Acetylcysteine (BioDeep_00000017827)

 

Secondary id: BioDeep_00000001390, BioDeep_00000403038

human metabolite PANOMIX_OTCML-2023 Endogenous blood metabolite Chemicals and Drugs BioNovoGene_Lab2019 Volatile Flavor Compounds


代谢物信息卡片


Bristol myers squibb brand OF acetylcysteine sodium salt

化学式: C5H9NO3S (163.03031239999999)
中文名称: N-乙酰-L-半胱氨酸, 乙酰半胱氨酸, N-乙酰基-L-半胱氨酸
谱图信息: 最多检出来源 Chinese Herbal Medicine(otcml) 16.76%

分子结构信息

SMILES: CC(=O)NC(CS)C(=O)O
InChI: InChI=1S/C5H9NO3S/c1-3(7)6-4(2-10)5(8)9/h4,10H,2H2,1H3,(H,6,7)(H,8,9)

描述信息

N-Acetyl-L-cysteine (NAC) or N-Acetylcysteine is the N-acetyl derivative of the amino acid L-cysteine and is a precursor in the formation of the antioxidant glutathione in the body. N-Acetylcysteine, belongs to the class of organic compounds known as N-acyl-alpha amino acids. N-acyl-alpha amino acids are compounds containing an alpha amino acid which bears an acyl group at its terminal nitrogen atom. N-Acetyl-L-cysteine can also be classified as an alpha amino acid or a derivatized alpha amino acid. Technically, N-Acetyl-L-cysteine is a biologically available N-terminal capped form of the proteinogenic alpha amino acid L-cysteine. N-acetyl amino acids can be produced either via direct synthesis of specific N-acetyltransferases or via the proteolytic degradation of N-acetylated proteins by specific hydrolases. N-terminal acetylation of proteins is a widespread and highly conserved process in eukaryotes that is involved in protection and stability of proteins (PMID: 16465618). About 85\\\\% of all human proteins and 68\\\\% of all yeast proteins are acetylated at their N-terminus (PMID: 21750686). Several proteins from prokaryotes and archaea are also modified by N-terminal acetylation. The majority of eukaryotic N-terminal-acetylation reactions occur through N-acetyltransferase enzymes or NAT’s (PMID: 30054468). These enzymes consist of three main oligomeric complexes NatA, NatB, and NatC, which are composed of at least a unique catalytic subunit and one unique ribosomal anchor. The substrate specificities of different NAT enzymes are mainly determined by the identities of the first two N-terminal residues of the target protein. The human NatA complex co-translationally acetylates N-termini that bear a small amino acid (A, S, T, C, and occasionally V and G) (PMID: 30054468). NatA also exists in a monomeric state and can post-translationally acetylate acidic N-termini residues (D-, E-). NatB and NatC acetylate N-terminal methionine with further specificity determined by the identity of the second amino acid. . N-acetylated amino acids, such as N-acetylcysteine can be released by an N-acylpeptide hydrolase from peptides generated by proteolytic degradation (PMID: 16465618). In addition to the NAT enzymes and protein-based acetylation, N-acetylation of free cysteine can also occur. The enzyme known as cysteine-S-conjugate N-acetyltransferase (EC 2.3.1.80) catalyzes the transfer of the acetyl group of acetyl CoA to the amino group of cysteine. This enzyme is an important participant in glutathione metabolism and the production of glutathione. The thiol (sulfhydryl) group in N-Acetylcysteine confers antioxidant effects and is able to reduce free radicals. N-Acetylcysteine is a pharmacological agent used in the management of paracetamol (acetaminophen) overdoses. When acetaminophen is taken in large quantities, a minor metabolite called N-acetyl-p-benzoquinone imine (NAPQI) accumulates within the body. NAPQI is normally conjugated by glutathione, but when taken in excess, the bodys glutathione reserves are not sufficient to deactivate the toxic NAPQI. In the treatment of acetaminophen overdose, N-acetylcysteine acts to maintain or replenish depleted glutathione reserves in the liver and enhance non-toxic metabolism of acetaminophen. These actions serve to protect liver cells from NAPQI toxicity. For this particular indication, N-acetylcysteine is available under the trade names Mucomyst (Bristol-Myers Squibb) and Parvolex (GSK). N-Acetylcysteine is also used as a mucolytic agent to reduce the viscosity of mucous secretions. It has also been shown to have antiviral effects in patients with HIV due to inhibition of viral stimulation by reactive oxygen intermediates. Acetylcysteine has been studied for a number of psychiatric disorders. There is tentative evidence for N-acetylcysteine being useful in the treatment of Alzheimers disease, autism, bipolar disorder, drug-induced neuropathy, major depressive disorder, obsessive-compulsive disord...
R - Respiratory system > R05 - Cough and cold preparations > R05C - Expectorants, excl. combinations with cough suppressants > R05CB - Mucolytics
V - Various > V03 - All other therapeutic products > V03A - All other therapeutic products > V03AB - Antidotes
COVID info from clinicaltrial, clinicaltrials, clinical trial, clinical trials
C78273 - Agent Affecting Respiratory System > C74536 - Mucolytic Agent
D019141 - Respiratory System Agents > D005100 - Expectorants
D000890 - Anti-Infective Agents > D000998 - Antiviral Agents
D000975 - Antioxidants > D016166 - Free Radical Scavengers
Effective inhibitor of enzymic browning in foods [DFC]
D020011 - Protective Agents > D000975 - Antioxidants
C26170 - Protective Agent > C275 - Antioxidant
S - Sensory organs > S01 - Ophthalmologicals
Corona-virus
Coronavirus
SARS-CoV-2
COVID-19
SARS-CoV
COVID19
SARS2
SARS
Acetylcysteine (N-Acetylcysteine) is a mucolytic agent which reduces the thickness of the mucus. Acetylcysteine is a ROS inhibitor[1]. Acetylcysteine is a cysteine precursor, prevents hemin-induced ferroptosis by neutralizing toxic lipids generated by arachidonate-dependent activity of 5-lipoxygenases[5]. Acetylcysteine induces cell apoptosis[2][3]. Acetylcysteine also has anti-influenza virus activities[7].
Acetylcysteine (N-Acetylcysteine) is a mucolytic agent which reduces the thickness of the mucus. Acetylcysteine is a ROS inhibitor[1]. Acetylcysteine is a cysteine precursor, prevents hemin-induced ferroptosis by neutralizing toxic lipids generated by arachidonate-dependent activity of 5-lipoxygenases[5]. Acetylcysteine induces cell apoptosis[2][3]. Acetylcysteine also has anti-influenza virus activities[7].

