Remodeling of Kv4.3 Potassium Channel Gene Expression under the Control of Sex Hormones

Kv4.3 channels are important molecular components of transient K + currents (Ito currents) in brain and heart. They are involved in setting the frequency of neuronal firing and heart pacing. Altered Kv4.3 channel expression has been demonstrated under pathological conditions like heart failure indic...

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Veröffentlicht in:The Journal of biological chemistry 2001-08, Vol.276 (34), p.31883-31890
Hauptverfasser: Song, M, Helguera, G, Eghbali, M, Zhu, N, Zarei, M M, Olcese, R, Toro, L, Stefani, E
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Sprache:eng
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Zusammenfassung:Kv4.3 channels are important molecular components of transient K + currents (Ito currents) in brain and heart. They are involved in setting the frequency of neuronal firing and heart pacing. Altered Kv4.3 channel expression has been demonstrated under pathological conditions like heart failure indicating their critical role in heart function. Thyroid hormone studies suggest that their expression in the heart may be hormonally regulated. To explore the possibility that sex hormones control Kv4.3 expression, we investigated whether its expression changes in the pregnant uterus. This organ represents a unique model to study Ito currents, because it possesses this type of K + current and undergoes dramatic changes in function and excitability during pregnancy. We cloned Kv4.3 channel from myometrium and found that its protein and transcript expression is greatly diminished during pregnancy. Experiments in ovariectomized rats demonstrate that estrogen is one mechanism responsible for the dramatic reduction in Kv4.3 expression and function prior to parturition. Furthermore, the reduction of plasma membrane Kv4.3 protein is accompanied by a perinuclear localization suggesting that cell trafficking is also controlled by sex hormones. Thus, estrogen remodels the expression of Kv4.3 in myometrium by directly diminishing its transcription and, indirectly, by altering Kv4.3 delivery to the plasma membrane.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M101058200