Karolina Gajda scite author profile

Maturation of cytochrome oxidases is a complex process requiring assembly of several subunits and adequate uptake of the metal cofactors. Two orthologous Sco proteins (Sco1 and Sco2) are essential for the correct assembly of the dicopper Cu A site in the human oxidase, but their function is not fully understood. Here, we report an in vitro biochemical study that shows that Sco1 is a metallochaperone that selectively transfers Cu(I) ions based on loop recognition, whereas Sco2 is a copper-dependent thiol reductase of the cysteine ligands in the oxidase. Copper binding to Sco2 is essential to elicit its redox function and as a guardian of the reduced state of its own cysteine residues in the oxidizing environment of the mitochondrial intermembrane space (IMS). These results provide a detailed molecular mechanism for Cu A assembly, suggesting that copper and redox homeostasis are intimately linked in the mitochondrion.

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N-terminal domains mediate [2Fe-2S] cluster transfer from glutaredoxin-3 to anamorsin

Banci

Ciofi‐Baffoni

Gajda

et al. 2015

Nat Chem Biol

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In eukaryotes, cytosolic monothiol glutaredoxins are proteins implicated in intracellular iron trafficking and sensing via their bound [2Fe-2S] clusters. We define a new role of human cytosolic monothiol glutaredoxin-3 (GRX3) in transferring its [2Fe-2S] clusters to human anamorsin, a physical and functional protein partner of GRX3 in the cytosol, whose [2Fe-2S] cluster-bound form is involved in the biogenesis of cytosolic and nuclear Fe-S proteins. Specific protein recognition between the N-terminal domains of the two proteins is the mandatory requisite to promote the [2Fe-2S] cluster transfer from GRX3 to anamorsin.

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Induction of bystander effects by UVA, UVB, and UVC radiation in human fibroblasts and the implication of reactive oxygen species

Wideł

Krzywon

Gajda

et al. 2014

Free Radical Biology and Medicine

112

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Copper(ii) coordination outside the tandem repeat region of an unstructured domain of chicken prion protein

Gralka

Valensin²,

Gajda³

et al. 2009

Mol. BioSyst.

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Combined potentiometric, calorimetric and spectroscopic methods were used to investigate the Cu(2+) binding ability and coordination behaviour of some peptide fragments related to the neurotoxic region of chicken Prion Protein. The systems studied were the following protein fragments: chPrP(106-114), chPrP(119-126), chPrP(108-127), chPrP(105-127) and chPrP(105-133).The complex formation always starts around pH 4 with the coordination of an imidazole nitrogen, followed by the deprotonation and binding of amide nitrogens from the peptidic backbone. At neutral pH, the {N(im), 3N(-)} binding mode is the preferred one. The amide nitrogens participating in the binding to the Cu(2+) ion derive from residues from the N-terminus side, with the formation of a six-membered chelate ring with the imidazolic side chain.Comparison of thermodynamic data for the two histydyl binding domains (around His-110 and His-124), clearly indicates that the closest to the hexarepeat domain (His-110) has the highest ability to bind Cu(2+) ions, although both of them have the same coordination mode. Conversely, in the case of the human neurotoxic peptide region, between the two binding sites, located at His-96 and His-111, the farthest from the tandem repeat region is the strongest one. Finally, thermodynamic data show that chicken peptide is a distinctly better ligand for coordination of copper ions with respect to the human fragment.

