Your search keyword '"Thioredoxins"' showing total 6,797 results

151. Investigators from University of Glasgow Target Cryptorchidism [Thioredoxin Reductase 2 (Txnrd2) Variant As a Cause of Micropenis, Undescended Testis and Selective Glucocorticoid Deficiency].

Abstract

A recent report from the University of Glasgow discusses research on cryptorchidism, a condition characterized by undescended testicles. The study focuses on variants in the TXNRD2 gene, which encodes thioredoxin reductase Type 2, and their potential association with glucocorticoid deficiency. The researchers identified homozygous variants in the TXNRD2 gene in a patient with selective glucocorticoid deficiency, micropenis, and an undescended testis. Functional studies revealed lower levels of TXNRD2 protein and mRNA expression in the patient compared to controls. This case expands our understanding of the role of TXNRD2 in adrenal function and its potential impact on genital development. [Extracted from the article]

Published

2023

152. Comparison of the mechanism of antimicrobial action of the gold(I) compound auranofin in Gram-positive and Gram-negative bacteria.

Abstract

A preprint abstract from biorxiv.org discusses the mechanism of antimicrobial action of the gold(I) compound auranofin in Gram-positive and Gram-negative bacteria. The study found that auranofin is highly effective at killing Gram-positive bacteria but lacks significant activity against Gram-negative species. The researchers hypothesize that this difference in susceptibility is due to a combination of factors, including inactivation of thiol-containing enzymes, upregulation of proteins involved in basal metabolism, induction of systemic oxidative stress, and the presence of drug export systems and high cellular concentrations of glutathione in Gram-negative bacteria. However, further research is needed to fully understand the mechanisms underlying the low susceptibility of Gram-negative bacteria to auranofin. [Extracted from the article]

Published

2023

153. Study Findings from Department of Biotechnology Update Knowledge in Liposomes (Enhancing encapsulation of filarial antigen Brugia malayi thioredoxin in nano-liposomes: The role of lecithin composition).

Abstract

A recent study published in Vaccine Weekly discusses the use of nano-liposomes to enhance the encapsulation of a filarial antigen called Brugia malayi thioredoxin (Bm-TRX). Lymphatic filariasis is a prevalent infectious disease, and the development of an effective vaccine is crucial for its eradication. The researchers optimized the liposomal composition using egg phosphatidylcholine (EPC) and cholesterol, resulting in spherical liposomes measuring 209 nm in diameter with high encapsulation efficiency. The study suggests that these liposomal formulations have the potential to improve antigen efficiency by enhancing stability, bioavailability, and prophylactic effects. [Extracted from the article]

Published

2023

154. The Drosophila cancer-germline, head-to-head gene pair TrxT and dhd is dispensable for normal brain development but plays a major role in l(3)malignant brain tumour growth.

Subjects

NEURAL development, BRAIN tumors, DROSOPHILA, GENES, CRISPRS, ALLELES

Abstract

A preprint abstract from biorxiv.org discusses the role of two genes, Drosophila thioredoxins Deadhead (Dhd) and Thioredoxin-T (TrxT), in brain tumor development. These genes are normally sex and germline specific but become upregulated in brain tumors caused by a mutation in l(3)malignant brain tumor (l(3)mbt). The study used CRISPR/Cas9-mediated knock-out alleles and RNA-seq to show that while both genes are dispensable for normal brain development, they have a significant effect on tumor development and transcriptomic signatures. The study also found that the two genes work synergistically and may be potential targets for curbing malignant growth with minimal impact on overall health. [Extracted from the article]

Published

2023

155. Polytechnic University of Marche Researcher Publishes Findings in Thioredoxin Therapy (Keratinocytes Exposed to Blue or Red Light: Proteomic Characterization Showed Cytoplasmic Thioredoxin Reductase 1 and Aldo-Keto Reductase Family 1 Member C3...).

Abstract

A recent study conducted by researchers at the Polytechnic University of Marche in Ancona, Italy, explored the effects of blue and red light exposure on human keratinocytes. The study found that high-irradiance blue or red light reduced cell viability, induced cell death and cell cycle arrest, increased reactive oxygen species (ROS), and altered mitochondrial density and morphology. The proteomic profile revealed the involvement of Cytoplasmic thioredoxin reductase 1 (TXNRD1) and Aldo-keto reductase family 1 member C3 (AKR1C3) in the response of keratinocytes to high-irradiance light exposure. These findings contribute to understanding the therapeutic use of light and developing preventive strategies for skin damage. Further research is needed to investigate the biological effects of light on human keratinocytes in vivo. [Extracted from the article]

Published

2023

156. FeS-thioredoxin regulates suppression of hypoxia-induced factor 2a through iron regulatory protein 1 (Updated November 13, 2023).

Abstract

This article discusses the role of Thioredoxins (Trxs) in cellular processes such as DNA synthesis. The study characterizes human and murine Trx1 as new iron-sulfur proteins and explains that the formation of a holo-dimer of Trx1 is dependent on small structural changes. The article also highlights the importance of Trx1 in the regulation of cellular iron homeostasis through iron-regulatory proteins (IRP) and its role in the translation of mRNA encoding hypoxia-inducible factor (HIF) 2. The study suggests that under iron-limiting conditions, HIF2 protein may accumulate to regulate processes like erythropoiesis. However, it is important to note that this preprint has not been peer-reviewed. [Extracted from the article]

Published

2023

157. Thioredoxin and Glutaredoxin Systems as Potential Targets for the Development of New Treatments in Friedreich’s Ataxia

Author

Marta Seco-Cervera, Pilar González-Cabo, Federico V. Pallardó, Carlos Romá-Mateo, and José Luis García-Giménez

Subjects

Friedreich’s ataxia, oxidative stress, thioredoxins, glutaredoxins, Therapeutics. Pharmacology, RM1-950

Abstract

The thioredoxin family consists of a small group of redox proteins present in all organisms and composed of thioredoxins (TRXs), glutaredoxins (GLRXs) and peroxiredoxins (PRDXs) which are found in the extracellular fluid, the cytoplasm, the mitochondria and in the nucleus with functions that include antioxidation, signaling and transcriptional control, among others. The importance of thioredoxin family proteins in neurodegenerative diseases is gaining relevance because some of these proteins have demonstrated an important role in the central nervous system by mediating neuroprotection against oxidative stress, contributing to mitochondrial function and regulating gene expression. Specifically, in the context of Friedreich’s ataxia (FRDA), thioredoxin family proteins may have a special role in the regulation of Nrf2 expression and function, in Fe-S cluster metabolism, controlling the expression of genes located at the iron-response element (IRE) and probably regulating ferroptosis. Therefore, comprehension of the mechanisms that closely link thioredoxin family proteins with cellular processes affected in FRDA will serve as a cornerstone to design improved therapeutic strategies.

