Sierra C. Hansen scite author profile

The Na+/H+ exchanger NHE1 is critical for cell vitality as it controls intracellular pH and cell volume. Its functionality is influenced by calcineurin B homologous proteins (CHPs). The human isoform CHP3 is important for transport of NHE1 to the plasma membrane and for its activity. Here, we characterized the binding interaction of human CHP3 with the regulatory domain of NHE1. The exact binding site of CHP3 was previously debated. CHP3 as well as both regions of NHE1 in question were produced and purified. CHP3 specifically formed stable complexes with the CHP-binding region (CBD) of NHE1 (residues 503–545) in size-exclusion chromatography (SEC), but not with the C-terminal region (CTD, residues 633–815). CTD was functional as shown by Ca2+-dependent binding of calmodulin in SEC analysis. CHP3 bound with high affinity to CBD with an equilibrium dissociation constant (KD) of 56 nM determined by microscale thermophoresis. The high affinity was substantiated by isothermal calorimetry analysis (KD = 3 nM), which also revealed that the interaction with CBD is strongly exothermic (ΔG° = −48.6 kJ/mol, ΔH = −75.3 kJ/mol, −TΔS° = 26.7 kJ/mol). The data provide insights in the molecular mechanisms that underlie the regulatory interaction of CHP3 and NHE1 and more general of calcineurin homologous proteins with their target proteins.

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Calcineurin-homologous proteins bind with high affinity to the CBD-region of the human Na+/H+ exchanger NHE1

Liang

Fuchs

Hansen

et al. 2018

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Author response: Conformational regulation and target-myristoyl switch of calcineurin B homologous protein 3

Becker

Fuchs

Drepper

et al. 2023

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Conformational regulation and target-myristoyl switch of calcineurin B homologous protein 3

Becker

Fuchs

Drepper

et al. 2023

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Calcineurin B homologous protein 3 (CHP3) is an EF-hand Ca2+-binding protein involved in regulation of cancerogenesis, cardiac hypertrophy and neuronal development through interactions with sodium/proton exchangers (NHEs) and signalling proteins. While the importance of Ca2+ binding and myristoylation for CHP3 function has been recognized, the underlying molecular mechanism remained elusive. In this study, we demonstrate that Ca2+ binding and myristoylation independently affect the conformation and functions of human CHP3. Ca2+ binding increased local flexibility and hydrophobicity of CHP3 indicative of an open conformation. The Ca2+-bound CHP3 exhibited a higher affinity for NHE1 and associated stronger with lipid membranes compared to the Mg2+-bound CHP3, which adopted a closed conformation. Myristoylation enhanced the local flexibility of CHP3 and decreased its affinity to NHE1 independently of the bound ion, but did not affect its binding to lipid membranes. The data exclude the proposed Ca2+-myristoyl switch for CHP3. Instead, a Ca2+-independent exposure of the myristoyl moiety is induced by binding of the target peptide to CHP3 enhancing its association to lipid membranes. We name this novel regulatory mechanism 'target-myristoyl switch'. Collectively, the interplay of Ca2+ binding, myristoylation, and target binding allows for a context-specific regulation of CHP3 functions.

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Conformational dynamics and target-dependent myristoyl switch of calcineurin B homologous protein 3

Becker

Fuchs

Drepper

et al. 2022

Preprint

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Calcineurin B homologous protein 3 (CHP3) is an EF-hand Ca2+-binding protein involved in regulation of cancerogenesis, cardiac hypertrophy and neuronal development via interactions with sodium/proton exchangers (NHEs) and signalling proteins. CHP3 binds Ca2+ with micromolar affinity providing the basis to respond to intracellular Ca2+ signals. Ca2+ binding and myristoylation are important for CHP3 function but the underlying molecular mechanism remained elusive. Here, we show that Ca2+ binding and myristoylation independently affect conformational dynamics and functions of human CHP3. Ca2+ binding increased flexibility and hydrophobicity of CHP3 indicative of an open conformation. CHP3 in open Ca2+-bound conformation had higher affinity for NHE1 and associated stronger with lipid membranes compared to the closed Mg2+-bound conformation. Myristoylation enhanced flexibility of CHP3 and decreased its affinity to NHE1 independently of the bound ion, but did not affect its binding to lipid membranes. The data exclude the proposed Ca2+-myristoyl switch for CHP3. Instead, they document a Ca2+-independent exposure of the myristoyl moiety induced by binding of the target peptide to CHP3 enhancing its association to lipid membranes. We name this novel regulatory mechanism target-dependent myristoyl switch. Taken together, the interplay of Ca2+ binding, myristoylation and target binding allows for a context-specific regulation of CHP3 functions.

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Sierra C. Hansen

Calcineurin B homologous protein 3 binds with high affinity to the CHP binding domain of the human sodium/proton exchanger NHE1

Calcineurin-homologous proteins bind with high affinity to the CBD-region of the human Na+/H+ exchanger NHE1

Author response: Conformational regulation and target-myristoyl switch of calcineurin B homologous protein 3

Conformational regulation and target-myristoyl switch of calcineurin B homologous protein 3

Conformational dynamics and target-dependent myristoyl switch of calcineurin B homologous protein 3

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