NMR Structure of DREAM:  Implications for Ca<sup>2+</sup>-Dependent DNA Binding and Protein Dimerization<sup>,</sup>

Lusin, Jacqueline D.; Vanarotti, Murugendra; Li, Congmin; Valiveti, and Aswani; Ames, James B.

doi:10.1021/bi7017267

Cited by 53 publications

(144 citation statements)

References 67 publications

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“…Taken together, these findings suggest that in KChIPs EF2 mediates low affinity Ca 2+ binding and is occupied by Mg 2+ under physiological conditions, whereas EF3 and EF4 mediate high affinity Ca 2+ binding [34–37,39]. The data are in accordance with crystal structure and NMR analysis, which showed only two bound Ca 2+ ions per KChIP subunit residing in EF3 and EF4 (Figure 2) [30–33]. Obviously, EF3 and EF4 are critical sites for a putative calcium sensor function of the KChIPs.…”

Section: Ca2+ Binding Properties and Associated Conformational Changesupporting

confidence: 80%

“…Even an EF3,EF4 fragment (amino acid 161 – 256) of KChIP3 showed a reduced spectral resolution in the absence of Ca 2+ , corroborating the central role of EF3 and EF4 in Ca 2+ binding and associated conformational changes [40]. KChIPs may also form oligomers in a divalent cation-dependent manner, with Ca 2+ binding to EF3 and EF4 favoring dimer formation [33,39,41]. KChIP3 has even been reported to oligomerize with calcineurin and calmodulin [42].…”

Section: Ca2+ Binding Properties and Associated Conformational Changementioning

confidence: 87%

“…The conserved NCS core domain contains four EF-hand motifs (EF1, EF2, EF3 and EF4), a feature known from calmodulin, but in all NCS proteins the most N-terminal EF-hand motif (EF1) is degenerated and cannot bind Ca 2+ [14]. Recoverin [26], KChIP1 [30–32] and KChIP3 [33] were even isolated with only two Ca 2+ ions bound (see Figure 2 and next section). The Ca 2+ sensitivity of the NCS proteins is very high.…”

Section: The Ncs Protein Familymentioning

confidence: 99%

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Kv channel-interacting proteins as neuronal and non-neuronal calcium sensors

Bähring

2018

Channels

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Kv channel-interacting proteins (KChIPs) belong to the neuronal calcium sensor (NCS) family of Ca2+-binding EF-hand proteins. KChIPs constitute a group of specific auxiliary β-subunits for Kv4 channels, the molecular substrate of transient potassium currents in both neuronal and non-neuronal tissues. Moreover, KChIPs can interact with presenilins to control ER calcium signaling and apoptosis, and with DNA to control gene transcription. Ca2+ binding via their EF-hands, with the consequence of conformational changes, is well documented for KChIPs. Moreover, the Ca2+ dependence of the presenilin/KChIP complex may be related to Alzheimer’s disease and the Ca2+ dependence of the DNA/KChIP complex to pain sensing. However, only in few cases could the Ca2+ binding to KChIPs be directly linked to the control of excitability in nerve and muscle cells known to express Kv4/KChIP channel complexes. This review summarizes current knowledge about the Ca2+ binding properties of KChIPs and the Ca2+ dependencies of macromolecular complexes containing KChIPs, including those with presenilins, DNA and especially Kv4 channels. The respective physiological or pathophysiolgical roles of Ca2+ binding to KChIPs are discussed.

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Section: Ca2+ Binding Properties and Associated Conformational Changesupporting

confidence: 80%

Section: Ca2+ Binding Properties and Associated Conformational Changementioning

confidence: 87%

Section: The Ncs Protein Familymentioning

confidence: 99%

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Kv channel-interacting proteins as neuronal and non-neuronal calcium sensors

Bähring

2018

Channels

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“…22 Interestingly, the C-terminal loop (residues 242-244) connecting a-helix 9 and ahelix10 in the C-terminal domain exhibits high flexibility in the Ca 21 bound structure. As expected, smaller changes in protein flexibility due to Ca 21 binding to DREAM are observed for the N-terminal domain of the protein.…”