Published

2020

158. Hepatotoxicity-Related Oxidative Modifications of Thioredoxin 1/Peroxiredoxin 1 Induced by Different Cadmium-Based Quantum Dots

Author

Wenhua Cao, Xiaoqian Liu, Xiaoqing Huang, Zhenhua Liu, Xinyi Cao, Wen Gao, and Bo Tang

Subjects

Oxidative Stress, Thioredoxins, Quantum Dots, Cadmium Compounds, Humans, Hydrogen Peroxide, Peroxiredoxins, Chemical and Drug Induced Liver Injury, Tellurium, Oxidation-Reduction, Cadmium, Analytical Chemistry

Abstract

The hepatotoxicity of cadmium-based quantum dots (Cd-QDs) has become the focus with their extensive applications in biomedicine. Previous reports have demonstrated that high oxidative stress and consequent redox imbalance play critical roles in their toxicity mechanisms. Intracellular antioxidant proteins, such as thioredoxin 1 (Trx1) and peroxiredoxin 1 (Prx1), could regulate redox homeostasis through thiol-disulfide exchange. Herein, we hypothesized that the excessive reactive oxygen species (ROS) induced by Cd-QD exposure affects the functions of Trx1 or Prx1, which further causes abnormal apoptosis of liver cells and hepatotoxicity. Thereby, three types of Cd-QDs, CdS, CdSe, and CdTe QDs, were selected for conducting an intensive study. Under the same conditions, the H

Published

2022

159. Improved Red Fluorescent Redox Indicators for Monitoring Cytosolic and Mitochondrial Thioredoxin Redox Dynamics

Author

Yu Pang, Hao Zhang, and Hui-wang Ai

Subjects

Cytosol, Thioredoxins, Oxidation-Reduction, Biochemistry, Article, Mitochondria

Abstract

Thioredoxin (Trx) is one of the major thiol-dependent antioxidants in living systems. The study of Trx functions in redox biology was impeded by the lack of practical tools to track Trx redox dynamics in live cells. Our previous work developed TrxRFP1, the first genetically encoded fluorescent indicator for Trx redox. In this work, we report an improved fluorescent indicator, TrxRFP2, for tracking the redox of Trx1, which is primarily cytosolic and nuclear. Furthermore, because mitochondria specifically express Trx2, we have created a new genetically encoded fluorescent indicator, MtrxRFP2, for the redox of mitochondrial Trx. We characterized MtrxRFP2 as a purified protein and used subcellularly localized MtrxRFP2 to image mitochondrial redox changes in live cells.

Published

2022

160. DNA methylation level of the gene encoding thioredoxin-interacting protein in peripheral blood cells is associated with metabolic syndrome in the Japanese general population

Author

Yoshitaka Ando, Nobuyuki Hamajima, Hiroaki Ishikawa, Hiroya Yamada, Eiji Munetsuna, Ryosuke Fujii, Keisuke Maeda, Mirai Yamazaki, Genki Mizuno, Shuji Hashimoto, Koji Suzuki, Yoshiki Tsuboi, and Koji Ohashi

Subjects

medicine.medical_specialty, Thioredoxin-Interacting Protein, Endocrinology, Diabetes and Metabolism, Population, Type 2 diabetes, Thioredoxins, Endocrinology, Japan, Internal medicine, medicine, Humans, Epigenetics, education, Abdominal obesity, Metabolic Syndrome, education.field_of_study, Blood Cells, business.industry, DNA Methylation, medicine.disease, Diabetes Mellitus, Type 2, DNA methylation, Metabolic syndrome, medicine.symptom, Carrier Proteins, business, TXNIP

Abstract

Metabolic syndrome (MetS) is cluster of metabolic diseases, including abdominal obesity, hyperglycemia, high blood pressure, and dyslipidemia, that directly escalate the risk of type 2 diabetes, heart disease, and stroke. Thioredoxin-interacting protein (TXNIP) is a binding protein for thioredoxin, a molecule that is a key inhibitor of cellular oxidation, and thus regulates the cellular redox state. Epigenetic alteration of the TXNIP-encoding locus has been associated with components of MetS. In the present study, we sought to determine whether the level of TXNIP methylation in blood is associated with MetS in the general Japanese population. DNA was extracted from the peripheral blood cells of 37 subjects with and 392 subjects without MetS. The level of TXNIP methylation at cg19693031 was assessed by the bisulfite-pyrosequencing method. We observed that TXNIP methylation levels were lower in MetS subjects (median 74.9%, range 71.7-78.4%) than in non-MetS subjects (median 77.7%, range 74.4-80.5%; p = 0.0024). Calculation of the confounding factor-adjusted odds ratios (ORs) and 95% confidence intervals (CIs) for hypomethylation revealed that subjects with MetS exhibited significantly higher ORs for hypomethylation than did those without MetS (OR, 2.92; 95% CI, 1.33-6.62; p = 0.009). Our findings indicated that lower levels of TXNIP methylation are associated with MetS in the general Japanese population. Altered levels of DNA methylation in TXNIP at cg19693031 might play an important role in the pathogenesis of ‍MetS.

Published

2022

161. Thioredoxin 1 supports colorectal cancer cell survival and promotes migration and invasion under glucose deprivation through interaction with G6PD

Author

Fengying Lu, Daoquan Fang, Shuhan Li, Zuyue Zhong, Xiujiao Jiang, Qinqin Qi, Yining Liu, Wenqi Zhang, Xiaohui Xu, Yangyang Liu, Weijian Zhu, and Lei Jiang

Subjects

Epithelial-Mesenchymal Transition, Cell Survival, Cell Biology, Deoxyglucose, Glucosephosphate Dehydrogenase, Applied Microbiology and Biotechnology, Gene Expression Regulation, Neoplastic, Glucose, Thioredoxins, Cell Movement, Cell Line, Tumor, Tumor Microenvironment, Humans, Colorectal Neoplasms, Molecular Biology, NADP, Ecology, Evolution, Behavior and Systematics, Cell Proliferation, Developmental Biology

Abstract

Overcoming energy stress is a critical step for cells in solid tumors. Under this stress microenvironment, cancer cells significantly alter their energy metabolism to maintain cell survival and even metastasis. Our previous studies have shown that thioredoxin-1 (Trx-1) expression is increased in colorectal cancer (CRC) and promotes cell proliferation. However, the exact role and mechanism of how Trx-1 is involved in energy stress are still unknown. Here, we observed that glucose deprivation of CRC cells led to cell death and promoted the migration and invasion, accompanied by upregulation of Trx-1. Increased Trx-1 supported CRC cell survival under glucose deprivation. Whereas knockdown of Trx-1 sensitized CRC cells to glucose deprivation-induced cell death and reversed glucose deprivation-induced migration, invasion, and epithelial-mesenchymal transition (EMT). Furthermore, we identified glucose-6-phosphate dehydrogenase (G6PD) interacting with Trx-1 by HuPortTM human protein chip, co-IP and co-localization. Trx-1 promoted G6PD protein expression and activity under glucose deprivation, thereby increasing nicotinamide adenine dinucleotide phosphate (NADPH) generation. Moreover, G6PD knockdown sensitized CRC cells to glucose deprivation-induced cell death and suppressed glucose deprivation-induced migration, invasion, and EMT. Inhibition of Trx-1 and G6PD, together with inhibition of glycolysis using 2-deoxy-D-glucose (2DG), resulted in significant anti-tumor effects in CRC xenografts

Published

2022

162. High level of TXNDC9 predicts poor prognosis and contributes to the NF-κB-regulated metastatic potential in gastric cancer

Author

Nan Hao, Rui-Hua Li, Yong Zhang, Qun-Cao Yang, and Yuan-Yuan Duan

Subjects

Cancer Research, Gene knockdown, Oncogene, NF-kappa B, Cancer, Biology, Prognosis, medicine.disease, medicine.disease_cause, Metastasis, Gene Expression Regulation, Neoplastic, Thioredoxins, Oncology, Stomach Neoplasms, In vivo, Cell Line, Tumor, medicine, Cancer research, Animals, Humans, Thioredoxin, Signal transduction, Carcinogenesis, Cell Proliferation

Abstract

Gastric cancer (GC) is the most frequent malignant tumor in the digestive system, with high metastasis potential and poor prognosis. This study aimed to investigate the prognostic value and biological function of thioredoxin domain-containing protein 9 (TXNDC9) in GC. The expression of TXNDC9 was analyzed based on The Cancer Genome Atlas (TCGA) database. The prognostic value of TXNDC9 was evaluated by Kaplan-Meier curves and Cox regression analysis. The mRNA and protein expression of TXNDC9 were analyzed using quantitative real-time PCR and western blot analysis. The effects of TXNDC9 on GC cell invasion and EMT were assessed in vitro, and its effects on tumorigenesis were confirmed using animal experiments. The activity of the NF-κB signaling pathway was examined by both in vitro and in vivo experiments. TXNDC9 was highly expressed in GC tissues and cell lines. A high level of TXNDC9 was associated with poor overall survival and served as an independent prognostic biomarker in GC patients. The knockdown of TXNDC9 led to restrained GC cell invasion, microtubule formation, and EMT in vitro, and suppressed tumorigenesis in vivo. In addition, the NF-κB signaling pathway was demonstrated to mediate the functional role of TXNDC9 in GC. In conclusion, this study found that high TXNDC9 predicted poor prognosis in GC, and served as an oncogene by enhancing tumor cell invasion and EMT through the NF-κB signaling pathway.

