A mechanism for cancer‐associated inactivation of NQO1 due to P187S and its reactivation by the consensus mutation H80R

Muñoz, Inés G.; Morel, Bertrand; Medina‐Carmona, Encarnación; Pey, Ángel L.

doi:10.1002/1873-3468.12772

Cited by 22 publications

(48 citation statements)

References 26 publications

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“…Cell sensitivity to ansamycin inhibitors of HSP90 was also associated with expression of NQO1 encoding NAD(P)H:quinone oxidoreductase 1 that converted these compounds to hydroquinone to enhance their activity by increasing hydrogen bonding [99]. It was reported that NQO1 P187S variant exerted diminished activity compared with wild-type NQO1 [99], but genetic alterations affecting a His 80 residue in this protein could compensate for P187S substitution [100]. Loss of NQO1 expression and acquisition of NQO1 P187S variant contributed to the development of resistance to 17-AAG [101].…”

Section: Benzoquinone Inhibitorsmentioning

confidence: 99%

Inhibitors of HSP90 in melanoma

Mielczarek-Lewandowska

Hartman

Czyż

2019

Apoptosis

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HSP90 (heat shock protein 90) is an ATP-dependent molecular chaperone involved in a proper folding and maturation of hundreds of proteins. HSP90 is abundantly expressed in cancer, including melanoma. HSP90 client proteins are the key oncoproteins of several signaling pathways controlling melanoma development, progression and response to therapy. A number of natural and synthetic compounds of different chemical structures and binding sites within HSP90 have been identified as selective HSP90 inhibitors. The majority of HSP90-targeting agents affect N-terminal ATPase activity of HSP90. In contrast to N-terminal inhibitors, agents interacting with the middle and C-terminal domains of HSP90 do not induce HSP70dependent cytoprotective response. Several inhibitors of HSP90 were tested against melanoma in pre-clinical studies and clinical trials, providing evidence that these agents can be considered either as single or complementary therapeutic strategy. This review summarizes current knowledge on the role of HSP90 protein in cancer with focus on melanoma, and provides an overview of structurally different HSP90 inhibitors that are considered as potential therapeutics for melanoma treatment.

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Section: Benzoquinone Inhibitorsmentioning

confidence: 99%

Inhibitors of HSP90 in melanoma

Mielczarek-Lewandowska

Hartman

Czyż

2019

Apoptosis

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“…NQO1apo exists as a stable and expanded dimer characterized by significantly large conformational flexibility [76,78,79,80,119,130,131,132]. Although no high resolution structural model is available for this state, recent kinetic studies using hydrogen-deuterium exchange mass spectrometry (HDXMS) have identified a minimal stable core that holds the protein dimer while most of the protein exists forming a highly dynamic structural ensemble, including the FAD and substrate binding sites in non-competent states for binding [129].…”

Section: Changes In Nqo1 Stability Structure and Dynamics Upon Liganmentioning

confidence: 99%

“…Binding of FAD triggers a large conformational change leading to compaction of the protein dimer, increase in ordered secondary structure, overall conformational stabilization and a large decrease of protein dynamics that is sensed in almost the entire protein structure [78,79,80,119,129,130,131,133]. This NQO1holo state is amenable for high-resolution structural studies [81]( Figure 6A).…”

Section: Changes In Nqo1 Stability Structure and Dynamics Upon Liganmentioning

confidence: 99%

“…Binding of dicoumarol (or NAD + ) causes small structural rearrangements in the protein structure [75,78,81,131,134] (Figure 6A). Therefore, from NQO1 structural point of view, it is not straightforward to understand how NQO1dic prevents binding to or largely decrease binding affinity for macromolecular partners with subsequent effects on the stability of these partners [78,127].…”

Section: Changes In Nqo1 Stability Structure and Dynamics Upon Liganmentioning

confidence: 99%

“…This seems to be paradoxical, because P187 is fully buried in the protein structure, close to the NQO1 dimer interface and belongs to the minimally stable core of NQO1apo, and thus, a mutation to serine should have catastrophic effects on protein structure and function [129,136]. Detailed biochemical, biophysical, computational and mutational studies have shown that the effects of p.P187S are pleiotropic in the structure, function and stability of NQO1apo and NQO1holo, highlighting the critical role of propagation of the local stability effects due to p.P187S to long distances in the protein structure and affecting the dynamics and stability of critical regions of NQO1 function [78,79,90,119,120,122,131,133,136,137]. These studies on p.P187S have also supported that different functional sites located far (over 10-20 Å ) in the structure are functionally and energetically coupled, and thus, we might modify the interaction of NQO1 with its partners by using an allosteric site (i.e.…”

Section: Mutations and Polymorphisms In Nqo1 Disease And Protein Intmentioning

confidence: 99%

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Targeting HIF-1α Function in Cancer through the Chaperone Action of NQO1

Salido¹,

Timson²,

Betancor-Fernández³

et al. 2020

Preprint

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HIF-1α is a master regulator of oxygen homeostasis involved in different stages of cancer development. Thus, HIF-1α inhibition represents an interesting target for anti-cancer therapy. It was recently shown that HIF-1α interaction with NQO1 inhibits its proteasomal degradation, thus suggesting that targeting the stability of NQO1 could led to destabilization of HIF-1α as a therapeutic approach. Since the molecular interactions of NQO1 with HIF-1α are beginning to be unraveled, we review here our current knowledge on the intracellular functions and stability of NQO1, its pharmacological modulation by small ligands, and the molecular determinants of its roles as a chaperone of many different proteins including cancer-associated factors such as p53 and p73α. This knowledge is then discussed in the context of potentially targeting the intracellular stability of HIF-1α by acting on its chaperone, NQO1. This could result in novel anti-cancer therapies.

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A single evolutionarily divergent mutation determines the different FAD‐binding affinities of human and rat NQO1 due to site‐specific phosphorylation

et al. 2021

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HDXMS, hydrogen-deuterium exchange monitored by mass spectrometry; hNQO1, human NADP(H):quinone oxidoreductase 1; K d , dissociation constant; k prot , second-order rate constant for proteolysis; MD, molecular dynamics; NQO1 apo , ligand-free NQO1; NQO1 dic , FAD-dicoumarol-bound NQO1; NQO1 holo , FAD-bound NQO1; NTD, N-terminal domain; rNQO1, rat NADP(H):quinone oxidoreductase 1; TCS, thermolysin cleavage site; ΔΔG, change in the free energy change between two states (e.g. mutant and WT protein).

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A mechanism for cancer‐associated inactivation of NQO1 due to P187S and its reactivation by the consensus mutation H80R

Cited by 22 publications

References 26 publications

Inhibitors of HSP90 in melanoma

Inhibitors of HSP90 in melanoma

Targeting HIF-1α Function in Cancer through the Chaperone Action of NQO1

A single evolutionarily divergent mutation determines the different FAD‐binding affinities of human and rat NQO1 due to site‐specific phosphorylation

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A mechanism for cancer‐associated inactivation of NQO1 due to P187S and its reactivation by the consensus mutation H80R

Cited by 22 publications

References 26 publications

Inhibitors of HSP90 in melanoma

Inhibitors of HSP90 in melanoma

Targeting HIF-1&alpha; Function in Cancer through the Chaperone Action of NQO1

A single evolutionarily divergent mutation determines the different FAD‐binding affinities of human and rat NQO1 due to site‐specific phosphorylation

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Targeting HIF-1α Function in Cancer through the Chaperone Action of NQO1