同义名列表

197 个代谢物同义名

Bristol myers squibb brand OF acetylcysteine sodium salt; Bristol-myers squibb brand OF acetylcysteine sodium salt; L-alpha-Acetamido-beta-mercaptopropionic acid; (2R)-2-Acetylamino-3-sulphanylpropanoic acid; Bristol-myers squibb brand OF acetylcysteine; Bristol myers squibb brand OF acetylcysteine; Boehringer ingelheim brand OF acetylcysteine; (2R)-2-Acetylamino-3-sulfanylpropanoic acid; (R)-2-Acetylamino-3-mercaptopropanoic acid; Allen and hanburys brand OF acetylcysteine; L-alpha-Acetamido-beta-mercaptopropionate; (2R)-2-acetamido-3-sulfanylpropanoic acid; Produpharm lappe brand OF acetylcysteine; (2R)-2-Acetylamino-3-sulphanylpropanoate; (2R)-2-Acetylamino-3-sulfanylpropanoate; 2-acetylamino-3-mercapto-Propionic acid; Dey brand OF acetylcysteine sodium salt; Sodium 2-acetamido-3-mercaptopropionate; L-Α-acetamido-β-mercaptopropionic acid; Roche nicholas brand OF acetylcysteine; (R)-2-Acetylamino-3-mercaptopropanoate; L-a-Acetamido-b-mercaptopropionic acid; Lichtenstein brand OF acetylcysteine; Trommsdorff brand OF acetylcysteine; 2-acetylamino-3-mercapto-Propionate; GNR Pharma brand OF acetylcysteine; Lindopharm brand OF acetylcysteine; Bioiberica brand OF acetylcysteine; L-a-Acetamido-b-mercaptopropionate; Centrafarm brand OF acetylcysteine; L-Α-acetamido-β-mercaptopropionate; GNR-Pharma brand OF acetylcysteine; Betapharm brand OF acetylcysteine; Azupharma brand OF acetylcysteine; Acetylcysteine lichtenstein brand; Fresenius brand OF acetylcysteine; Ac pharma brand OF acetylcysteine; Whitehall brand OF acetylcysteine; Acetylcysteine, monoammonium salt; Génévrier brand OF acetylcysteine; Ac-pharma brand OF acetylcysteine; Inpharzam brand OF acetylcysteine; Bouchara brand OF acetylcysteine; Pharbita brand OF acetylcysteine; Thiemann brand OF acetylcysteine; Farmasan brand OF acetylcysteine; Acetylcysteine trommsdorff brand; Monoammonium salt acetylcysteine; Acetylcysteine lindopharm brand; Acetylcysteine GNR-pharma brand; Disphar brand OF acetylcysteine; Guerbet brand OF acetylcysteine; Oberlin brand OF acetylcysteine; Acetylcysteine, monosodium salt; Temmler brand OF acetylcysteine; Acetylcysteine centrafarm brand; Pfleger brand OF acetylcysteine; Acetylcysteine bioiberica brand; Heumann brand OF acetylcysteine; Roberts brand OF acetylcysteine; Acetylcysteine azupharma brand; Acetylcysteine fresenius brand; Acetylcysteine inpharzam brand; Acetylcysteine whitehall brand; Acetylcysteine betapharm brand; Acetylcysteine ac-pharma brand; Monosodium salt acetylcysteine; Krewel brand OF acetylcysteine; Hermes brand OF acetylcysteine; Acetylcysteine génévrier brand; Zambon brand OF acetylcysteine; Klinge brand OF acetylcysteine; Acetylcysteine thiemann brand; Acetylcysteine pharbita brand; Intra brand OF acetylcysteine; Merck brand OF acetylcysteine; Aluid brand OF acetylcysteine; Acetylcysteine bouchara brand; Acetylcysteine farmasan brand; Alcon brand OF acetylcysteine; Hydrochloride, acetylcysteine; Acetylcysteine pfleger brand; Acetylcysteine roberts brand; Acetylcysteine disphar brand; UPSA brand OF acetylcysteine; Acetylcysteine heumann brand; Acetylcysteine guerbet brand; Teva brand OF acetylcysteine; Atid brand OF acetylcysteine; Acetylcysteine hydrochloride; Acetylcysteine oberlin brand; Acetylcysteine temmler brand; Zyma brand OF acetylcysteine; Acetylcysteine zambon brand; Acetylcysteine hermes brand; Acetylcysteine klinge brand; Acetylcysteine, (DL)-isomer; Acetylcysteine krewel brand; Acetylcysteine intra brand; Acetylcysteine merck brand; N-Acetyl-3-mercaptoalanine; Acetylcysteine aluid brand; Acetylcysteine, (D)-isomer; Acetylcysteine alcon brand; Acetylcysteine atid brand; Acetylcysteine zyma brand; Acetylcysteine upsa brand; Acetylcysteine teva brand; N-Acetyl-L-(+)-cysteine; Acetylcystein, mentopin; Hustengetränk, optipect; Mentopin acetylcystein; Optipect hustengetränk; Sodium, acetylcysteine; Acetylcysteine sodium; Acetylcystein heumann; (R)-Mercapturic acid; Zinc, acetylcysteine; Acetylcysteine zinc; N-Acetyl-L-cysteine; N Acetyl L cysteine; Acetylcystein atid; Acetylcystein trom; Fluimicil infantil; Acétylcystéine GNR; (R)-Mercaptic acid; N-Acety-L-cysteine; Acid, mercapturic; L-Acetylcysteine; N Acetylcysteine; N-Acetylcysteine; Mercapturic acid; Acetylcystein al; Acetylcysteinum; Mucopect, dampo; Acetilcisteina; Mercaptic acid; (R)-Mercaptate; Acetylcysteine; dampo Mucopect; Sanigen, muco; NAC, bisolvon; Durabronchal; broncho Fips; broncho-Fips; Bisolvon nac; Broncholysin; muco Sanigen; Azubronchin; Jenacystein; Fluimucetin; Zambon, nac; Larylin nac; BronchoFips; Lindocetyl; Flumucetin; NAC zambon; Mercaptate; Cystamucil; Codotussyl; Mucosolvin; Eurespiran; Broncoclar; Fluimucil; Acetadote; Jenapharm; Frekatuss; Muciteran; Fluprowit; m-Pectil; m Pectil; Siccoral; Lantamed; Acebraus; Acetylin; Alveolex; Mucomyst; Solmucol; Hoestil; Mucosol; MPectil; Airbron; Acetyst; Acetabs; Mucosil; NAC al; Fabrol; Bromuc; Acemuc; Exomuc; Siran; Ilube; Genac; NAC; N-Acetyl-DL-cysteine; Acetylcysteine; Acetylcysteine