Published

2022

163. Blocking CHOP-dependent TXNIP shuttling to mitochondria attenuates albuminuria and mitigates kidney injury in nephrotic syndrome

Author

Sun-Ji Park, Yeawon Kim, Chuang Li, Junwoo Suh, Jothilingam Sivapackiam, Tassia M. Goncalves, George Jarad, Guoyan Zhao, Fumihiko Urano, Vijay Sharma, and Ying Maggie Chen

Subjects

Cell Nucleus, Multidisciplinary, Nephrotic Syndrome, Inflammasomes, Apoptosis, Kidney, MAP Kinase Kinase Kinase 5, Mitochondria, Mitochondrial Proteins, Mice, Thioredoxins, NLR Family, Pyrin Domain-Containing 3 Protein, Albuminuria, Animals, Carrier Proteins, Reactive Oxygen Species, Gene Deletion, Transcription Factor CHOP

Abstract

Albuminuria is a hallmark of glomerular disease of various etiologies. It is not only a symptom of glomerular disease but also a cause leading to glomerulosclerosis, interstitial fibrosis, and eventually, a decline in kidney function. The molecular mechanism underlying albuminuria-induced kidney injury remains poorly defined. In our genetic model of nephrotic syndrome (NS), we have identified CHOP (C/EBP homologous protein)-TXNIP (thioredoxin-interacting protein) as critical molecular linkers between albuminuria-induced ER dysfunction and mitochondria dyshomeostasis. TXNIP is a ubiquitously expressed redox protein that binds to and inhibits antioxidant enzyme, cytosolic thioredoxin 1 (Trx1), and mitochondrial Trx2. However, very little is known about the regulation and function of TXNIP in NS. By utilizing Chop −/− and Txnip −/− mice as well as 68 Ga-Galuminox, our molecular imaging probe for detection of mitochondrial reactive oxygen species (ROS) in vivo, we demonstrate that CHOP up-regulation induced by albuminuria drives TXNIP shuttling from nucleus to mitochondria, where it is required for the induction of mitochondrial ROS. The increased ROS accumulation in mitochondria oxidizes Trx2, thus liberating TXNIP to associate with mitochondrial nod-like receptor protein 3 (NLRP3) to activate inflammasome, as well as releasing mitochondrial apoptosis signal-regulating kinase 1 (ASK1) to induce mitochondria-dependent apoptosis. Importantly, inhibition of TXNIP translocation and mitochondrial ROS overproduction by CHOP deletion suppresses NLRP3 inflammasome activation and p-ASK1–dependent mitochondria apoptosis in NS. Thus, targeting TXNIP represents a promising therapeutic strategy for the treatment of NS.

Published

2023

164. Protein disulfide isomerases (PDIs) negatively regulate ebolavirus structural glycoprotein expression in the endoplasmic reticulum (ER) via the autophagy-lysosomal pathway

Author

Bin Wang, Jing Zhang, Xin Liu, Qingqing Chai, Xiaoran Lu, Xiaoyu Yao, Zhichang Yang, Liangliang Sun, Silas F. Johnson, Richard C Schwartz, and Yong-Hui Zheng

Subjects

X-Box Binding Protein 1, Calnexin, Protein Disulfide-Isomerases, Prokaryotic Initiation Factor-2, Endoplasmic Reticulum, Histone Deacetylase 6, Thioredoxins, alpha-Mannosidase, CRISPR-Associated Protein 9, Sequestosome-1 Protein, Autophagy, Animals, Cysteine, Disulfides, Cycloheximide, Molecular Biology, Ubiquitins, Heat-Shock Proteins, Glycoproteins, RNA, Double-Stranded, Mucins, Lysosome-Associated Membrane Glycoproteins, Cell Biology, Ebolavirus, Actins, Hemagglutinins, Intercellular Signaling Peptides and Proteins, Thapsigargin, Calreticulin, Lysosomes, Microtubule-Associated Proteins, Research Paper

Abstract

Zaire ebolavirus (EBOV) causes a severe hemorrhagic fever in humans and non-human primates with high morbidity and mortality. EBOV infection is dependent on its structural glycoprotein (GP), but high levels of GP expression also trigger cell rounding, detachment, and downregulation of many surface molecules that is thought to contribute to its high pathogenicity. Thus, EBOV has evolved an RNA editing mechanism to reduce its GP expression and increase its fitness. We now report that the GP expression is also suppressed at the protein level in cells by protein disulfide isomerases (PDIs). Although PDIs promote oxidative protein folding by catalyzing correct disulfide formation in the endoplasmic reticulum (ER), PDIA3/ERp57 adversely triggered the GP misfolding by targeting GP cysteine residues and activated the unfolded protein response (UPR). Abnormally folded GP was targeted by ER-associated protein degradation (ERAD) machinery and, unexpectedly, was degraded via the macroautophagy/autophagy-lysosomal pathway, but not the proteasomal pathway. PDIA3 also decreased the GP expression from other ebolavirus species but increased the GP expression from Marburg virus (MARV), which is consistent with the observation that MARV-GP does not cause cell rounding and detachment, and MARV does not regulate its GP expression via RNA editing during infection. Furthermore, five other PDIs also had a similar inhibitory activity to EBOV-GP. Thus, PDIs negatively regulate ebolavirus glycoprotein expression, which balances the viral life cycle by maximizing their infection but minimizing their cellular effect. We suggest that ebolaviruses hijack the host protein folding and ERAD machinery to increase their fitness via reticulophagy during infection. Abbreviations: 3-MA: 3-methyladenine; 4-PBA: 4-phenylbutyrate; ACTB: β-actin; ATF: activating transcription factor; ATG: autophagy-related; BafA1: bafilomycin A(1); BDBV: Bundibugyo ebolavirus; CALR: calreticulin; CANX: calnexin; CHX: cycloheximide; CMA: chaperone-mediated autophagy; ConA: concanamycin A; CRISPR: clusters of regularly interspaced short palindromic repeats; Cas9: CRISPR-associated protein 9; dsRNA: double-stranded RNA; EBOV: Zaire ebolavirus; EDEM: ER degradation enhancing alpha-mannosidase like protein; EIF2AK3/PERK: eukaryotic translation initiation factor 2 alpha kinase 3; Env: envelope glycoprotein; ER: endoplasmic reticulum; ERAD: ER-associated protein degradation; ERN1/IRE1: endoplasmic reticulum to nucleus signaling 1; GP: glycoprotein; HA: hemagglutinin; HDAC6: histone deacetylase 6; HMM: high-molecular-mass; HIV-1: human immunodeficiency virus type 1; HSPA5/BiP: heat shock protein family A (Hsp70) member 5; IAV: influenza A virus; IP: immunoprecipitation; KIF: kifenesine; Lac: lactacystin; LAMP: lysosomal associated membrane protein; MAN1B1/ERManI: mannosidase alpha class 1B member 1; MAP1LC3/LC3: microtubule associated protein 1 light chain 3; MARV: Marburg virus; MLD: mucin-like domain; NHK/SERPINA1: alpha1-antitrypsin variant null (Hong Kong); NTZ: nitazoxanide; PDI: protein disulfide isomerase; RAVV: Ravn virus; RESTV: Reston ebolavirus; SARS-CoV: severe acute respiratory syndrome coronavirus; SBOV: Sudan ebolavirus; sGP: soluble GP; SQSTM1/p62: sequestosome 1; ssGP: small soluble GP; TAFV: Taï Forest ebolavirus; TIZ: tizoxanide; TGN: thapsigargin; TLD: TXN (thioredoxin)-like domain; Ub: ubiquitin; UPR: unfolded protein response; VLP: virus-like particle; VSV: vesicular stomatitis virus; WB: Western blotting; WT: wild-type; XBP1: X-box binding protein 1.

