Abstract
The transcription factor myocyte-enhancer factor 2 (MEF2) has been shown to be required for the survival of different types of neurons. However, the death- or survival-inducing second messenger pathways that regulate MEF2 activity remain to be fully elucidated. Membrane depolarization by KCl induces neuronal survival that is dependent upon MEF2-mediated gene transactivation. Here we report that membrane depolarizationinduced activation of MEF2 requires the cAMP-protein kinase A (PKA) pathway. Inhibition of the activity of cAMP-PKA pathway attenuates membrane depolarization-induced activation of MEF2 activity and neuronal survival, whereas enhancing the activity of this pathway prevents KCl withdrawal-induced inhibition of MEF2 and neuronal apoptosis. Moreover, PKA directly phosphorylates MEF2 at Thr-20 in vitro to increase MEF2 DNA binding activity. A mutation of Thr-20 to Ala renders MEF2 resistant to PKA phosphorylation in vitro and reduces its DNA binding activity. Transfection of this T20A mutant blocks survival and induces apoptosis in cultured cortical and cerebellar granule neurons. This study identifies the transcription factor MEF2 as a target of cAMP-PKA pathway and demonstrates that PKA phosphorylation of MEF2 is a key step in modulating its DNA binding activity and ability to promote neuronal survival.
Highlights
The transcription factor myocyte-enhancer factor 2 (MEF2) has been shown to be required for the survival of different types of neurons
Because cyclic AMP (cAMP) may signal via different downstream effectors, including protein kinase A (PKA) and cAMP-regulated guanine nucleotide exchange factors (GEFs) such as GEF1/II or Epac [38, 39], it was important to determine which downstream effector(s) mediates the trophic effect of cAMP
Accumulating evidence indicates that transcription factor MEF2 plays a critical role in the survival of different types of neurons under several experimental conditions [11,12,13,14]
Summary
The transcription factor myocyte-enhancer factor 2 (MEF2) has been shown to be required for the survival of different types of neurons. A mutation of Thr-20 to Ala renders MEF2 resistant to PKA phosphorylation in vitro and reduces its DNA binding activity Transfection of this T20A mutant blocks survival and induces apoptosis in cultured cortical and cerebellar granule neurons. This study identifies the transcription factor MEF2 as a target of cAMP-PKA pathway and demonstrates that PKA phosphorylation of MEF2 is a key step in modulating its DNA binding activity and ability to promote neuronal survival. Both growth factors and neuronal activity provide trophic support for neurons during their development; neurons that do not receive sufficient support will undergo apoptotic death [1]. To fully understand the mechanisms underlying neuronal survival and the role of MEF2 in this process, it is essential to identify the regulators of MEF2
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