数据库引用编号

24 个数据库交叉引用编号

分类词条

相关代谢途径

Reactome(0)

BioCyc(0)

PlantCyc(0)

代谢反应

0 个相关的代谢反应过程信息。

Reactome(0)

BioCyc(0)

WikiPathways(0)

Plant Reactome(0)

INOH(0)

PlantCyc(0)

COVID-19 Disease Map(0)

PathBank(0)

PharmGKB(0)

5 个相关的物种来源信息

在这里通过桑基图来展示出与当前的这个代谢物在我们的BioDeep知识库中具有相关联信息的其他代谢物。在这里进行关联的信息来源主要有:

  • PubMed: 来源于PubMed文献库中的文献信息,我们通过自然语言数据挖掘得到的在同一篇文献中被同时提及的相关代谢物列表,这个列表按照代谢物同时出现的文献数量降序排序,取前10个代谢物作为相关研究中关联性很高的代谢物集合展示在桑基图中。
  • NCBI Taxonomy: 通过文献数据挖掘,得到的代谢物物种来源信息关联。这个关联信息同样按照出现的次数降序排序,取前10个代谢物作为高关联度的代谢物集合展示在桑吉图上。
  • Chemical Taxonomy: 在物质分类上处于同一个分类集合中的其他代谢物
  • Chemical Reaction: 在化学反应过程中,存在为当前代谢物相关联的生化反应过程中的反应底物或者反应产物的关联代谢物信息。