Published

2023

165. The Emerging Role of Salivary Oxidative Stress Biomarkers as Prognostic Markers of Periodontitis: New Insights for a Personalized Approach in Dentistry

Author

Gaia Viglianisi, Gianluca Martino Tartaglia, Simona Santonocito, Mariacristina Amato, Alessandro Polizzi, Marco Mascitti, and Gaetano Isola

Subjects

therapy, inflammation, oxidative stress, periodontitis, precision medicine, superoxide dismutase, thioredoxins, Settore MED/28 - Malattie Odontostomatologiche, Medicine (miscellaneous)

Abstract

Periodontitis is a multifactorial and infective oral disease that leads to the destruction of periodontal tissues and tooth loss. Although the treatment of periodontitis has improved recently, the effective treatment of periodontitis and the periodontitis-affected periodontal tissues is still a challenge. Therefore, exploring new therapeutic strategies for a personalized approach is urgent. For this reason, the aim of this study is to summarize recent advances and the potential of oxidative stress biomarkers in the early diagnosis and personalized therapeutic approaches in periodontitis. Recently, ROS metabolisms (ROMs) have been studied in the physiopathology of periodontitis. Different studies show that ROS plays a crucial role in periodontitis. In this regard, the reactive oxygen metabolites (ROMs) started to be searched for the measures of the oxidizing capacity of the plasma understood as the total content of oxygen free radicals (ROS). The oxidizing capacity of plasma is a significant indicator of the body’s oxidant state as well as homocysteine (Hcy), sulfur amino acid, which has pro-oxidant effects as it favors the production of superoxide anion. More specifically, the thioredoxin (TRX) and peroxiredoxin (PRX) systems control reactive oxygen species (ROS), such as superoxide and hydroxyl species, to transduce redox signals and change the activities of antioxidant enzymes to remove free radicals. Superoxide dismutase (SOD), catalase, and glutathione peroxidase (GPx), among other antioxidant enzymes, change their activity when ROS are produced in order to neutralize free radicals. The TRX system is triggered and transduces redox signals to do this.

Published

2023

166. Mitochondria play a key role in oxidative stress-induced pancreatic islet dysfunction after severe burns

Author

Xinzhu Liu, Zhaoxing Liu, Dawei Li, Yuezeng Niu, Wen Zhang, Jiachen Sun, Kun Zhang, Hongqing Zhao, Zhisheng Li, and Chuan'an Shen

Subjects

Blood Glucose, Male, Superoxide Dismutase, Sodium, Critical Care and Intensive Care Medicine, Antioxidants, Mitochondria, Mice, Inbred C57BL, Electron Transport Complex III, Islets of Langerhans, Mice, Oxidative Stress, Thioredoxins, Hyperglycemia, Animals, Insulin, Surgery, Burns, Pyruvates, Reactive Oxygen Species

Abstract

Severe burns are often complicated with hyperglycemia in part caused by pancreatic islet dysfunction. Previous studies have revealed that in diabetes mellitus, the pancreatic islet dysfunction is partly attributed to oxidative stress. However, the role and mechanism of oxidative stress in hyperglycemia after severe burns remain unclear. Therefore, the purpose of this study was to explore the level and mechanism of oxidative stress in pancreatic islets after severe burns and the antioxidant effect of sodium pyruvate.A 30% total body surface area full-thickness burn model was established using male C57BL/6 mice. Fasting blood glucose and glucose-stimulated insulin secretion (GSIS) 24 hours post severe burns were detected. The levels of reactive oxygen species (ROS) and mitochondrial ROS of islets were detected. The activities of complexes in the mitochondrial respiratory chain of islets were measured. The main antioxidant defense system, glutaredoxin system, and thioredoxin system-related indexes were detected, and the expression of manganese superoxide dismutase (Mn-SOD) was measured. In addition, the antioxidant activity of sodium pyruvate was evaluated post severe burns.After severe burns, fasting blood glucose levels increased, while GSIS levels decreased, with significantly elevated ROS levels of pancreatic islets. The activity of complex III decreased and the level of mitochondrial ROS increased significantly post severe burns. For the detoxification of ROS, the expressions of thioredoxin 2, thioredoxin reductase 2, and Mn-SOD located in mitochondria decreased. Sodium pyruvate reduced the level of mitochondrial ROS in islet cells and improved the GSIS of islets after severe burns.The high level of mitochondrial ROS of islets is caused by reducing the activity of complex III in mitochondrial respiratory chain, inhibiting mitochondrial thioredoxin system, and downregulating Mn-SOD post severe burns. Sodium pyruvate plays an antioxidant role post severe burns in mice islets and improves the islet function.

Published

2021

167. <scp> Lactobacillus paracasei M11 </scp> ‐4 isolated from fermented rice demonstrates good antioxidant properties <scp> in vitro </scp> and <scp> in vivo </scp>

Author

Hongxing Zhang, Jin Junhua, Fazheng Ren, Chenyang Dong, Jianjun Yang, Hui Liu, and Xie Yuanhong

Subjects

Antioxidant, Lactobacillus paracasei, medicine.medical_treatment, Antioxidants, Lipid peroxidation, chemistry.chemical_compound, Thioredoxins, In vivo, medicine, Animals, Food science, chemistry.chemical_classification, Nutrition and Dietetics, biology, Probiotics, Galactose, food and beverages, Oryza, Lacticaseibacillus paracasei, Glutathione, biology.organism_classification, Rats, Enzyme, chemistry, Fermentation, Fermented Foods, Thioredoxin, Agronomy and Crop Science, Food Science, Biotechnology

Abstract

Background Probiotics are defined as microorganisms that can exert health benefits for the host. Among the recognized probiotics, Lactobacillus paracasei are one of the most frequently used probiotics in humans. The L. paracasei strain M11-4, isolated from fermented rice, which could ferment soymilk within a short curd time, and fermented soymilk presented high viability, acceptable flavor and antioxidant activity, which revealed that the strain maybe have a potential antioxidant value. Therefore, it is necessary to further explore the antioxidant activity of L. paracasei strain M11-4. Results The radical scavenging activities, lipid peroxidation inhibition, and reducing power of L. paracasei M11-4 were the highest in the fermentation culture without cells, while the activities of other antioxidant enzymes of L. paracasei M11-4 were high in the cell-free extract and bacterial suspension. Moreover, L. paracasei M11-4 exerted its antioxidant effect by upregulating the gene expression of its antioxidant enzymes, thioredoxin (Trx) and glutathione (GSH) systems when hydrogen peroxide (H2 O2 ) existed. Supplementation of rats with L. paracasei M11-4 effectively alleviated D-galactose-induced oxidative damage in the liver and serum and prevented D-galactose-induced changes to intestinal microbiota. Supplementation with L. paracasei M11-4 also reduced the elevated expression of Trx and GSH system genes induced by D-galactose. Conclusion L. paracasei M11-4 has good antioxidant properties both in vitro and in vivo and the antioxidant mechanism of it was studied at the molecular level. This article is protected by copyright. All rights reserved.