Section: Molecular Dynamics Studiesmentioning

confidence: 99%

“…20,21 The role of Ca 21 in regulating DREAM functions and the structural basis of DREAM interactions with multiple partners are not fully understood. Although the solution structure of Ca 21 bound DREAM (residues 76-256) is known 22 as well as the solution structure of the C-terminal domain (residues 161-256) of Ca 21 bound DREAM, 23 it is unclear how the Ca 21 / Mg 21 association to the EF hands alters the structural properties of DREAM. Considering the large number of DREAM interacting proteins, understanding the structural diversity could provide important insight into the relationship between the sequence, structure, and the target diversity of DREAM and NCS proteins in general.…”

Section: Introductionmentioning

confidence: 99%

Ca²⁺ and Mg²⁺ modulate conformational dynamics and stability of downstream regulatory element antagonist modulator

et al. 2015

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Downstream Regulatory Element Antagonist Modulator (DREAM) belongs to the family of neuronal calcium sensors (NCS) that transduce the intracellular changes in Ca 21 concentration into a variety of responses including gene expression, regulation of Kv channel activity, and calcium homeostasis. Despite the significant sequence and structural similarities with other NCS members, DREAM shows several features unique among NCS such as formation of a tetramer in the apo-state, and interactions with various intracellular biomacromolecules including DNA, presenilin, Kv channels, and calmodulin. Here we use spectroscopic techniques in combination with molecular dynamics simulation to study conformational changes induced by Ca 21 /Mg 21 association to DREAM. Our data indicate a minor impact of Ca 21 association on the overall structure of the Nand C-terminal domains, although Ca 21 binding decreases the conformational heterogeneity as evident from the decrease in the fluorescence lifetime distribution in the Ca 21 bound forms of the protein. Time-resolved fluorescence data indicate that Ca 21 binding triggers a conformational transition that is characterized by more efficient quenching of Trp residue. The unfolding of DREAM occurs through an partially unfolded intermediate that is stabilized by Ca 21 association to EF-hand 3 and EF-hand 4. The native state is stabilized with respect to the partially unfolded state only in the presence of both Ca 21 and Mg 21 suggesting that, under physiological conditions, Ca 21 free DREAM exhibits a high conformational flexibility that may facilitate its physiological functions.

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Molecular insight of DREAM and presenilin 1 C‐terminal fragment interactions

Pham

Mikšovská

2016

FEBS Letters

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Edited by Alfonso ValenciaInteractions between downstream regulatory element antagonist modulator (DREAM) and presenilin 1 (PS1) are related to numerous neuronal processes. We demonstrate that association of PS1 carboxyl peptide (residues 445-467, HL9) with DREAM is calcium dependent and stabilized by a cluster of three aromatic residues: F462 and F465 from PS1 and F252 from DREAM. Additional stabilization is provided by residues in a loop connecting a helices 7 and 8 in DREAM and residues of PS1, namely cation-p interactions between R200 in DREAM and F465 in PS1 and the salt bridges formed by R207 in DREAM and D450 and D458 in PS1.

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NMR Structure of DREAM: Implications for Ca²⁺-Dependent DNA Binding and Protein Dimerization^,

Cited by 53 publications

References 67 publications

Kv channel-interacting proteins as neuronal and non-neuronal calcium sensors

Kv channel-interacting proteins as neuronal and non-neuronal calcium sensors

Ca²⁺ and Mg²⁺ modulate conformational dynamics and stability of downstream regulatory element antagonist modulator

Molecular insight of DREAM and presenilin 1 C‐terminal fragment interactions

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NMR Structure of DREAM: Implications for Ca2+-Dependent DNA Binding and Protein Dimerization,

Cited by 53 publications

References 67 publications

Kv channel-interacting proteins as neuronal and non-neuronal calcium sensors

Kv channel-interacting proteins as neuronal and non-neuronal calcium sensors

Ca2+ and Mg2+ modulate conformational dynamics and stability of downstream regulatory element antagonist modulator

Molecular insight of DREAM and presenilin 1 C‐terminal fragment interactions

Contact Info

Product

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NMR Structure of DREAM: Implications for Ca²⁺-Dependent DNA Binding and Protein Dimerization^,

Ca²⁺ and Mg²⁺ modulate conformational dynamics and stability of downstream regulatory element antagonist modulator