点击图上的相关代谢物的名称,可以跳转到相关代谢物的信息页面。



文献列表

  • Alondra Vargas-Barona, Johanna Bernáldez-Sarabia, Ana B Castro-Ceseña. Lipid-polymer hybrid nanoparticles loaded with N-acetylcysteine for the modulation of neuroinflammatory biomarkers in human iPSC-derived PSEN2 (N141I) astrocytes as a model of Alzheimer's disease. Journal of materials chemistry. B. 2024 May; 12(21):5085-5097. doi: 10.1039/d4tb00521j. [PMID: 38713059]
  • Jia-Jia Liu, Xue Zhang, Bang-Lan Cai, Man-Man Qi, Yong-Bin Chi, Bin Peng, Deng-Hai Zhang. Ferroptosis inhibitors reduce celastrol toxicity and preserve its insulin sensitizing effects in insulin resistant HepG2 cells. Journal of integrative medicine. 2024 May; 22(3):286-294. doi: 10.1016/j.joim.2024.03.007. [PMID: 38565435]
  • Narjesse E L Mabrouk, Maha Mastouri, Gérard Lizard, Mahjoub Aouni, Hedi Harizi. In vitro immunotoxicity effects of carbendazim were inhibited by n-acetylcysteine in microglial BV-2 cells. Toxicology in vitro : an international journal published in association with BIBRA. 2024 May; 97(?):105812. doi: 10.1016/j.tiv.2024.105812. [PMID: 38522494]
  • Bruna Fernandes Andrade, Angélica Souza Guimarães, Lorrany Ramos do Carmo, Marcelo Stefanini Tanaka, Paulo Rogério Fontes, Alcinéia de Lemos Souza Ramos, Eduardo Mendes Ramos. S-nitrosothiols as nitrite alternatives: Effects on residual nitrite, lipid oxidation, volatile profile, and cured color of restructured cooked ham. Meat science. 2024 Mar; 209(?):109397. doi: 10.1016/j.meatsci.2023.109397. [PMID: 38043329]
  • Lin Liao, Pengyu Tao, Qiming Xu, Wenhao Chen, Jie Chen, Weiwei Liu, Wenrui Liu, Jing Hu, Jianrao Lu. TRIM6 Promotes ROS-Mediated Inflammasome Activation and Pyroptosis in Renal Tubular Epithelial Cells via Ubiquitination and Degradation of GPX3 Protein. Frontiers in bioscience (Landmark edition). 2024 Feb; 29(2):58. doi: 10.31083/j.fbl2902058. [PMID: 38420829]
  • Merve Yuce, Ertan Yildirim, Melek Ekinci, Metin Turan, Emre Ilhan, Murat Aydin, Guleray Agar, Sumeyra Ucar. N-acetyl-cysteine mitigates arsenic stress in lettuce: Molecular, biochemical, and physiological perspective. Plant physiology and biochemistry : PPB. 2024 Feb; 207(?):108390. doi: 10.1016/j.plaphy.2024.108390. [PMID: 38373369]
  • Bendong Shi, Zhuoqi Zhang, Jiao Xing, Qiaohan Liu, Jingzeng Cai, Ziwei Zhang. Perfluorooctane sulfonate causes pyroptosis and lipid metabolism disorders through ROS-mediated NLRP3 inflammasome activation in grass carp hepatocyte. Aquatic toxicology (Amsterdam, Netherlands). 2024 Feb; 267(?):106839. doi: 10.1016/j.aquatox.2024.106839. [PMID: 38228041]
  • Hengyou Zhang, Yinghua Huang. Genome-wide identification and characterization of greenbug-inducible NAC transcription factors in sorghum. Molecular biology reports. 2024 Jan; 51(1):207. doi: 10.1007/s11033-023-09158-x. [PMID: 38270755]