Published

2021

168. AC81 Is a Putative Disulfide Isomerase Involved in Baculoviral Disulfide Bond Formation

Author

Huanyu Zhang, Wenhua Kuang, Congcong Fu, Jiang Li, Manli Wang, and Zhihong Hu

Subjects

Viral Proteins, Thioredoxins, Structure and Assembly, Virology, Insect Science, Immunology, Protein Disulfide-Isomerases, Animals, Disulfides, Spodoptera, Baculoviridae, Microbiology

Abstract

The correct formation of native disulfide bonds is critical for the proper structure and function of many proteins. Cellular disulfide bond formation pathways commonly consist of two parts: sulfhydryl oxidase-mediated oxidation and disulfide isomerase-mediated isomerization. Some large DNA viruses, such as baculoviruses, encode sulfhydryl oxidases, but viral disulfide isomerases have not yet been identified, although G4L in poxvirus has been suggested to serve such a function. Here, we report that the baculovirus core gene ac81 encodes a putative disulfide isomerase. ac81 is conserved in baculoviruses, nudiviruses, and hytrosaviruses. We found that AC81 homologs contain a typical thioredoxin fold conserved in disulfide isomerases. To determine the role of AC81, a series of Autographa californica nucleopolyhedrovirus (AcMNPV) bacmids containing ac81 knockout or point mutations was generated, and the results showed that AC81 is essential for budded virus production, multinucleocapsid occlusion-derived virus (ODV) formation, and ODV embedding in occlusion bodies. Nonreducing Western blot analysis indicated that disulfide bond formation in per os infectivity factor 5 (PIF5), a substrate of the baculoviral sulfhydryl oxidase P33, was abnormal when ac81 was knocked out or mutated. Pulldown assays showed that AC81 interacted with PIF5 and P33 in infected cells. In addition, two critical regions that harbor key amino acids for function were identified in AC81. Taken together, our results suggest that AC81 is a key component involved in the baculovirus disulfide bond formation pathway and likely functions as a disulfide isomerase. IMPORTANCE Many large DNA viruses, such as poxvirus, asfarvirus, and baculovirus, encode their own sulfhydryl oxidase to facilitate the disulfide bond formation of viral proteins. Here, we show that AC81 functions as a putative disulfide isomerase and is involved in multiple functions of the baculovirus life cycle. Interestingly, AC81 and P33 (sulfhydryl oxidase) are conserved in baculoviruses, nudiviruses, and hytrosaviruses, which are all insect-specific large DNA viruses replicating in the nucleus, suggesting that viral disulfide bond formation is an ancient mechanism shared by these viruses.

Published

2022

169. Expression of TRX1 optimizes the antitumor functions of human CAR T cells and confers resistance to a pro-oxidative tumor microenvironment

Author

Balta, Emre, Janzen, Nina, Kirchgessner, Henning, Toufaki, Vasiliki, Orlik, Christian, Liang, Jie, Lairikyengbam, Divya, Abken, Hinrich, Niesler, Beate, Müller-Decker, Karin, Ruppert, Thomas, and Samstag, Yvonne

Subjects

Oxidative Stress, Thioredoxins, T-Lymphocytes, Neoplasms, Immunology, Tumor Microenvironment, Humans, Immunology and Allergy, Immunotherapy, Adoptive, Oxidation-Reduction, Antioxidants

Abstract

Use of chimeric antigen receptor (CAR) T cells to treat B cell lymphoma and leukemia has been remarkably successful. Unfortunately, the therapeutic efficacy of CAR T cells against solid tumors is very limited, with immunosuppression by the pro-oxidative tumor microenvironment (TME) a major contributing factor. High levels of reactive oxygen species are well-tolerated by tumor cells due to their elevated expression of antioxidant proteins; however, this is not the case for T cells, which consequently become hypo-responsive. The aim of this study was to improve CAR T cell efficacy in solid tumors by empowering the antioxidant capacity of CAR T cells against the pro-oxidative TME. To this end, HER2-specific human CAR T cells stably expressing two antioxidant systems: thioredoxin-1 (TRX1), and glutaredoxin-1 (GRX1) were generated and characterized. Thereafter, antitumor functions of CAR T cells were evaluated under control or pro-oxidative conditions. To provide insights into the role of antioxidant systems, gene expression profiles as well as global protein oxidation were analyzed. Our results highlight that TRX1 is pivotal for T cell redox homeostasis. TRX1 expression allows CAR T cells to retain their cytolytic immune synapse formation, cytokine release, proliferation, and tumor cell-killing properties under pro-oxidative conditions. Evaluation of differentially expressed genes and the first comprehensive redoxosome analysis of T cells by mass spectrometry further clarified the underlying mechanisms. Taken together, enhancement of the key antioxidant TRX1 in human T cells opens possibilities to increase the efficacy of CAR T cell treatment against solid tumors.

Published

2022

170. Overexpression of CDSP32 (GhTRX134) Cotton Gene Enhances Drought, Salt, and Oxidative Stress Tolerance in Arabidopsis

Author

Mohammed Elasad, Adeel Ahmad, Hantao Wang, Liang Ma, Shuxun Yu, and Hengling Wei

Subjects

thioredoxins, abiotic stress, gene cloning, Arabidopsis, transformation, Botany, QK1-989

Abstract

Upland cotton (Gossypium hirsutum L.) is the main natural fiber crop worldwide and is an essential source of seed oil and biofuel products. Many abiotic stresses, such as drought and salinity, constrain cotton production. Thioredoxins (TRXs) are a group of small ubiquitous proteins that are widely distributed among organisms. TRXs play a crucial role in regulating diverse functions during plant growth and development. In the present study, a novel GhTRX134 gene was characterized and overexpressed in Arabidopsis and silenced in cotton under drought stress. Furthermore, the proline content and enzyme activity levels were measured in transgenic plants and wild-type (Wt) plants under drought and salt stress. The results revealed that the overexpression of GhTRX134 enhanced abiotic stress tolerance. When GhTRX134 was silenced, cotton plants become more sensitive to drought. Taken together, these findings confirmed that the overexpression of GhTRX134 improved drought and salt tolerance in Arabidopsis plants. Therefore, the GhTRX134 gene can be transformed into cotton plants to obtain transgenic lines for more functional details.

Published

2020

171. Thiol Peroxidases as Major Regulators of Intracellular Levels of Peroxynitrite in Live Saccharomyces cerevisiae Cells

Author

André Luís Condeles, Fernando Gomes, Marcos Antonio de Oliveira, Luís Eduardo Soares Netto, and José Carlos Toledo Junior

Subjects

thiol peroxidases, peroxiredoxins, thioredoxins, peroxynitrite, boronate, nitric oxide, Therapeutics. Pharmacology, RM1-950

Abstract

Thiol peroxidases (TP) are ubiquitous and abundant antioxidant proteins of the peroxiredoxin and glutathione peroxidase families that can catalytically and rapidly reduce biologically relevant peroxides, such as hydrogen peroxide and peroxynitrite. However, the TP catalytic cycle is complex, depending on multiple redox reactions and partners, and is subjected to branching and competition points that may limit their peroxide reductase activity in vivo. The goals of the present study were to demonstrate peroxynitrite reductase activity of TP members in live cells in real time and to evaluate its catalytic characteristics. To these ends, we developed a simple fluorescence assay using coumarin boronic acid (CBA), exploiting that fact that TP and CBA compete for peroxynitrite, with the expectation that higher TP peroxynitrite reductase activity will lower the CBA oxidation. TP peroxynitrite reductase activity was evaluated by comparing CBA oxidation in live wild type and genetically modified Δ8 (TP-deficient strain) and Δ8+TSA1 (Δ8 strain that expresses only one TP member, the TSA1 gene) Saccharomyces cerevisiae strains. The results showed that CBA oxidation decreased with cell density and increased with increasing peroxynitrite availability. Additionally, the rate of CBA oxidation decreased in the order Δ8 > Δ8+TSA1 > WT strains both in control and glycerol-adapted (expressing higher TP levels) cells, showing that the CBA competition assay could reliably detect peroxynitrite in real time in live cells, comparing CBA oxidation in strains with reduced and increased TP expression. Finally, there were no signs of compromised TP peroxynitrite reductase activity during experimental runs, even at the highest peroxynitrite levels tested. Altogether, the results show that TP is a major component in the defense of yeast against peroxynitrite insults under basal and increasing stressful conditions.

