Sambuddha Sen scite author profile

The [2Fe-2S] cluster-bridged complex of BOLA3 with GLRX5 has been implicated in cluster trafficking, but cluster exchange involving this heterocomplex has not been reported. Herein we describe an investigation of the cluster exchange reactivity of holo BOLA3-GLRX complexes using two different monothiol glutaredoxins, H.s. GLRX5 and S.c. Grx3, which share significant identity. We observe that a 1 : 1 mixture of apo BOLA3 and glutaredoxin protein is able to accept a cluster from donors such as ISCU and a [2Fe-2S](GS)4 complex, with preferential formation of the cluster-bridged heterodimer over the plausible holo homodimeric glutaredoxin. Holo BOLA3-GLRX5 transfers clusters to apo acceptors at rates comparable to other Fe-S cluster trafficking proteins. Isothermal titration calorimetry experiments with apo proteins demonstrated a strong binding of BOLA3 with both GLRX5 and Grx3, while binding with an alternative mitochondrial partner, NFU1, was weak. Cluster exchange and calorimetry experiments resulted in a very similar behavior for yeast Grx3 (cytosolic) and human GLRX5 (mitochondrial), indicating conservation across the monothiol glutaredoxin family for interactions with BOLA3 and supporting a functional role for the BOLA3-GLRX5 heterocomplex relative to the previously proposed BOLA3-NFU1 interaction. The results also demonstrate rapid formation of the heterocomplexed holo cluster via delivery from a glutathione-complexed cluster, again indicative of the physiological relevance of the [2Fe-2S](GS)4 complex in the cellular labile iron pool.

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Rapid Telomere Reduction in Cancer Cells Induced by G-Quadruplex-Targeting Copper Complexes

Fenk

Huang

et al. 2019

J. Med. Chem.

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Telomere length determines the replicative capacity of mammalian cells. Successive telomere reduction to a critically short length can lead to cellular senescence that irreversibly prevents cells from further cell division. A series of Cu complexes has been designed as selective artificial nucleases that degrade G-quadruplex telomeric DNA and exhibit selective DNA binding affinity and cleavage reactivity toward G-quadruplex telomeric DNA over duplex DNA. In contrast to proteinbased nucleases that usually lack membrane permeability, significant cellular uptake and nuclear localization of these Cu complexes was observed. Rapid telomere reduction of cancer cells was also observed after only 1 day incubation, while the absence of DNA fragmentation indicates a low level of nonselective DNA cleavage. Robust telomere reduction by the designed Cu complexes is an S-phasespecific event that is associated with increased formation of the G-quadruplex structure during DNA replication.

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Iron Acquisition by Bacterial Pathogens: Beyond Tris‐Catecholate Complexes

2020

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Sequestration of the essential nutrient iron from bacterial invaders that colonize the vertebrate host is a central feature of nutritional immunity and the “fight over transition metals” at the host‐pathogen interface. The iron quota for many bacterial pathogens is large, as iron enzymes often make up a significant share of the metalloproteome. Iron enzymes play critical roles in respiration, energy metabolism, and other cellular processes by catalyzing a wide range of oxidation‐reduction, electron transfer, and oxygen activation reactions. In this Concept article, we discuss recent insights into the diverse ways that bacterial pathogens acquire this essential nutrient, beyond the well‐characterized tris‐catecholate FeIII complexes, in competition and cooperation with significant host efforts to cripple these processes. We also discuss pathogen strategies to adapt their metabolism to less‐than‐optimal iron concentrations, and briefly speculate on what might be an integrated adaptive response to the concurrent limitation of both iron and zinc in the infected host.

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Binding of hen egg white lysozyme fibrils with nucleic acids

Ghosh

Pandey

Sen

et al. 2013

Journal of Photochemistry and Photobiology B: Biology

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Characterization of [2Fe–2S]‐Cluster‐Bridged Protein Complexes and Reaction Intermediates by use of Native Mass Spectrometric Methods

et al. 2020

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Many iron–sulfur proteins involved in cluster trafficking form [2Fe–2S]‐cluster‐bridged complexes that are often challenging to characterize because of the inherent instability of the cluster at the interface. Herein, we illustrate the use of fast, online buffer exchange coupled to a native mass spectrometry (OBE nMS) method to characterize [2Fe–2S]‐cluster‐bridged proteins and their transient cluster‐transfer intermediates. The use of this mechanistic and protein‐characterization tool is demonstrated with holo glutaredoxin 5 (GLRX5) homodimer and holo GLRX5:BolA‐like protein 3 (BOLA3) heterodimer. Using the OBE nMS method, cluster‐transfer reactions between the holo‐dimers and apo‐ferredoxin (FDX2) are monitored, and intermediate [2Fe–2S] species, such as (FDX2:GLRX5:[2Fe–2S]:GSH) and (FDX2:BOLA3:GLRX5:[2Fe–2S]:GSH) are detected. The OBE nMS method is a robust technique for characterizing iron–sulfur‐cluster‐bridged protein complexes and transient iron–sulfur‐cluster transfer intermediates.

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Sambuddha Sen

Cluster exchange reactivity of [2Fe–2S] cluster-bridged complexes of BOLA3 with monothiol glutaredoxins

Rapid Telomere Reduction in Cancer Cells Induced by G-Quadruplex-Targeting Copper Complexes

Iron Acquisition by Bacterial Pathogens: Beyond Tris‐Catecholate Complexes

Binding of hen egg white lysozyme fibrils with nucleic acids

Characterization of [2Fe–2S]‐Cluster‐Bridged Protein Complexes and Reaction Intermediates by use of Native Mass Spectrometric Methods

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