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Copper binding to chicken and human prion protein amylodogenic regions: Differences and similarities revealed by Ni2+ as a diamagnetic probe

Valensin

Gajda

Gralka

et al. 2010

Journal of Inorganic Biochemistry

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Characteristic of c-Kit+ progenitor cells in explanted human hearts

et al. 2014

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According to literature data, self-renewing, multipotent, and clonogenic cardiac c-Kit+ progenitor cells occur within human myocardium. The aim of this study was to isolate and characterize c-Kit+ progenitor cells from explanted human hearts. Experimental material was obtained from 19 adult and 7 pediatric patients. Successful isolation and culture was achieved for 95 samples (84.1 %) derived from five different regions of the heart: right and left ventricles, atrium, intraventricular septum, and apex. The average percentage of c-Kit+ cells, as assessed by FACS, ranged between 0.7 and 0.9 %. In contrast to published data we do not observed statistically significant differences in the number of c-Kit+ cells between disease-specific groups, parts of the heart or sexes. Nevertheless, c-Kit+ cells were present in significant numbers (11–24 %) in samples derived from three explanted pediatric hearts. c-Kit+ cells were also positive for CD105 and a majority of them was positive for CD31 and CD34 (83.7 ± 8.6 and 75.7 ± 11.4 %, respectively). Immunohistochemical analysis of the heart tissue revealed that most cells possessing the c-Kit antigen were also positive for tryptase, a specific mast cell marker. However, flow cytometry analysis has shown cultured c-Kit+ cells to be negative for hematopoietic marker CD45 and mast cell marker CD33. Isolated c-Kit+ cells display mesenchymal stem cell features and are thought to differentiate into endothelial cells.

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Targeting and Maturation of Erv1/ALR in the Mitochondrial Intermembrane Space

et al. 2012

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The interaction of Mia40 with Erv1/ALR is central to the oxidative protein folding in the intermembrane space of mitochondria (IMS) as Erv1/ALR oxidizes reduced Mia40 to restore its functional state. Here we address the role of Mia40 in the import and maturation of Erv1/ALR. The C-terminal FAD-binding domain of Erv1/ALR has an essential role in the import process by creating a transient intermolecular disulfide bond with Mia40. The action of Mia40 is selective for the formation of both intra and intersubunit structural disulfide bonds of Erv1/ALR, but the complete maturation process requires additional binding of FAD. Both of these events must follow a specific sequential order to allow Erv1/ALR to reach the fully functional state, illustrating a new paradigm for protein maturation in the IMS.

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An Intrinsically Disordered Domain Has a Dual Function Coupled to Compartment-Dependent Redox Control

Banci

Bertini

Cefaro

et al. 2013

Journal of Molecular Biology

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12 3

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Karolina Gajda

Loop recognition and copper-mediated disulfide reduction underpin metal site assembly of Cu _A in human cytochrome oxidase

N-terminal domains mediate [2Fe-2S] cluster transfer from glutaredoxin-3 to anamorsin

Induction of bystander effects by UVA, UVB, and UVC radiation in human fibroblasts and the implication of reactive oxygen species

Copper(ii) coordination outside the tandem repeat region of an unstructured domain of chicken prion protein

Copper binding to chicken and human prion protein amylodogenic regions: Differences and similarities revealed by Ni2+ as a diamagnetic probe

Characteristic of c-Kit+ progenitor cells in explanted human hearts

Targeting and Maturation of Erv1/ALR in the Mitochondrial Intermembrane Space

An Intrinsically Disordered Domain Has a Dual Function Coupled to Compartment-Dependent Redox Control

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Karolina Gajda

Loop recognition and copper-mediated disulfide reduction underpin metal site assembly of Cu A in human cytochrome oxidase

N-terminal domains mediate [2Fe-2S] cluster transfer from glutaredoxin-3 to anamorsin

Induction of bystander effects by UVA, UVB, and UVC radiation in human fibroblasts and the implication of reactive oxygen species

Copper(ii) coordination outside the tandem repeat region of an unstructured domain of chicken prion protein

Copper binding to chicken and human prion protein amylodogenic regions: Differences and similarities revealed by Ni2+ as a diamagnetic probe

Characteristic of c-Kit+ progenitor cells in explanted human hearts

Targeting and Maturation of Erv1/ALR in the Mitochondrial Intermembrane Space

An Intrinsically Disordered Domain Has a Dual Function Coupled to Compartment-Dependent Redox Control

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Loop recognition and copper-mediated disulfide reduction underpin metal site assembly of Cu _A in human cytochrome oxidase