Published

2020

172. Molecular Identification of Two Thioredoxin Genes From Grapholita molesta and Their Function in Resistance to Emamectin Benzoate

Author

Zhong-Jian Shen, Yan-Jun Liu, Xu-Hui Gao, Xiao-Ming Liu, Song-Dou Zhang, Zhen Li, Qing-Wen Zhang, and Xiao-Xia Liu

Subjects

Grapholita molesta, Thioredoxins, RNA interference, oxidative stress, antioxidant defense, Physiology, QP1-981

Abstract

Thioredoxins (Trxs), a member of the thioredoxin system, play crucial roles in maintaining intracellular redox homeostasis and protecting organisms against oxidative stress. In this study, we cloned and characterized two genes, GmTrx2 and GmTrx-like1, from Grapholita molesta. Sequence analysis showed that GmTrx2 and GmTrx-like1 had highly conserved active sites CGPC and CXXC motif, respectively, and shared high sequence identity with selected insect species. The quantitative real-time polymerase chain reaction results revealed that GmTrx2 was mainly detected at first instar, whereas GmTrx-like1 was highly concentrated at prepupa day. The transcripts of GmTrx2 and GmTrx-like1 were both highly expressed in the head and salivary glands. The expression levels of GmTrx2 and GmTrx-like1 were induced by low or high temperature, E. coli, M. anisopliae, H2O2, and pesticides (emamectin benzoate). We further detected interference efficiency of GmTrx2 and GmTrx-like1 in G. molesta larvae and found that peroxidase capacity, hydrogen peroxide content, and ascorbate content all increased after knockdown of GmTrx2 or GmTrx-like1. Furthermore, the hydrogen peroxide concentration was increased by emamectin benzoate and the sensitivity for larvae to emamectin benzoate was improved after GmTrx2 or GmTrx-like1 was silenced. Our results indicated that GmTrx2 and GmTrx-like1 played vital roles in protecting G. molesta against oxidative damage and also provided the theoretical basis for understanding the antioxidant defense mechanisms of the Trx system in insects.

Published

2018

173. Redox Regulation of Starch Metabolism

Author

Katsiaryna Skryhan, Libero Gurrieri, Francesca Sparla, Paolo Trost, and Andreas Blennow

Subjects

redox regulation, starch, thioredoxins, NTRC, diurnal regulation, Plant culture, SB1-1110

Abstract

Metabolism of starch is a major biological integrator of plant growth supporting nocturnal energy dynamics by transitory starch degradation as well as periods of dormancy, re-growth, and reproduction by utilization of storage starch. Especially, the extraordinarily well-tuned and coordinated rate of transient starch biosynthesis and degradation suggests the presence of very sophisticated regulatory mechanisms. Together with the circadian clock, land plants (being autotrophic and sessile organisms) need to monitor, sense, and recognize the photosynthetic rate, soil mineral availability as well as various abiotic and biotic stress factors. Currently it is widely accepted that post-translational modifications are the main way by which the diel periodic activity of enzymes of transient starch metabolism are regulated. Among these mechanisms, thiol-based redox regulation is suggested to be of fundamental importance and in chloroplasts, thioredoxins (Trx) are tightly linked up to photosynthesis and mediate light/dark regulation of metabolism. Also, light independent NADP-thioredoxin reductase C (NTRC) plays a major role in reactive oxygen species scavenging. Moreover, Trx and NTRC systems are interconnected at several levels and strongly influence each other. Most enzymes involved in starch metabolism are demonstrated to be redox-sensitive in vitro. However, to what extent their redox sensitivity is physiologically relevant in synchronizing starch metabolism with photosynthesis, heterotrophic energy demands, and oxidative protection is still unclear. For example, many hydrolases are activated under reducing (light) conditions and the strict separation between light and dark metabolic pathways is now challenged by data suggesting degradation of starch during the light period.

Published

2018

174. Regulatory redox state in tree seeds

Author

Ewelina Ratajczak and Karl Josef Dietz

Subjects

orthodox, recalcitrant, intermediate seeds, peroxiredoxins, thioredoxins, redox state, Botany, QK1-989

Abstract

Peroxiredoxins (Prx) are important regulators of the redox status of tree seeds during maturation and long-term storage. Thioredoxins (Trx) are redox transmitters and thereby regulate Prx activity. Current research is focused on the association of Trx with Prx in tree seeds differing in the tolerance to desiccation. The results will allow for better understanding the regulation of the redox status in orthodox, recalcitrant, and intermediate seeds. The findings will also elucidate the role of the redox status during the loss of viability of sensitive seeds during drying and long-term storage.

Published

2017

175. The Relationship between Tissue Thioredoxin Reductase Activity and the Psoriasis Area and Severity Index

Author

Kiafar, Bita, Binabaj, Maryam, Jafarian, Amir, Khazan, Zahra, and Hashemy, Seyed

Subjects

Thioredoxins, Skin, Psoriasis, Enzymes, EDTA, Oxidative stress, Health

Abstract

Byline: Bita. Kiafar, Maryam. Binabaj, Amir. Jafarian, Zahra. Khazan, Seyed. Hashemy Introduction: Psoriasis is an autoimmune disease. The important role of oxidative stress in the pathogenesis of psoriasis had been [...]

Published

2020

176. miR-223 Enhances the Neuroprotection of Estradiol Against Oxidative Stress Injury by Inhibiting the FOXO3/TXNIP Axis

Author

Jiezhi Ma, Ke Guo, and Qiong Pan

Subjects

medicine.medical_specialty, Thioredoxin-Interacting Protein, Apoptosis, medicine.disease_cause, Biochemistry, Neuroprotection, Superoxide dismutase, Mice, Neuroblastoma, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Thioredoxins, Internal medicine, medicine, Animals, Humans, Estradiol, biology, Chemistry, Forkhead Box Protein O3, Hydrogen Peroxide, General Medicine, Malondialdehyde, MicroRNAs, Oxidative Stress, Endocrinology, biology.protein, FOXO3, Carrier Proteins, Reactive Oxygen Species, TXNIP, Oxidative stress

Abstract

Alzheimer's disease (AD) is an irreversible neurodegenerative disorder characterized by complex pathogenesis, of which oxidative stress has long been regarded as a major mechanism. Previously, the protective effects of estradiol on SH-SY5Y cells against Aβ42-induced injuries were demonstrated. In this study, the protection of SH-SY5Y cells by estradiol from H2O2-caused oxidative stress injury and Alzheimer's mice was further confirmed. H2O2 downregulated, whereas estradiol upregulated miR-223 expression. miR-223 overexpression promoted cell viability, inhibited cell apoptosis, reduced ROS levels, enhanced Superoxide Dismutase (SOD) activity, and decreased malondialdehyde (MDA) content. However, miR-223 inhibition exerted opposite effects. miR-223 directly targeted forkhead box O3 (FOXO3) and inhibited FOXO3 expression. H2O2 increased, whereas estradiol decreased thioredoxin interacting protein (TXNIP) levels; FOXO3 positively regulated TXNIP protein levels. In SH-SY5Y cells, FOXO3 overexpression increased, whereas FOXO3 knockdown reduced the cell apoptosis and ROS levels. FOXO3 bound to TXNIP promoter region and activated TXNIP transcription, whereas the activation could be partially inhibited by estradiol. Collectively, the FOXO3/TXNIP axis is downstream of miR-223. miR-223 enhances the neuroprotection of estradiol against oxidative stress injury through the FOXO3/TXNIP axis.