  • Amir Nili-Ahmadabadi, Saeb Abdpour, Navid Omidifar, Seyyed Alireza Hashemi, Seyyed Mojtaba Mousavi, Maryam Nili Ahmadabadi. Therapeutic potentials of N-acetylcysteine immobilized polyrhodanine nanoparticles toward acetaminophen-induced acute hepatotoxicity in rat. Chemical biology & drug design. 2024 Jan; 103(1):e14430. doi: 10.1111/cbdd.14430. [PMID: 38230777]
  • Rui Zhu, Guo-Jun Shang, Bao-Yuan Zhang, Hao-Tong Wang, Liang Li, Xiao-Fang Wei, Deng-Lai Li, Zhi-Yong Yang, Zi-Hui Qu, Ya-Nan Quan, Si-Ying Liu, Yin-Tao Wang, Si-Tong Meng, Li-Fang Wu, Gui-Xin Qin. Unlocking the potential of N-acetylcysteine: Improving hepatopancreas inflammation, antioxidant capacity and health in common carp (Cyprinus carpio) via the MAPK/NF-κB/Nrf2 signalling pathway. Fish & shellfish immunology. 2024 Jan; 144(?):109294. doi: 10.1016/j.fsi.2023.109294. [PMID: 38092096]
  • Manoj Choudhary, Jorge Pereira, Edwin B Davidson, James Colee, Swadeshmukul Santra, Jeffrey B Jones, Mathews L Paret. Improved Persistence of Bacteriophage Formulation with Nano N-Acetylcysteine-Zinc Sulfide and Tomato Bacterial Spot Disease Control. Plant disease. 2023 Dec; 107(12):3933-3942. doi: 10.1094/pdis-02-23-0255-re. [PMID: 37368450]
  • Israel Pérez-Torres, Alfredo Aisa-Álvarez, Sergio Casarez-Alvarado, Gabriela Borrayo, Ricardo Márquez-Velasco, Verónica Guarner-Lans, Linaloe Manzano-Pech, Randall Cruz-Soto, Omar Gonzalez-Marcos, Giovanny Fuentevilla-Álvarez, Ricardo Gamboa, Huitizilihuitl Saucedo-Orozco, Juvenal Franco-Granillo, María Elena Soto. Impact of Treatment with Antioxidants as an Adjuvant to Standard Therapy in Patients with Septic Shock: Analysis of the Correlation between Cytokine Storm and Oxidative Stress and Therapeutic Effects. International journal of molecular sciences. 2023 Nov; 24(23):. doi: 10.3390/ijms242316610. [PMID: 38068931]
  • Farzaneh Motafeghi, Parham Mortazavi, Amir Hossein Salman Mahiny, Mohammad Mehdi Abtahi, Mohammad Shokrzadeh. The role of ginger's extract and N-acetylcysteine against docetaxel-induced oxidative stress and genetic disorder. Drug and chemical toxicology. 2023 Nov; 46(4):617-624. doi: 10.1080/01480545.2022.2075377. [PMID: 35575100]
  • Kun Wang, Jiatong Tang, Shengxian Fan, Haochen Su, Ranran Yu, Yixuan Zhang, Hao Wu, Ying Lv, Shu Zhang, Xiaoping Zou. ABBV-744 induces autophagy in gastric cancer cells by regulating PI3K/AKT/mTOR/p70S6k and MAPK signaling pathways. Neoplasia (New York, N.Y.). 2023 11; 45(?):100936. doi: 10.1016/j.neo.2023.100936. [PMID: 37769529]
  • Wenhao Wang, Jingxuan Zeng, Peili Luo, Jiayi Fang, Qingao Pei, Jinwu Yan, Chune Zhu, Wei Chen, Yanyun Liu, Zhengwei Huang, Ying Huang, Chuanbin Wu, Xin Pan. Engineered lipid liquid crystalline nanoparticles as an inhaled nanoplatform for mucus penetration enhancement. Drug delivery and translational research. 2023 11; 13(11):2834-2846. doi: 10.1007/s13346-023-01351-6. [PMID: 37155080]
