Abstract
Recruitment of the coactivator CREB-binding protein (CBP) to transcription factors is important for gene expression. Various regions of CBP such as the KIX and CH3 domains have been shown to interact with numerous transcription factors. The NFAT group of transcription factors is involved in multiple biological processes. NFATc4/NFAT3 has been proposed to play an important role in heart hypertrophy, adipocyte differentiation, and learning and memory. We demonstrate here that two transactivation domains, located at the NH(2) and COOH termini of NFATc4, are critical for interacting with CBP. Each transactivation domain interacts with a distinct region of the CBP protein (the KIX and CH3 domains). Binding of CBP potentiates NFATc4-mediated transcription activity. Both transactivation domains of NFATc4 are required for CBP function. Removal of either NFATc4 transactivation domain abolishes CBP potentiation. Conversely, mutation of the KIX or CH3 domain prevents CBP-mediated potentiation of NFATc4 transcription activation. These data demonstrate that formation of a functional NFATc4.CBP transcription complex requires interactions at two distinct sites.
Highlights
The transcription factor NFAT group was first characterized as an important regulator of interleukin-2 (IL-2)1 gene expression [1]
CREB-binding protein (CBP) Interacts with NFATc4 and Potentiates Transcription Activity—CBP acts as a transcription coactivator in vivo
The KIX domain of CBP binds a wide variety of transcription factors, including CREB, c-Jun, and activating transcription factor-4 [31,32,33, 45]
Summary
The transcription factor NFAT group was first characterized as an important regulator of interleukin-2 (IL-2) gene expression [1]. Within the NFAT group of proteins, NFATc4/NFAT3 is the member that is primarily expressed in nonimmune tissues [7]. Activated nuclear NFAT interacts with other transcription factors to induce gene expression [6]. The interaction of NFAT with GATA, myocyte enhancer factor-2, and peroxisome proliferator-activated receptor-␥ suggests that NFAT may often function at composite DNA elements (9, 26 – 29). Since NFATc4 has been implicated in multiple biological processes, understanding the molecular mechanism of NFATc4-mediated transcription activation is an important goal. We report that binding of CBP potentiates NFATc4-mediated transcription activity. Each transactivation domain interacts with CBP on a distinct region Both transactivation domains of NFATc4 are required for CBP potentiation of transcription activity.
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