Chloramphenicol inhibits eukaryotic Ser/Thr phosphatase and infection-specific cell differentiation in the rice blast fungus

Nozaka, Akihito; Nishiwaki, Ayaka; Nagashima, Yuka; Endo, Shogo; Kuroki, Misa; Nakajima, Masahiro; Narukawa, Megumi; Kamisuki, Shinji; Arazoe, Takayuki; Taguchi, Hayao; Sugawara, Fumio; Kamakura, Takashi

doi:10.1038/s41598-019-41039-x

Cited by 4 publications

(8 citation statements)

References 60 publications

(63 reference statements)

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“…However, cDNA sequencing showed that only the alleles without the nonsense mutation were being amplified, possibly due to the targeting of nonsense alleles to nonsense-mediated mRNA decay. Chloramphenicol may act through a mechanism other than stop codon read-through [ 275 ] Chloramphenicol n.a In vitro molecular. Read-through level of cspC UGA in E. coli Chloramphenicol increased read-through [ 276 ] Oxazolidinones Linezolid n.a In vitro molecular , lacZ ± UAG or UGA Induction of read-through [ 273 ] Linezolid, Rχ-01 n.a In vitro molecular , lacZ ± UAG or UGA Linezolid induced read-through 5-times less efficient than the investigational oxazolidin Rχ-01 [ 277 ] Tetracyclines Tetracycline n.a In vitro molecular.…”

Section: Drug Class Specific Non-antimicrobial Activities Of Antibiotmentioning

confidence: 99%

“…Read-through level of cspC UGA in E. coli Chloramphenicol increased read-through [ 276 ] Oxazolidinones Linezolid n.a In vitro molecular , lacZ ± UAG or UGA Induction of read-through [ 273 ] Linezolid, Rχ-01 n.a In vitro molecular , lacZ ± UAG or UGA Linezolid induced read-through 5-times less efficient than the investigational oxazolidin Rχ-01 [ 277 ] Tetracyclines Tetracycline n.a In vitro molecular. Read-through level of cspC UGA in E. coli Tetracycline increased read-through [ 275 ] Doxycycline Breast cancer In vitro cellular, murine breast cancer EMT6 cells. The genetic code of the amino acid selenocysteine is UGA Most selenoproteins are oxidoreductases involved in housekeeping processes and stressresponse.…”

Section: Drug Class Specific Non-antimicrobial Activities Of Antibiotmentioning

confidence: 99%

“…The impact of chloramphenicol on gene expression in eukaryotes is possibly due to alternative mechanisms or downstream effects to inhibition of mitochondrial translation resulting in decreases in cell surface transferrin expression, de novo ferritin synthesis, thus affecting iron dependent respiratory chain activity resulting in an reduced ATP synthesis and eventually in reduced tumor cell growth (Table S1). It has been shown recently that chloramphenicol inhibited appressorium formation in Magnaporthe oryzae because of an inhibition of MoDullard, a serine/threonine phosphatase [ 275 ]. Alignment and comparison of amino acid sequences of fungal and human origin revealed that five MoDullard orthologs could be identified from the human genome but only caboxy-terminal domain RNA polymerase II polypeptide A small phosphatase 1 (CTDSP1) complemented the MoDullard function and could be inhibited by chloramphenicol.…”

Section: Drug Class Specific Non-antimicrobial Activities Of Antibiotmentioning

confidence: 99%

“…Small serine phosphatases can exhibit multiple functions in a variety of cellular and biological processes. Human CTDSP1 interacts with a variety of proteins like cell division cycle associated protein 3, myelin basic protein, RE1-silencing transcription factor, some of which are involved in cell differentiation [ 275 ]. If CTDSP1 may represent a novel target for chloramphenicol in humans has to be verified or falsified.…”

Section: Drug Class Specific Non-antimicrobial Activities Of Antibiotmentioning

confidence: 99%

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Selective toxicity of antibacterial agents—still a valid concept or do we miss chances and ignore risks?

Dalhoff

2020

Infection

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Background Selective toxicity antibacteribiotics is considered to be due to interactions with targets either being unique to bacteria or being characterized by a dichotomy between pro- and eukaryotic pathways with high affinities of agents to bacterial- rather than eukaryotic targets. However, the theory of selective toxicity oversimplifies the complex modes of action of antibiotics in pro- and eukaryotes. Methods and objective This review summarizes data describing multiple modes of action of antibiotics in eukaryotes. Results Aminoglycosides, macrolides, oxazolidinones, chloramphenicol, clindamycin, tetracyclines, glycylcyclines, fluoroquinolones, rifampicin, bedaquillin, ß-lactams inhibited mitochondrial translation either due to binding to mitosomes, inhibition of mitochondrial RNA-polymerase-, topoisomerase 2ß-, ATP-synthesis, transporter activities. Oxazolidinones, tetracyclines, vancomycin, ß-lactams, bacitracin, isoniazid, nitroxoline inhibited matrix-metalloproteinases (MMP) due to chelation with zinc and calcium, whereas fluoroquinols fluoroquinolones and chloramphenicol chelated with these cations, too, but increased MMP activities. MMP-inhibition supported clinical efficacies of ß-lactams and daptomycin in skin-infections, and of macrolides, tetracyclines in respiratory-diseases. Chelation may have contributed to neuroprotection by ß-lactams and fluoroquinolones. Aminoglycosides, macrolides, chloramphenicol, oxazolidins oxazolidinones, tetracyclines caused read-through of premature stop codons. Several additional targets for antibiotics in human cells have been identified like interaction of fluoroquinolones with DNA damage repair in eukaryotes, or inhibition of mucin overproduction by oxazolidinones. Conclusion The effects of antibiotics on eukaryotes are due to identical mechanisms as their antibacterial activities because of structural and functional homologies of pro- and eukaryotic targets, so that the effects of antibiotics on mammals are integral parts of their overall mechanisms of action.

