The conformational state of the activation loop (A‐loop) is pivotal for the activity of most protein kinases. Hence, the characterization of the conformational dynamics of the A‐loop is important to increase our understanding of the molecular processes related to diseases and to support the discovery of small molecule kinase inhibitors. Here, we carry out a combination of molecular dynamics (MD) and essential dynamics (ED) analyses to fully map the effects of phosphorylation, ADP, and conformation disrupting (CD) inhibitors (i.e., CD532 and MLN8054) on the dynamics of the A‐loop of Aurora‐A. MD revealed that the stability of the A‐loop in an open conformation is enhanced by single phospho‐Thr‐288, while paradoxically, the presence of a second phosphoryla-tion at Thr‐287 decreases such stability and renders the A‐loop more fluctuant in time and space. Moreover, we found that this post‐translational modification has a significant effect on the direc-tion of the A‐loop motions. ED analysis suggests that the presence of the phosphate moiety induces the dynamics of Aurora‐A to sample two distinct energy minima, instead of a single large mini-mum, as in unphosphorylated Aurora‐A states. This observation indicates that the conformational distributions of Aurora‐A with both single and double phospho‐threonine modifications are re-markably different from the unphosphorylated state. In the closed states, binding of CD532 and MLN8054 inhibitors has the effect of increasing the distance of the N‐ and C‐lobes of the kinase domain of Aurora‐A, and the angle analysis between those two lobes during MD simulations showed that the N‐ and C‐lobes are kept more open in presence of CD532, compared to MLN8054. As the A‐loop is a common feature of Aurora protein kinases, our studies provide a general de-scription of the conformational dynamics of this structure upon phosphorylation and different ligands binding.

Phosphorylation, mg‐adp, and inhibitors differentially shape the conformational dynamics of the a‐loop of aurora‐a / Musavizadeh, Z.; Grottesi, A.; Guarguaglini, G.; Paiardini, A.. - In: BIOMOLECULES. - ISSN 2218-273X. - 11:4(2021), p. 567. [10.3390/biom11040567]

Phosphorylation, mg‐adp, and inhibitors differentially shape the conformational dynamics of the a‐loop of aurora‐a

Musavizadeh Z.
Primo
;
Grottesi A.
Secondo
;
Guarguaglini G.
Penultimo
;
Paiardini A.
Ultimo
2021

Abstract

The conformational state of the activation loop (A‐loop) is pivotal for the activity of most protein kinases. Hence, the characterization of the conformational dynamics of the A‐loop is important to increase our understanding of the molecular processes related to diseases and to support the discovery of small molecule kinase inhibitors. Here, we carry out a combination of molecular dynamics (MD) and essential dynamics (ED) analyses to fully map the effects of phosphorylation, ADP, and conformation disrupting (CD) inhibitors (i.e., CD532 and MLN8054) on the dynamics of the A‐loop of Aurora‐A. MD revealed that the stability of the A‐loop in an open conformation is enhanced by single phospho‐Thr‐288, while paradoxically, the presence of a second phosphoryla-tion at Thr‐287 decreases such stability and renders the A‐loop more fluctuant in time and space. Moreover, we found that this post‐translational modification has a significant effect on the direc-tion of the A‐loop motions. ED analysis suggests that the presence of the phosphate moiety induces the dynamics of Aurora‐A to sample two distinct energy minima, instead of a single large mini-mum, as in unphosphorylated Aurora‐A states. This observation indicates that the conformational distributions of Aurora‐A with both single and double phospho‐threonine modifications are re-markably different from the unphosphorylated state. In the closed states, binding of CD532 and MLN8054 inhibitors has the effect of increasing the distance of the N‐ and C‐lobes of the kinase domain of Aurora‐A, and the angle analysis between those two lobes during MD simulations showed that the N‐ and C‐lobes are kept more open in presence of CD532, compared to MLN8054. As the A‐loop is a common feature of Aurora protein kinases, our studies provide a general de-scription of the conformational dynamics of this structure upon phosphorylation and different ligands binding.
2021
Activation loop; Aurora‐A; conformational dynamics; molecular dynamics simulation; adenosine diphosphate; aurora kinase A; benzazepines; catalytic domain; humans; phenylurea compounds; phosphorylation; protein binding; protein kinase inhibitors; pyrimidines;
01 Pubblicazione su rivista::01a Articolo in rivista
Phosphorylation, mg‐adp, and inhibitors differentially shape the conformational dynamics of the a‐loop of aurora‐a / Musavizadeh, Z.; Grottesi, A.; Guarguaglini, G.; Paiardini, A.. - In: BIOMOLECULES. - ISSN 2218-273X. - 11:4(2021), p. 567. [10.3390/biom11040567]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1573946
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