  • Kai Nieschalke, Nick Bergau, Sönke Jessel, Albrecht Seidel, Susanne Baldermann, Monika Schreiner, Klaus Abraham, Alfonso Lampen, Bernhard H Monien, Burkhard Kleuser, Hansruedi Glatt, Fabian Schumacher. Urinary Excretion of Mercapturic Acids of the Rodent Carcinogen Methyleugenol after a Single Meal of Basil Pesto: A Controlled Exposure Study in Humans. Chemical research in toxicology. 2023 Oct; ?(?):. doi: 10.1021/acs.chemrestox.3c00212. [PMID: 37875262]
  • Elizabeth Smith Khoury, Ruchit V Patel, Caroline O'Ferrall, Amanda Fowler, Nirnath Sah, Anjali Sharma, Siddharth Gupta, Susanna Scafidi, Joshua S Kurtz, Sarah J Olmstead, Sapna R Kudchadkar, Rangaramanujam M Kannan, Mary E Blue, Sujatha Kannan. Dendrimer nanotherapy targeting of glial dysfunction improves inflammation and neurobehavioral phenotype in adult female Mecp2-heterozygous mouse model of Rett syndrome. Journal of neurochemistry. 2023 Sep; ?(?):. doi: 10.1111/jnc.15960. [PMID: 37777475]
  • Siqin Liu, Yuanlin Guan, Yuhao Weng, Bojun Liao, Lu Tong, Zhaodong Hao, Jinhui Chen, Jisen Shi, Tielong Cheng. Genome-wide identification of the NAC gene family and its functional analysis in Liriodendron. BMC plant biology. 2023 Sep; 23(1):415. doi: 10.1186/s12870-023-04415-4. [PMID: 37684590]
  • Domenico Lapenna. Glutathione and Glutathione-dependent Enzymes: From Biochemistry to Gerontology and Successful Aging. Ageing research reviews. 2023 Sep; ?(?):102066. doi: 10.1016/j.arr.2023.102066. [PMID: 37683986]
  • Chi Feng, Hongxia Bai, Xu Chang, Zhixuan Wu, Wu Dong, Qianqian Ma, Jingfeng Yang. Aflatoxin B1-induced early developmental hepatotoxicity in larvae zebrafish. Chemosphere. 2023 Aug; ?(?):139940. doi: 10.1016/j.chemosphere.2023.139940. [PMID: 37634582]
  • Germán Muñoz-Sánchez, Lucila A Godínez-Méndez, Mary Fafutis-Morris, Vidal Delgado-Rizo. Effect of Antioxidant Supplementation on NET Formation Induced by LPS In Vitro; the Roles of Vitamins E and C, Glutathione, and N-acetyl Cysteine. International journal of molecular sciences. 2023 Aug; 24(17):. doi: 10.3390/ijms241713162. [PMID: 37685966]
  • Wen-Yu Chen, Yan-Peng Fu, Hui Tu, Wen Zhong, Liang Zhou. The association between exposure to volatile organic compounds and serum lipids in the US adult population. Lipids in health and disease. 2023 Aug; 22(1):129. doi: 10.1186/s12944-023-01895-z. [PMID: 37568143]
  • Xinxin Sun, Yaru Sun, Sumin Cao, Xueli Liu. Effects of N-acetyl-L-cysteine polysulfides on periodontitis in a mouse model. Immunity, inflammation and disease. 2023 08; 11(8):e959. doi: 10.1002/iid3.959. [PMID: 37647428]
  • Yasemin Korkmaz, Hüseyin Gungor, Ahmet Demirbas, Burak Dik. Pomegranate peel extract, N-Acetylcysteine and their combination with Ornipural alleviate Cadmium-induced toxicity in rats. The Journal of veterinary medical science. 2023 Jul; ?(?):. doi: 10.1292/jvms.22-0375. [PMID: 37495528]
  • Tong-Tong Tang, Li Jiang, Qian Zhong, Zhi-Jing Ni, Kiran Thakur, Mohammad Rizwan Khan, Zhao-Jun Wei. Saikosaponin D exerts cytotoxicity on human endometrial cancer ishikawa cells by inducing apoptosis and inhibiting metastasis through MAPK pathways. Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association. 2023 Jul; 177(?):113815. doi: 10.1016/j.fct.2023.113815. [PMID: 37209937]