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Section: Drug Class Specific Non-antimicrobial Activities Of Antibiotmentioning

confidence: 99%

Section: Drug Class Specific Non-antimicrobial Activities Of Antibiotmentioning

confidence: 99%

Section: Drug Class Specific Non-antimicrobial Activities Of Antibiotmentioning

confidence: 99%

Section: Drug Class Specific Non-antimicrobial Activities Of Antibiotmentioning

confidence: 99%

See 2 more Smart Citations

Selective toxicity of antibacterial agents—still a valid concept or do we miss chances and ignore risks?

Dalhoff

2020

Infection

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“…These data suggest that Scp1 may represent a potential drug target and Scp1-specific inhibitors may represent valuable therapeutics for preventing the spreading of particular tumors. To date, some studies have reported specific inhibitors for FCP/SCP-type PSPs, including for Scp1 [30,31]. It is reported that rabeprazole, which is a drug for gastroesophageal reflux disease, can function as a specific inhibitor for Scp phosphatases including Scp1, but it did not show the inhibitory activity against other FCP/SCP type phosphatase, Fcp1 and Dullard, or bacteriophage λ Ser/Thr phosphatases [30,32].…”

Section: Introductionmentioning

confidence: 99%

Methods for Identification of Substrates/Inhibitors of FCP/SCP Type Protein Ser/Thr Phosphatases

et al. 2020

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Protein phosphorylation is the most widespread type of post-translational modification and is properly controlled by protein kinases and phosphatases. Regarding the phosphorylation of serine (Ser) and threonine (Thr) residues, relatively few protein Ser/Thr phosphatases control the specific dephosphorylation of numerous substrates, in contrast with Ser/Thr kinases. Recently, protein Ser/Thr phosphatases were reported to have rigid substrate recognition and exert various biological functions. Therefore, identification of targeted proteins by individual protein Ser/Thr phosphatases is crucial to clarify their own biological functions. However, to date, information on the development of methods for identification of the substrates of protein Ser/Thr phosphatases remains scarce. In turn, substrate-trapping mutants are powerful tools to search the individual substrates of protein tyrosine (Tyr) phosphatases. This review focuses on the development of novel methods for the identification of Ser/Thr phosphatases, especially small C-terminal domain phosphatase 1 (Scp1), using peptide-displayed phage library with AlF4−/BeF3−, and discusses the identification of putative inhibitors.

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Phage display technology for target determination of small-molecule therapeutics: an update

Takakusagi

Sakaguchi

et al. 2020

Expert Opinion on Drug Discovery

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Introduction: Our understanding of the mechanism of action of bioactive small molecules contributes to the research and development of new medical drugs, as well as elucidating the pathological mechanisms underlying various diseases. Researchers in this field are committed to a very ambitious goal: the discovery of novel therapeutic compounds along with their molecular targets. To achieve this goal, new methodological developments are indispensable.Areas covered: This review gives an update on the advancements of phage display (PD) technology in the past decade (2011-2020) for determining the targets of the small molecule therapeutics. In particular, other than providing a brief overview of this field of research, we focus on reporting the research trends and the results solely obtained using this strategy. Expert opinion: Despite the development of bioinformatics tools and artificial intelligence (AI)mediated methods, affinity-guided information obtained experimentally are still indispensable to identify drug-protein interactions. By taking advantage of small-molecule-oriented PD methods and their improvements, the extension of the druggable proteome will be further expanded, providing new opportunities to generate small-molecule therapeutics.

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Chloramphenicol inhibits eukaryotic Ser/Thr phosphatase and infection-specific cell differentiation in the rice blast fungus

Cited by 4 publications

References 60 publications

Selective toxicity of antibacterial agents—still a valid concept or do we miss chances and ignore risks?

Selective toxicity of antibacterial agents—still a valid concept or do we miss chances and ignore risks?

Methods for Identification of Substrates/Inhibitors of FCP/SCP Type Protein Ser/Thr Phosphatases

Phage display technology for target determination of small-molecule therapeutics: an update

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