Published

2021

177. The level of S-glutathionylated protein is a predictor for metastasis in colorectal cancer and correlated with those of Nrf2/Keap1 pathway

Author

Chung-Ching Hua, Chung-Wei Fan, Wen-Ko Tseng, and Liang-Che Chang

Subjects

Male, NF-E2-Related Factor 2, Colorectal cancer, Health, Toxicology and Mutagenesis, Blotting, Western, Clinical Biochemistry, Glutathione reductase, Biochemistry, Metastasis, chemistry.chemical_compound, Thioredoxins, Western blot, Thioredoxin Reductase 1, medicine, Humans, Neoplasm Metastasis, Aged, Kelch-Like ECH-Associated Protein 1, medicine.diagnostic_test, Proteins, Glutathione, Middle Aged, Prognosis, medicine.disease, NFE2L2, chemistry, Lymphatic Metastasis, Cancer research, Female, Thioredoxin, Colorectal Neoplasms, Protein Processing, Post-Translational, Signal Transduction

Abstract

Introduction The Nrf2 (nuclear factor erythroid 2-like 2; NFE2L2)/Keap1 (Kelch-like ECH-associated protein 1) pathway and the TXN (thioredoxin)/GSH (glutathione) system interact mutually and regulate cellular redox with impacts on cancer metastasis and S-glutathionylation of protein, which is an indicator of cell distress. This study investigates the levels of proteins in the Nrf2/Keap1 pathway and the TXN/GSH system and SGP (S-glutathionylated protein) in CRC (colorectal cancer) with or without metastasis. Materials and methods The protein levels of Nrf2, Keap1, Bach1 (BTB domain and CNC homolog 1), TXN, TXNRD1 (thioredoxin reductase 1), GSR (glutathione reductase) and SGP with molecular weight 31-172 kDa in the normal and tumor tissues of 64 CRC subjects were determined by Western blot. Results The protein levels and their T/N (tumor/normal tissue) ratios of the Nrf2/Keap1 pathway, the TXN/GSH system and SGP were correlated to different extents in the tissues of CRC subjects with or without lymph node/distant metastasis. The T/N ratios of SGP (odd ratio: 0.19; 95% CI: 0.04 - 0.74) and lympho-vascular invasion (4.2; 1.39 - 13.73) were significant predictors for metastasis. Conclusions SGPs have protein levels correlated with those of the Nrf2/Keap1 pathway and their T/N ratios are a negative predictor for metastasis in CRC.

Published

2021

178. Thioredoxin reductase from Bacillus cereus exhibits distinct reduction and NADPH‐binding properties

Author

Hans-Petter Hersleth, Marta Hammerstad, Marita Shoor, and Ingvild Gudim

Subjects

inorganic chemicals, crystal structure, Thioredoxin-Disulfide Reductase, Flavodoxin, QH301-705.5, Thioredoxin reductase, Crystallography, X-Ray, ribonucleotide reductase, General Biochemistry, Genetics and Molecular Biology, flavodoxin reductase, Thioredoxins, Bacillus cereus, Bacterial Proteins, Ribonucleotide Reductases, Binding site, Biology (General), Research Articles, Ferredoxin, Binding Sites, biology, Chemistry, thioredoxin reductase, biology.organism_classification, Ferredoxin-NADP Reductase, Ribonucleotide reductase, Biochemistry, Cereus, biology.protein, NADPH binding, bacteria, Thioredoxin, Oxidation-Reduction, NADP, Research Article

Abstract

Low‐molecular‐weight (low M r) thioredoxin reductases (TrxRs) are homodimeric NADPH‐dependent dithiol flavoenzymes that reduce thioredoxins (Trxs) or Trx‐like proteins involved in the activation networks of enzymes, such as the bacterial class Ib ribonucleotide reductase (RNR). During the last few decades, TrxR‐like ferredoxin/flavodoxin NADP+ oxidoreductases (FNRs) have been discovered and characterized in several types of bacteria, including those not encoding the canonical plant‐type FNR. In Bacillus cereus, a TrxR‐like FNR has been shown to reduce the flavodoxin‐like protein NrdI in the activation of class Ib RNR. However, some species only encode TrxR and lack the homologous TrxR‐like FNR. Due to the structural similarity between TrxRs and TrxR‐like FNRs, as well as variations in their occurrence in different microorganisms, we hypothesized that low M r TrxR may be able to replace TrxR‐like FNR in, for example, the reduction of NrdI. In this study, characterization of TrxR from B. cereus has revealed a weak FNR activity toward NrdI reduction. Additionally, the crystal structure shows that only one out of two binding sites of the B. cereus TrxR homodimer is occupied with NADPH, indicating a possible asymmetric co‐substrate binding in TrxR., Bacillus cereus thioredoxin reductase (TrxR) reveals weak activity as a reductase of the flavodoxin‐like protein NrdI, as compared to the endogenous NrdI‐reductase ferredoxin/flavodoxin NADP+ oxidoreductase (FNR). A TrxR mutant, designed to resemble FNR, did not improve the catalytic efficiency. The crystal structure of homodimeric B. cereus TrxR shows a single bound NADPH, indicating a possible asymmetric co‐substrate binding in TrxR.

Published

2021

179. Salidroside Alleviates Chronic Constriction Injury-Induced Neuropathic Pain and Inhibits of TXNIP/NLRP3 Pathway

Author

Qian Li, Qingyu Sun, Jing Liu, Yurui Zhang, Peipei Wang, Yumeng Ding, Yiran Ma, Wen Chen, Yu Gou, Ting Lan, Fei Yang, and Tingting Hu

Subjects

Inflammasomes, Analgesic, Cell Cycle Proteins, NLR Proteins, Pharmacology, Biochemistry, Neuroprotection, Rats, Sprague-Dawley, Mice, Cellular and Molecular Neuroscience, Thioredoxins, Glucosides, Phenols, NLR Family, Pyrin Domain-Containing 3 Protein, Animals, Medicine, integumentary system, business.industry, Chronic pain, Inflammasome, General Medicine, Nerve injury, medicine.disease, Constriction, Rats, Peripheral nerve injury, Neuropathic pain, Neuralgia, medicine.symptom, Carrier Proteins, business, TXNIP, medicine.drug

Abstract

Neuropathic pain is one of the most common conditions requiring treatment worldwide. Salidroside (SAL), a phenylpropanoid glucoside extracted from Rhodiola, has been suggested to produce an analgesic effect in chronic pain. However, whether SAL could alleviate pain hypersensitivity after peripheral nerve injury and its mode of action remains unclear. Several studies suggest that activation of the spinal NOD-like receptor protein 3 (NLRP3) inflammasome and its related proteins contribute to neuropathic pain's pathogenesis. This study investigates the time course of activation of spinal NLRP3 inflammasome axis in the development of neuropathic pain and also whether SAL could be an effective treatment for this type of pain by modulating NLRP3 inflammasome. In the chronic constriction injury (CCI) mice model, spinal NLRP3 inflammasome-related proteins and TXNIP, the mediator of NLRP3, were upregulated from the 14th to the 28th day after injury. The TXNIP and NLRP3 inflammasome-related proteins were mainly present in neurons and microglial cells in the spinal dorsal horn after CCI. Intraperitoneal injection of SAL at 200 mg/kg for 14 consecutive days starting from the 7th day of CCI injury could ameliorate mechanical and thermal hypersensitivity in the CCI model. Moreover, SAL inhibited the activation of the TXNIP/NLRP3 inflammasome axis and mitigated the neuronal loss of spinal dorsal horn induced by nerve injury. These results indicate that SAL could produce analgesic and neuroprotective effects in the CCI model of neuropathic pain.

