PLASTICITY OF FIBER TYPE EXPRESSION

1. PLASTICITY OF FIBER TYPE EXPRESSION OBJECTIVES (I and II) Methodology: • Electrophysiology: resting Em and action potential • Measurement of ion channel activity • Source of information Role of : • Calcineurin • nFAT • Nitric oxide (NO) • NOR-1

2. INTRODUCTION

3. CaM- Binding domain Auto- Inhibitory Domain CATALYTIC DOMAIN CALCINEURIN Calcineurin A (CNA)

4. CALCINEURIN AND NFAT PATHWAY IN B-LYMPHOCYTES

5. CALCINEURIN-NFAT Pathway

6. CALCINEURIN INCREASES mRNA LEVELS FOR MYOGLOBIN, SLOW TnI AND SARCOMERIC MITOCHONDRIAL CREATINE KINASE IN GASTROCNEMIUS MUSCLE

7. CALCINEURIN DECREASES mRNA LEVELS FOR PARVALBUMIN AND MUSCLE CREATINE KINASE IN GASTROCNEMIUS MUSCLE

8. FIRING PATTERNS IN MUSCLE

9. FIRING PATTERNS IN MUSCLE

10. FIRING PATTERNS vs. FORCE-FREQUENCY CURVE IN MUSCLE

11. Ca2+ TRANSIENT IN SLOW AND FAST FIBERS

12. DISCUSSION

13. ACTIVATION OF NF-ЌB, JNK1 AND NFAT IN B-LYMPHOCYTES

14. ACTIVATION OF NF-ЌB, JNK1 AND NFAT IN Ca2+ spike vs. prolonged elevation

15. ACTIVATION OF NF-ЌB, JNK1 AND NFAT IN small prolonged elevation of Ca2+

16. ACTIVATION OF NF-ЌB, JNK1 AND NFAT IN Ca2+ dose-response curve

17. MUSCLE OVERLAOD CAUSES A CALCINEURIN DEPENDENT HYPERTROPHY

18. MUSCLE OVERLAOD CAUSES A CALCINEURIN DEPENDENT INCREASE IN TYPE I FIBERS

19. MUSCLE OVERLAOD CAUSES A CALCINEURIN DEPENDENT CHANGE IN mRNA OF MHC AND TnI

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