Abstract

The 1256-base pair enhancer-promoter of the mouse muscle creatine kinase gene includes three CAnnTG E-boxes that are conserved among mammals and have flanking and middle sequences conforming to consensus muscle regulatory factor binding sites. This study seeks to determine whether these E-boxes are critical for muscle creatine kinase expression in physiologically distinct muscles. Mutations of the "right" and "left" E-boxes in the enhancer decreased expression in cultured skeletal myocytes approximately 10- and 2-fold, respectively, whereas a "promoter" E-box mutation had little effect. In neonatal myocardiocytes, the left E-box mutation decreased expression approximately 3-fold, whereas right or promoter E-box mutations had no effect. Very different effects were seen in transgenic mice, where the promoter E-box mutation decreased expression in quadriceps, extensor digitorum longus, and soleus approximately 10-fold, and approximately 100-fold in distal tongue, diaphragm, and ventricle. The right E-box mutation, tested in the presence of the other two mutations, caused a significant decrease in distal tongue, but not in quadriceps, extensor digitorum longus, soleus, or ventricle. Mutation of the left E-box actually raised expression in soleus, suggesting a possible repressor role for this control element. The discrepancies between mutation effects in differentiating skeletal muscle cultures, neonatal myocardiocytes, and adult mice suggested that the E-boxes might play different roles during muscle development and adult steady-state function. However, transgenic analysis of embryonic and early postnatal mice indicated no positive role for these three E-boxes in early development, implying that differences in E-box function between adult muscle and cultured cells are the result of physiological signals.

Highlights

  • How is the transcription of muscle-specific genes differentially regulated in different anatomical muscles? The muscle creatine kinase (MCK)1 gene encodes the muscle-specific isoform of crea

  • The 1256-base pair enhancer-promoter of the mouse muscle creatine kinase gene includes three CAnnTG Eboxes that are conserved among mammals and have flanking and middle sequences conforming to consensus muscle regulatory factor binding sites

  • Because myogenic regulatory factors (MRFs) are primarily restricted to skeletal muscle, the cell culture and nuclear factor binding results were consistent with high affinity MRF binding sites being important for high expression in skeletal muscle

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Summary

Introduction

How is the transcription of muscle-specific genes differentially regulated in different anatomical muscles? The muscle creatine kinase (MCK)1 gene encodes the muscle-specific isoform of crea-. Muscle Type-specific Differences between the Effects of E-box Mutations in Adult Transgenic Mice—Transgenic mouse expression is highly variable depending upon the genomic integration site, so that large numbers of lines or founders are necessary to test for statistically significant differences.

Results
Conclusion

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