5′-Nucleotidase Plays a Key Role in Uric Acid Metabolism of Bombyx mori

Tang, Linmeng; Yang, Dehong; Wang, Yaohui; Xu, Yang; Chen, Kai; Luo, Xun; Xu, Jun; Liu, Yujia; Tang, Zheng; Zhang, Qianqian; Liu, Zhiwei; Huang, Yongping

doi:10.3390/cells10092243

Cited by 11 publications

(16 citation statements)

References 60 publications

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“…To determine the key metabolic pathways in silkworms' resistance to BmNPV, the survival rate of BmNPV‐infected op50 after feeding with five metabolites from the candidate metabolic pathways was determined; these were inosine, glucose, taurine, IF + FA and serine. Inosine participates in purine metabolism to synthesise uric acid (Fujii et al, 2020; Tang et al, 2021). Glucose enters the TCA cycle through glycolysis, and fumaric acid (IF) is an important raw material in the TCA cycle (Araujo et al, 2011).…”

Section: Resultsmentioning

confidence: 99%

Uric acid metabolism promotes apoptosis against Bombyx mori nucleopolyhedrovirus in silkworm, Bombyx mori

et al. 2023

Insect Molecular Biology

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The white epidermis of silkworms is due to the accumulation of uric acid crystals. Abnormal silkworm uric acid metabolism decreases uric acid production, leading to a transparent or translucent phenotype. The oily silkworm op50 is a mutant strain with a highly transparent epidermis derived from the p50 strain. It shows more susceptibility to Bombyx mori nucleopolyhedrovirus (BmNPV) infection than the wild type; however, the underlying mechanism is unknown. This study analysed the changes in 34 metabolites in p50 and op50 at different times following BmNPV infection based on comparative metabolomics. The differential metabolites were mainly clustered in six metabolic pathways. Of these, the uric acid pathway was identified as critical for resistance in silkworms, as feeding with inosine significantly enhanced larval resistance compared to other metabolites and modulated other metabolic pathways. Additionally, the increased level of resistance to BmNPV in inosine‐fed silkworms was associated with the regulation of apoptosis, which is mediated by the reactive oxygen species produced during uric acid synthesis. Furthermore, feeding the industrial strain Jingsong (JS) with inosine significantly increased the level of larval resistance to BmNPV, indicating its potential application in controlling the virus in sericulture. These results lay the foundation for clarifying the resistance mechanism of silkworms to BmNPV and provide new strategies and methods for the biological control of pests.

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Section: Resultsmentioning

confidence: 99%

Uric acid metabolism promotes apoptosis against Bombyx mori nucleopolyhedrovirus in silkworm, Bombyx mori

et al. 2023

Insect Molecular Biology

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“…Uric acid in the body is produced through the action of several enzymes, such as xanthine oxidase (XO) [ 5 ], adenine deaminase (ADA), guanine deaminase (GDA) [ 7 ], purine nucleoside phosphorylase (PNP) [ 8 ], and 5-nucleotidase II. (NT5C2) [ 9 ]. The mechanism of uric acid formation can be seen in the Supplementary Materials , Figure S4 .…”

Section: Discussionmentioning

confidence: 99%

“…XDH acts on these same substrates but utilizes NAD as a cofactor to produce NADH instead of ·O 2 − and uric acid [ 6 ]. Apart from inhibiting the action of the XO enzyme, this can also be achieved by inhibiting adenine deaminase (ADA), guanine deaminase (GDA) [ 7 ], purine nucleoside phosphorylase (PNP) [ 8 ], and 5-nucleotidase II (NT5C2) [ 9 ]. The clinical treatment for gout sufferers is to give drugs such as allopurinol and febuxostat, but these drugs have side effects, such as kidney toxicity, liver necrosis, and allergic reactions [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

Bioactive Compounds in Garlic (Allium sativum) and Black Garlic as Antigout Agents, Using Computer Simulation

Lestari

Batubara

Wahyudi

et al. 2022

Life

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Uric acid, which causes gout, is the end product of purine catabolism, synthesized by xanthine oxidase, guanine deaminase, adenine deaminase, purine nucleoside phosphorylase, and 5-nucleotidase II. Garlic contains bioactive compounds that have potential as antigout agents. Garlic fermentation to black garlic changes its components, which may affect its beneficial potential. This study aimed to select types of garlic (Indonesian garlic) and imported garlic, and to predict the interaction between their compounds and five target proteins through an in silico approach and a multivariate analysis, namely partial least squares-discriminant analysis (PLS-DA), to determine their different constituents. The target proteins were collected from open-access databases, and the compounds were identified using mass spectrometry data. The PLS-DA score plot succeeded in classifying the samples into three classes, with each class having a discriminatory compound. Based on the in silico studies, we predicted the best binding score of the five target proteins with seven important compounds: alliin, N-acetyl-S-allyl-L-cysteine, ajoene, pyridoxal, pyridoxamine, 4-guanidinobutyric acid, and D-glucosamine. These were mostly found in black garlic, with no different concentrations in the local and imported samples. Through this approach, we concluded that black garlic is a better candidate for antigout treatments, as several compounds were found to have good binding to the target proteins.

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“…Similar to D. melanogaster, the blowfly Lucilia sericata express high levels of urate oxidase in the malpighian tubules that convert uric acid from the hemolymph into allantoin that is excreted [81,83]. The uric acid that accumulates in silkworm tissues is excreted as a nitrogen waste product, but the genes of Bmwh3, BmABCG5, and Bm5 N encoded by silkworm are involved in uric acid metabolism [84]. Interestingly, urease in fresh mulberry leaves can directly pass through the gut wall of silkworm larvae into the hemolymph without being digested.…”

Section: Hymenopteramentioning

confidence: 99%

Nitrogen Acquisition Strategies Mediated by Insect Symbionts: A Review of Their Mechanisms, Methodologies, and Case Studies

Ren

Guo

Akami

et al. 2022

Insects

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Nitrogen is usually a restrictive nutrient that affects the growth and development of insects, especially of those living in low nitrogen nutrient niches. In response to the low nitrogen stress, insects have gradually developed symbiont-based stress response strategies—biological nitrogen fixation and nitrogenous waste recycling—to optimize dietary nitrogen intake. Based on the above two patterns, atmospheric nitrogen or nitrogenous waste (e.g., uric acid, urea) is converted into ammonia, which in turn is incorporated into the organism via the glutamine synthetase and glutamate synthase pathways. This review summarized the reaction mechanisms, conventional research methods and the various applications of biological nitrogen fixation and nitrogenous waste recycling strategies. Further, we compared the bio-reaction characteristics and conditions of two strategies, then proposed a model for nitrogen provisioning based on different strategies.

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5′-Nucleotidase Plays a Key Role in Uric Acid Metabolism of Bombyx mori

Cited by 11 publications

References 60 publications

Uric acid metabolism promotes apoptosis against Bombyx mori nucleopolyhedrovirus in silkworm, Bombyx mori

Uric acid metabolism promotes apoptosis against Bombyx mori nucleopolyhedrovirus in silkworm, Bombyx mori

Bioactive Compounds in Garlic (Allium sativum) and Black Garlic as Antigout Agents, Using Computer Simulation

Nitrogen Acquisition Strategies Mediated by Insect Symbionts: A Review of Their Mechanisms, Methodologies, and Case Studies

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