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MITOCHONDRIAL COMPLEX 1 ACTIVITY IN MYOCARDIAL-SPECIFIC CHF1 DEFICIENT MICE Jeffrey Gordon 11/23/2010.

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Presentation on theme: "MITOCHONDRIAL COMPLEX 1 ACTIVITY IN MYOCARDIAL-SPECIFIC CHF1 DEFICIENT MICE Jeffrey Gordon 11/23/2010."— Presentation transcript:

1 MITOCHONDRIAL COMPLEX 1 ACTIVITY IN MYOCARDIAL-SPECIFIC CHF1 DEFICIENT MICE Jeffrey Gordon 11/23/2010

2 CHF1 – A Brief Overview CHF1 is a basic-HLH transcription repressor which plays an important role in cardiovascular development CHF1 deficient mice are more susceptible to heart failure CHF1 myocardial transgenic mice are less susceptible to heart failure

3 My Project Hypothesis: differences of mitochondrial complex 1 activity may explain the phenotypic difference in susceptibility to heart failure in the myocardial specific CHF1 deficient mouse model Why investigate complex 1? Who cares / to what end?

4  In heart failure, decreased mitochondrial content and overall mitochondrial dysfunction exist  There are increased RNA transcripts of complex 1 in CHF1 transgenic mice  Preliminary data suggests decreased mitochondrial respiration in CHF1 deficient mice  Complex I is a manageable target Why Test Complex 1 ?

5 Mitochondria  Mitochondria generate most of a cell’s ATP.  Mitochondria have a more broad function  Made of 4 complexes and ATP synthase http://en.wikipedia.org/wiki/File:ETC_electron_transport_chain.svg

6 Complex I  Largest complex – 45 different polypeptides  Redox reaction – NADH + H(+) + ubiquinone (Q) NAD(+) + dihydroubiquinone (QH2)

7 Who Cares / to what end?  Further characterize the mechanism responsible for increased susceptibility to heart failure of CHF1 deficient mice  Further understand mitochondria, which may offer therapeutic targets in the future

8 Overview of My Project 1. Breed wild-type controls and myocardial-specific CHF1 deficient mice 2. Isolate left ventricular mitochondrial tissue 3. Measure complex 1 activity via spectrophotometry 4. Normalize this to total mitochondrial activity 5. Compare the two groups

9 Spectrophotometry for Complex 1  Beer - Lambert Law  Measure light absorbance of a material to calculate concentration.  For complex 1: NADH + H(+) + ubiquinone (Q) NAD(+) + dihydroubiquinone (QH2) http://www.adinstruments.com/solutions/experiments/labchart_experiments/full.php ?exp_id=187&section_id=13&name_id=245&template=teaching

10 Results GenotypeC1 activityC1/CS F/F aMHC-Cre639.341.602 F/F aMHC-Cre567.731.836 F/F aMHC-Cre255.732.178 F/F aMHC-Cre506.351.61 F/F aMHC-Cre673.431.757 F/F427.931.932 F/F603.532.168 F/F499.542.055 F/F368.261.921 F/F334.161.802 F/F339.271.857 F/F521.72.3 F/F663.211.985 F/F579.241.428 -C1 = complex 1. CS = citrate synthase. -C1 Activity measured in nm/ (min *mg)

11 Results CHF1 Deficient WT P Value: 0.314564499

12 Conclusions  Complex 1 activity is not significantly different between wild-type and myocardial specific CHF- 1 deficient mice  Thus, differences in complex 1 are unlikely to explain the increased susceptibility to heart failure between these groups

13 Future Avenues  CHF1 deficient mice have abnormal with calcium signaling and apoptosis. Further studies into mitochondrial dysfunction may lead to better understandings of these mechanisms.

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