Protein cysteine S-nitrosylation provides reducing power by enhancing lactate dehydrogenase activity in Trichomonas vaginalis under iron deficiency.

Tytuł:: Protein cysteine S-nitrosylation provides reducing power by enhancing lactate dehydrogenase activity in Trichomonas vaginalis under iron deficiency.
Autorzy:: Cheng WH; Department of Parasitology, College of Medicine, Chang Gung University, Guishan District, Taoyuan City, Taiwan.
Huang KY; Graduate Institute of Pathology and Parasitology, National Defense Medical Center, Taipei, Taiwan.
Ong SC; Department of Parasitology, College of Medicine, Chang Gung University, Guishan District, Taoyuan City, Taiwan.
Ku FM; Department of Parasitology, College of Medicine, Chang Gung University, Guishan District, Taoyuan City, Taiwan.
Huang PJ; Department of Biomedical Sciences, College of Medicine, Chang Gung University, Guishan District, Taoyuan City, Taiwan.; Genomic Medicine Core Laboratory, Chang Gung Memorial Hospital, Linkou, Taiwan.
Lee CC; Genomic Medicine Core Laboratory, Chang Gung Memorial Hospital, Linkou, Taiwan.; Department of Computer Science and Information Engineering, College of Engineering, Chang Gung University, Guishan District, Taoyuan City, Taiwan.
Yeh YM; Genomic Medicine Core Laboratory, Chang Gung Memorial Hospital, Linkou, Taiwan.
Lin R; Department of Parasitology, College of Medicine, Chang Gung University, Guishan District, Taoyuan City, Taiwan.
Chiu CH; Molecular Infectious Disease Research Center, Chang Gung Memorial Hospital, Linkou, Taiwan.
Tang P; Department of Parasitology, College of Medicine, Chang Gung University, Guishan District, Taoyuan City, Taiwan. .; Molecular Infectious Disease Research Center, Chang Gung Memorial Hospital, Linkou, Taiwan. .
Źródło:: Parasites & vectors [Parasit Vectors] 2020 Sep 18; Vol. 13 (1), pp. 477. Date of Electronic Publication: 2020 Sep 18.
Typ publikacji:: Journal Article
Język:: English
Imprint Name(s):: Original Publication: London : BioMed Central
MeSH Terms:: Cysteine/*metabolism
Iron/*metabolism
L-Lactate Dehydrogenase/*metabolism
Protozoan Proteins/*metabolism
Trichomonas vaginalis/*enzymology
Glycolysis ; Iron/analysis ; L-Lactate Dehydrogenase/genetics ; NAD/metabolism ; Nitric Oxide/metabolism ; Oxidation-Reduction ; Protein Modification, Translational ; Protozoan Proteins/genetics ; Pyruvic Acid/metabolism ; Trichomonas vaginalis/genetics ; Trichomonas vaginalis/metabolism
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Grant Information:: CMRPD1J0311-3 Chang Gung Memorial Hospital, Linkou; 107-2320-B-182-021-MY3 Ministry of Science and Technology, Taiwan
Contributed Indexing:: Keywords: Cysteine S-nitrosylation; Glycolysis; Iron deficiency; Lactate dehydrogenase; Nicotinamide adenine dinucleotide; Trichomonas vaginalis
Substance Nomenclature:: 0 (Protozoan Proteins)
0U46U6E8UK (NAD)
31C4KY9ESH (Nitric Oxide)
8558G7RUTR (Pyruvic Acid)
E1UOL152H7 (Iron)
EC 1.1.1.27 (L-Lactate Dehydrogenase)
K848JZ4886 (Cysteine)
Entry Date(s):: Date Created: 20200919 Date Completed: 20210510 Latest Revision: 20240329
Update Code:: 20240329
PubMed Central ID:: PMC7501694
DOI:: 10.1186/s13071-020-04355-0
PMID:: 32948226
: Czasopismo naukowe

Pełny tekst

Background: Iron plays essential roles in the pathogenesis and proliferation of Trichomonas vaginalis, the causative agent of the most prevalent non-viral human sexually transmitted infection. We previously demonstrated that under iron deficiency, the endogenous nitric oxide (NO) is accumulated and capable of regulating the survival of T. vaginalis. Herein, we aim to explore the influence of NO on the activity of the pyruvate-reducing enzyme lactate dehydrogenase in T. vaginalis (TvLDH).
Methods: Levels of lactate and pyruvate were detected for determining glycolysis activity in T. vaginalis under iron deficiency. Quantitative PCR was performed to determine the expression of TvLDH. S-nitrosylated (SNO) proteomics was conducted to identify the NO-modified proteins. The activities of glyceraldehyde-3-phosphate dehydrogenase (TvGAPDH) and TvLDH were measured after sodium nitrate treatment. The effects of protein nitrosylation on the production of cellular reducing power were examined by measuring the amount of nicotinamide adenine dinucleotide (NAD) and the ratio of the NAD redox pair (NAD + /NADH).
Results: We found that although the glycolytic pathway was activated in cells under iron depletion, the level of pyruvate was decreased due to the increased level of TvLDH. By analyzing the SNO proteome of T. vaginalis upon iron deficiency, we found that TvLDH is one of the glycolytic enzymes modified by SNO. The production of pyruvate was significantly reduced after nitrate treatment, indicating that protein nitrosylation accelerated the consumption of pyruvate by increasing TvLDH activity. Nitrate treatment also induced NAD oxidation, suggesting that protein nitrosylation was the key posttranslational modification controlling cellular redox status.
Conclusions: We demonstrated that NO-mediated protein nitrosylation plays pivotal roles in the regulation of glycolysis, pyruvate metabolism, and the activity of TvLDH. The recycling of oxidized NAD catalyzed by TvLDH provided the reducing power that allowed T. vaginalis to adapt to the iron-deficient environment.

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