  • Golsa Khalatbari Mohseni, Seyed Ahmad Hosseini, Nastaran Majdinasab, Bahman Cheraghian. Effects of N-acetylcysteine on oxidative stress biomarkers, depression, and anxiety symptoms in patients with multiple sclerosis. Neuropsychopharmacology reports. 2023 Jun; ?(?):. doi: 10.1002/npr2.12360. [PMID: 37386885]
  • Zhihui Li, Yan Shi, Yougang Wang, Haomin Qi, Haiyu Chen, Jinquan Li, Li Li. Cadmium-induced pyroptosis is mediated by PERK/TXNIP/NLRP3 signaling in SH-SY5Y cells. Environmental toxicology. 2023 Jun; ?(?):. doi: 10.1002/tox.23861. [PMID: 37300869]
  • Shumaila Iqbal Siddiqui, Chetan Malik, Subhendu Ghosh. Voltage dependent anion channel and its interaction with N-acetyl-L-Cysteine (NAC) under oxidative stress on planar lipid bilayer. Biochimie. 2023 Jun; 209(?):150-160. doi: 10.1016/j.biochi.2023.02.005. [PMID: 36780980]
  • Hong Yang, Xiangyu Li, Han Jin, Hasan Turkez, Gurkan Ozturk, Hamdi Levent Doganay, Cheng Zhang, Jens Nielsen, Mathias Uhlén, Jan Borén, Adil Mardinoglu. Longitudinal metabolomics analysis reveals the acute effect of cysteine and NAC included in the combined metabolic activators. Free radical biology & medicine. 2023 May; ?(?):. doi: 10.1016/j.freeradbiomed.2023.05.013. [PMID: 37245532]
  • Elena Cecilia Marcano-Gómez, Ana Beatriz Farias de Souza, Pedro Alves Machado-Junior, Andrea Jazel Rodríguez-Herrera, Thalles de Freitas Castro, Sirlaine Pio Gomes da Silva, Ramony Gonzaga Vieira, André Talvani, Katiane de Oliveira Pinto Coelho Nogueira, Laser Antônio Machado de Oliveira, Frank Silva Bezerra. N-acetylcysteine modulates redox imbalance and inflammation in macrophages and mice exposed to formaldehyde. Free radical research. 2023 May; 57(6-12):444-459. doi: 10.1080/10715762.2023.2284636. [PMID: 37987619]
  • Min-Yu Lee, Jun-Ping Shiau, Jen-Yang Tang, Ming-Feng Hou, Phoebe Sussana Primus, Chai-Lin Kao, Yeun-Mun Choo, Hsueh-Wei Chang. Boesenbergia stenophylla-Derived Stenophyllol B Exerts Antiproliferative and Oxidative Stress Responses in Triple-Negative Breast Cancer Cells with Few Side Effects in Normal Cells. International journal of molecular sciences. 2023 Apr; 24(9):. doi: 10.3390/ijms24097751. [PMID: 37175458]
  • Meilin Wei, Solairaj Dhanasekaran, Qihao Ji, Qiya Yang, Hongyin Zhang. Sustainable and efficient method utilizing N-acetyl-L-cysteine for complete and enhanced ochratoxin A clearance by antagonistic yeast. Journal of hazardous materials. 2023 04; 448(?):130975. doi: 10.1016/j.jhazmat.2023.130975. [PMID: 36860082]
  • Miyu Komatsu, Takeshi Funakoshi, Toshihiko Aki, Kana Unuma, Koichi Uemura. Aristolochic acid induces an inflammatory response with prostaglandin E2 production and apoptosis in NRK-52E proximal tubular cells. Toxicology letters. 2023 Feb; ?(?):. doi: 10.1016/j.toxlet.2023.02.009. [PMID: 36863539]
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