Łukasz Samluk scite author profile

The generation of reactive oxygen species (ROS) is inevitably linked to life. However, the precise role of ROS in signalling and specific targets is largely unknown. We perform a global proteomic analysis to delineate the yeast redoxome to a depth of more than 4,300 unique cysteine residues in over 2,200 proteins. Mapping of redox-active thiols in proteins exposed to exogenous or endogenous mitochondria-derived oxidative stress reveals ROS-sensitive sites in several components of the translation apparatus. Mitochondria are the major source of cellular ROS. We demonstrate that increased levels of intracellular ROS caused by dysfunctional mitochondria serve as a signal to attenuate global protein synthesis. Hence, we propose a universal mechanism that controls protein synthesis by inducing reversible changes in the translation machinery upon modulating the redox status of proteins involved in translation. This crosstalk between mitochondria and protein synthesis may have an important contribution to pathologies caused by dysfunctional mitochondria.

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Oleanolic acid and ursolic acid affect peptidoglycan metabolism in Listeria monocytogenes

Kurek

Grudniak

Szwed

et al. 2009

Antonie van Leeuwenhoek

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The plant pentacyclic triterpenoids, oleanolic and ursolic acids, inhibit the growth and survival of many bacteria, particularly Gram-positive species, including pathogenic ones. The effect of these compounds on the facultative human pathogen Listeria monocytogenes was examined. Both acids affected cell morphology and enhanced autolysis of the bacterial cells. Autolysis of isolated cell walls was inhibited by oleanolic acid, but the inhibitory activity of ursolic acid was less pronounced. Both compounds inhibited peptidoglycan turnover and quantitatively affected the profile of muropeptides obtained after digestion of peptidoglycan with mutanolysin. These results suggest that peptidoglycan metabolism is a cellular target of oleanolic and ursolic acids.

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Cytosolic translational responses differ under conditions of severe short-term and long-term mitochondrial stress

Samluk

Urbańska

Kisielewska

et al. 2019

MBoC

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Previous studies demonstrated that cells inhibit protein synthesis as a compensatory mechanism for mitochondrial dysfunction. Protein synthesis can be attenuated by 1) the inhibition of mTOR kinase, which results in a decrease in the phosphorylation of S6K1 and 4E-BP1 proteins, and 2) an increase in the phosphorylation of eIF2α protein. The present study investigated both of these pathways under conditions of short-term acute and long-term mitochondrial stress. Short-term responses were triggered in mammalian cells by treatment with menadione, antimycin A, or CCCP. Long-term mitochondrial stress was induced by prolonged treatment with menadione or rotenone and expression of genetic alterations, such as knocking down the MIA40 oxidoreductase or knocking out NDUFA11 protein. Short-term menadione, antimycin A, or CCCP cell treatment led to the inhibition of protein synthesis, accompanied by a decrease in mTOR kinase activity, an increase in the phosphorylation of eIF2α (Ser51), and an increase in the level of ATF4 transcription factor. Conversely, long-term stress led to a decrease in eIF2α (Ser51) phosphorylation and ATF4 expression and to an increase in S6K1 (Thr389) phosphorylation. Thus, under long-term mitochondrial stress, cells trigger long-lasting adaptive responses for protection against excessive inhibition of protein synthesis.

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Organic cation/carnitine transporter OCTN3 is present in astrocytes and is up-regulated by peroxisome proliferators-activator receptor agonist

Januszewicz

Pająk

Gajkowska

et al. 2009

The International Journal of Biochemistry & Cell Biology

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Protein kinase C regulates amino acid transporter ATB0,+

Samluk

Czeredys

Skowronek

et al. 2012

Biochemical and Biophysical Research Communications

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Caveolin-1 - A Novel Interacting Partner of Organic Cation/Carnitine Transporter (Octn2): Effect of Protein Kinase C on This Interaction in Rat Astrocytes

et al. 2013

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OCTN2 - the Organic Cation Transporter Novel family member 2 (SLC22A5) is known to be a xenobiotic/drug transporter. It transports as well carnitine - a compound necessary for oxidation of fatty acids and mutations of its gene cause primary carnitine deficiency. Octn2 regulation by protein kinase C (PKC) was studied in rat astrocytes - cells in which β-oxidation takes place in the brain. Activation of PKC with phorbol ester stimulated L-carnitine transport and increased cell surface presence of the transporter, although no PKC-specific phosphorylation of Octn2 could be detected. PKC activation resulted in an augmented Octn2 presence in cholesterol/sphingolipid-rich microdomains of plasma membrane (rafts) and increased co-precipitation of Octn2 with raft-proteins, caveolin-1 and flotillin-1. Deletion of potential caveolin-1 binding motifs pointed to amino acids 14–22 and 447–454 as the caveolin-1 binding sites within Octn2 sequence. A direct interaction of Octn2 with caveolin-1 in astrocytes upon PKC activation was detected by proximity ligation assay, while such an interaction was excluded in case of flotillin-1. Functioning of a multi-protein complex regulated by PKC has been postulated in rOctn2 trafficking to the cell surface, a process which could be important both under physiological conditions, when carnitine facilitates fatty acids catabolism and controls free Coenzyme A pool as well as in pathology, when transport of several drugs can induce secondary carnitine deficiency.

