the initial reaction in short-chain fatty acid ß-oxidation. Hereditary SCAD deficiency has been reported and only few cases of this disorder have been described. The present study was conducted to determine the possible presence of the 511C>T variation in the short-chain acyl-CoA dehydrogenase gene in Caldas (Colombia), as the 625G>A and 511C>T variations are present in 14% of some studied populations causing its deficiency on some occasions. The present study is descriptive, blood samples of three hundred adult volunteers were tested for 511C>T polymorphism, analysing the polymerase chain reaction amplified cDNA, using a single-stranded conformation polymorphism assay. The results were confirmed by direct bidirectional cycle sequencing using DNA from the positive patients. The polymorphism was identified and confirmed in three healthy persons. This is evidence of the presence of 511C>T polymorphism in the short chain acyl-coA dehydrogenase gene in Colombia, which means that some people in these populations can be at risk of suffering SCAD deficiency.
A acil-CoA desidrogenase de cadeia curta (SCAD) catalisa a reação inicial da b-oxidação dos ácidos graxos de cadeia curta. Foi reportada a deficiência hereditária de SCAD e poucos casos da deficiência foram descritos. O presente trabalho quis determinar a possível presença do polimorfismo 511C>T em Caldas (Colômbia), devido a que as variantes 625G>A e 511C>T no gene da acil-CoA desidrogenase de cadeia curta estão presentes em 14% de algumas populações estudadas, produzindo algumas vezes sua deficiência. O presente estudo é descritivo. Amostras de sangue de 300 voluntários foram analisadas para o polimorfismo 511C>T através da técnica de polimorfismo de conformação da cadeia simples, utilizando DNA amplificado por reação em cadeia da polimerase. Os resultados foram confirmados por sequenciamento. O polimorfismo foi identificado em três pessoas aparentemente saudáveis. Existe evidência da presença do polimorfismo 511C>T no gene da acil-CoA na Colômbia, o que significa que algumas pessoas desta população correm o risco de sofrer sua deficiência.
Subject(s)
Humans , Male , Female , Adult , Middle Aged , Acyl-CoA Dehydrogenase/blood , Polymorphism, Genetic , Acyl-CoA Dehydrogenases , Colombia , Multiple Acyl Coenzyme A Dehydrogenase DeficiencyABSTRACT
Short-chain acyl-CoA dehydrogenase deficiency (SCADD; OMIM # 201470) is an autosomal recessive inborn error of mitochondrial fatty acid beta-oxidation, presenting with a variety of clinical signs and symptoms. Developmental delay, hypertonia or hypotonia, ketotic hypoglycemia, and epilepsy are most frequently reported. In general, patients diagnosed through newborn screening have shown normal growth and development in contrast to those diagnosed as a result of clinically initiated evaluations. Here, the case of an asymptomatic Korean newborn with SCADD identified by tandem mass spectrometry is reported. The patient showed an elevated concentration of butyrylcarnitine detected on newborn screening. Urinary excretion of ethylmalonic acid was elevated by urine organic acid analysis. To confirm the diagnosis of SCADD, a direct sequencing analysis of 10 coding exons and the exon-intron boundaries of the ACADS gene were performed. Genetic analysis of ACADS showed the following novel compound heterozygous missense mutations: c.277C>A (p.Leu93Ile) on exon3 and c.682G>A (p.Glu288Lys) on exon6. These results will provide further evidence of mutational heterogeneity for SCADD.
Subject(s)
Humans , Infant, Newborn , Acyl-CoA Dehydrogenase , Butyryl-CoA Dehydrogenase , Carnitine , Clinical Coding , Databases, Genetic , Epilepsy , Exons , Growth and Development , Hypoglycemia , Malonates , Mass Screening , Muscle Hypotonia , Population Characteristics , Tandem Mass SpectrometryABSTRACT
Introduction: Short-chain acyl-CoA dehydrogenase (SCAD) is a homotetrameric mitochondrial flavoenzyme that catalyzes the initial reaction in short-chain fatty acid b-oxidation. The SCAD gene is located on chromosome 12q22 and is approximately 13 kb long with 10 exons and 1236 nucleotides of coding sequence. Hereditary SCAD deficiency has been reported and only a few cases of this disorder have been described. Objective: The present study was conducted to determine the possible presence of the 625G>A variation in the short-chain acyl-CoA dehydrogenase gene in Caldas (Colombia), given that variations 625G>A and 511C>T are present in 14% of some studied populations; thereby sometimes causing its deficiency. Methods: This is a descriptive study; blood samples from three-hundred adult volunteers were tested for 625G>A polymorphism, analysing the polymerase chain reaction amplified cDNA, using a single-stranded conformation polymorphism assay. The results were confirmed by direct bidirectional cycle sequencing using DNA from the positive persons. Results: The polymorphism was identified and confirmed in four healthy persons. Conclusion: This is evidence of the presence of 625G>A polymorphism in the short-chain acyl-CoA dehydrogenase gene in Colombia, meaning that some people in our populations can be at risk of suffering SCAD deficiency and its main complication: the ethylmalonic aciduria.
Introducción: La acil-CoA deshidrogenasa de cadena corta (SCAD) es una flavoenzima homotetramérica mitocondrial que cataliza la reacción inicial de la â-oxidación de los ácidos grasos de cadena corta. El gen SCAD se ubica en el cromosoma 12q22, con una longitud de 13 kb, con 10 exones y 1236 nucleótidos de secuencia codificadora. Se ha informado la deficiencia hereditaria de SCAD y se han descrito pocos casos de la deficiencia. Objetivo: El presente estudio buscó determinar la posible presencia del polimorfismo 625G>A en Caldas, Colombia, debido a que las variantes 625G>A y 511C>T en el gen de la acil-CoA deshidrogenasa de cadena corta están presentes en 14% de algunas poblaciones estudiadas, causando algunas veces su deficiencia. Métodos: El presente estudio es descriptivo; se estudiaron muestras de sangre de 300 voluntarios para el polimorfismo 625G>A mediante la técnica de polimorfismo de conformación de la cadena simple, con ADN amplificado por reacción en cadena de la polimerasa. Los resultados se confirmaron por secuenciación. Resultados: El polimorfismo se identificó en cuatro personas aparentemente sanas. Conclusión: Existe evidencia de la presencia del polimorfismo 625 G>A en el gen de la acil-CoA en Colombia, lo que significa que algunas personas en la poblaciones del país pueden estar en riesgo de sufrir deficiencia de SCAD y su principal complicación, la aciduria etilmalónica.