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Regulation of amino acid/carnitine transporter B^0,+ (ATB^0,+) in astrocytes by protein kinase C: independent effects on raft and non‐raft transporter subpopulations

Samluk¹,

Czeredys²,

Nałęcz³

2010

Journal of Neurochemistry

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Abbreviations used: Bis II, bisindolylmaleimide II; MbCD, methyl-bcyclodextrin; PBS, phosphate-buffered saline; PKC, protein kinase C; PMA, phorbol 12-myristate 13-acetate; SDS, sodium dodecyl sulfate. AbstractNeutral and basic amino acid transporter B 0,+ belongs to a Na,Cl-dependent superfamily of proteins transporting neurotransmitters, amino acids and osmolytes, known to be regulated by protein kinase C (PKC). The present study demonstrates an increased phosphorylation of B 0,+ on serine moiety after treatment of rat astrocytes with phorbol 12-myristate 13-acetate, a process correlated with an augmented activity of L-leucine transport and an enhanced presence of the transporter at the cell surface. After solubilization with Triton X-100 and sucrose gradient centrifugation, B 0,+ was detected in non-raft as well as in detergent-resistant raft fractions under control conditions, while phorbol 12-myristate 13-acetate treatment resulted in a complete disappearance of the transporter from the raft fraction. B 0,+ was observed to interact with caveolin-1 and flotillin-1 (reggie-2) proteins, the markers of detergent-resistant microdomains of plasma membrane. As verified in immunocytochemistry and immunoprecipitation experiments, modification of PKC activity did not affect these interactions. It is proposed that PKC reveals different effects on raft and non-raft subpopulations of B 0,+ .Phorbol ester treatment results in trafficking of the transporter from the intracellular pool to non-raft microdomains and increased activity, while B 0,+ present in raft microdomains undergoes either internalization or is transferred laterally to non-raft domains.

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Mitochondrial protein import stress and signaling

Samluk

Chrościcki

Chacińska

2018

Current Opinion in Physiology

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Łukasz Samluk

Quantitative proteomics identifies redox switches for global translation modulation by mitochondrially produced reactive oxygen species

Oleanolic acid and ursolic acid affect peptidoglycan metabolism in Listeria monocytogenes

Cytosolic translational responses differ under conditions of severe short-term and long-term mitochondrial stress

Organic cation/carnitine transporter OCTN3 is present in astrocytes and is up-regulated by peroxisome proliferators-activator receptor agonist

Protein kinase C regulates amino acid transporter ATB0,+

Caveolin-1 - A Novel Interacting Partner of Organic Cation/Carnitine Transporter (Octn2): Effect of Protein Kinase C on This Interaction in Rat Astrocytes

Regulation of amino acid/carnitine transporter B^0,+ (ATB^0,+) in astrocytes by protein kinase C: independent effects on raft and non‐raft transporter subpopulations

Mitochondrial protein import stress and signaling

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Łukasz Samluk

Quantitative proteomics identifies redox switches for global translation modulation by mitochondrially produced reactive oxygen species

Oleanolic acid and ursolic acid affect peptidoglycan metabolism in Listeria monocytogenes

Cytosolic translational responses differ under conditions of severe short-term and long-term mitochondrial stress

Organic cation/carnitine transporter OCTN3 is present in astrocytes and is up-regulated by peroxisome proliferators-activator receptor agonist

Protein kinase C regulates amino acid transporter ATB0,+

Caveolin-1 - A Novel Interacting Partner of Organic Cation/Carnitine Transporter (Octn2): Effect of Protein Kinase C on This Interaction in Rat Astrocytes

Regulation of amino acid/carnitine transporter B0,+ (ATB0,+) in astrocytes by protein kinase C: independent effects on raft and non‐raft transporter subpopulations

Mitochondrial protein import stress and signaling

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Regulation of amino acid/carnitine transporter B^0,+ (ATB^0,+) in astrocytes by protein kinase C: independent effects on raft and non‐raft transporter subpopulations