Published

2021

180. Protein Design with Fluoroprolines: 4,4‐Difluoroproline Does Not Eliminate the Rate‐Limiting Step of Thioredoxin Folding

Author

Marina Rubini, Jennie O' Loughlin, and Silvia Napolitano

Subjects

chemistry.chemical_classification, Protein Folding, Proline, Globular protein, Stereochemistry, Organic Chemistry, Protein design, thioredoxin fold, Protein engineering, Thioredoxin fold, Biochemistry, Protein tertiary structure, protein design, protein folding, protein stability, 4,4-difluoroproline, Thioredoxins, chemistry, Humans, Thermodynamics, Molecular Medicine, Peptide bond, Protein folding, Thioredoxin, Molecular Biology

Abstract

C⁴-substituted fluoroprolines (4R)-fluoroproline ((4R)-Flp) and (4S)-fluoroproline ((4S)-Flp) have been used in protein engineering to enhance the thermodynamic stability of peptides and proteins. The electron-withdrawing effect of fluorine can bias the pucker of the pyrrolidine ring, influence the conformational preference of the preceding peptide bond, and can accelerate the cis/trans prolyl peptide bond isomerisation by diminishing its double bond character. The role of 4,4-difluoroproline (Dfp) in the acceleration of the refolding rate of globular proteins bearing a proline (Pro) residue in the cis conformation in the native state remains elusive. Moreover, the impact of Dfp on the thermodynamic stability and bioactivity of globular proteins has been seldom described. In this study, we show that the incorporation of Dfp caused a redox state dependent and position dependent destabilisation of the thioredoxin (Trx) fold, while the catalytic activities of the modified proteins remained unchanged. The Pro to Dfp substitution at the conserved cisPro76 in the thioredoxin variant Trx1P did not elicited acceleration of the rate-limiting trans-to-cis isomerization of the Ile75-Pro76 peptide bond. Our results show that pucker preferences in the context of a tertiary structure could play a major role in protein folding, thus overtaking the rules determined for cis/trans isomerisation barriers determined in model peptides., ChemBioChem, 22 (23), ISSN:1439-4227, ISSN:1439-7633

Published

2021

181. Role of Thioredoxin-Interacting Protein in Diabetic Fatty Kidney Induced by Advanced Glycation End-Products

Author

Bimin Shi, Jianzhong Li, Hong Sun, Juan Chen, and Lili Sun

Subjects

Gene knockdown, Thioredoxin-Interacting Protein, Chemistry, General Chemistry, Kidney, Cell biology, Small hairpin RNA, Mice, Kidney Tubules, Thioredoxins, Downregulation and upregulation, Glycation, Lipid droplet, LDL receptor, Diabetes Mellitus, Animals, Diabetic Nephropathies, General Agricultural and Biological Sciences, TXNIP, Signal Transduction

Abstract

Advanced glycation end-products (AGEs) have been identified as the etiological factors associated with the fatty kidney. Thioredoxin-interacting protein (TXNIP) might be a mediator involved in AGE-induced fatty kidney. This study focused on investigating how TXNIP affected the AGE-mediated renal lipid deposition. In an in vivo experiment, the db/db mice injected with the lentiviral vector encoding shRNA targeting TXNIP were given the AIN-76 basal or the high-AGE diet. TXNIP-targeting siRNA-transfected human renal proximal tubular epithelial (HK-2) cells were exposed to AGE-BSA in a study in vitro. The results showed that the silencing of TXNIP reduced tubular lipid droplets and intracellular cholesterol content, as well as upregulated Insig-1 and downregulated HMGCoAR, LDLr, nSREBP-2, and SCAP in the kidneys of the db/db mice, the high-AGE-diet-fed db/db mice, and AGE-BSA-treated HK-2 cells. Furthermore, AGE-BSA enhanced SCAP-SREBP-2 complex formation while promoting their transportation to the Golgi apparatus. However, these could be inhibited by TXNIP silencing in the HK-2 cells. The above findings indicated that TXNIP knockdown mitigated the accumulation of renal tubular lipids in diabetes through the regulation of SCAP, thereby inhibiting the SCAP-SREBP-2 signaling pathway, resulting in reduced cholesterol uptake and synthesis. Therefore, TXNIP might be a potential therapeutic target to treat a diabetic fatty kidney.

Published

2021

182. Edaravone prevents high glucose-induced injury in retinal Müller cells through thioredoxin1 and the PGC-1α/NRF1/TFAM pathway

Author

Juanping Yin and Xinke Chen

Subjects

retina, Antioxidant, antioxidant, Cell Survival, medicine.medical_treatment, Ependymoglial Cells, Pharmaceutical Science, Context (language use), Apoptosis, RM1-950, antioxidative enzymes, Pharmacology, Retinal ganglion, Rats, Sprague-Dawley, chemistry.chemical_compound, Inhibitory Concentration 50, mitochondrial membrane potential, Thioredoxins, Drug Discovery, Edaravone, medicine, Animals, Viability assay, Cells, Cultured, Membrane Potential, Mitochondrial, Retina, Diabetic Retinopathy, Chemistry, oxidative products, Nuclear Respiratory Factor 1, Diabetes, ROS, General Medicine, Free Radical Scavengers, TFAM, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha, Rats, Oxidative Stress, medicine.anatomical_structure, Glucose, Complementary and alternative medicine, Molecular Medicine, Therapeutics. Pharmacology, Research Article, Transcription Factors

Abstract

Context Oxidative injury in a high-glucose (HG) environment may be a mechanism of diabetic retinopathy (DR) and edaravone can protect retinal ganglion cells by scavenging ROS. Objective To explore the effect of edaravone on HG-induced injury. Materials and methods First, Muller cells were cultured by different concentrations of glucose for different durations to obtain a suitable culture concentrations and duration. Muller cells were then divided into Control, HG + Vehicle, HG + Eda-5 μM, HG + Eda-10 μM, HG + Eda-20 μM, and HG + Eda-40 μM groups. Cells were cultured by 20 mM glucose and different concentrations of edaravone for 72 h. Results The IC50 of glucose at 12-72 h is 489.3, 103.5, 27.92 and 20.71 mM, respectively. When Muller cells were cultured in 20 mM glucose for 72 h, the cell viability was 52.3%. Edaravone significantly increased cell viability compared to Vehicle (68.4% vs 53.3%; 78.6% vs 53.3%). The EC50 of edaravone is 34.38 μM. HG induced high apoptosis rate (25.5%), while edaravone (20 and 40 μM) reduced it to 12.5% and 6.89%. HG increased the DCF fluorescence signal (189% of Control) and decreased the mitochondrial membrane potential by 57%. Edaravone significantly decreased the DCF fluorescence signal (144% and 132% of Control) and recovered the mitochondrial membrane potential to 68% and 89% of Control. Furthermore, HG decreased the expression of TRX1, PGC-1α, NRF1 and TFAM, which were restored by edaravone. Discussion and conclusion These findings provide a new potential approach for the treatment of DR and indicated new molecular targets in the prevention of DR.

Published

2021

183. Biobanking efforts and new advances in male fertility preservation for rare and endangered species

Author

Pierre Comizzoli

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, sperm DNA damage, paternal genome, offspring, chemotaxis, rheotaxis, sperm behavior, sperm motility, thermotaxis, apoptosis, sperm capacitation, conservation, cryobiology, endangered species, male fertility, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Understanding and sustaining biodiversity is a multi-disciplinary science that benefits highly from the creation of organized and accessible collections of biomaterials (Genome Resource Banks). Large cryo-collections are invaluable tools for understanding, cataloging, and protecting the genetic diversity of the world′s unique animals and plants. Specifically, the systematic collection and preservation of semen from rare species has been developed significantly in recent decades with some biobanks now being actively used for endangered species management and propagation (including the introduction of species such as the black-footed ferret and the giant panda). Innovations emerging from the growing field of male fertility preservation for humans, livestock species, and laboratory animals are also becoming relevant to the protection and the propagation of valuable domestic and wild species. These new approaches extend beyond the "classical" methods associated with sperm freezing to include testicular tissue preservation combined with xenografting or in vitro culture, all of which have potential for rescuing vast amounts of unused germplasm. There also are other options under development that are predicted to have a high impact within the next decade (stem cell technologies, bio-stabilization of sperm cells at ambient temperatures, and the use of genomics tools). However, biobanking efforts and new fertility preservation strategies have to expand the way beyond mammalian species, which will offer knowledge and tools to better manage species that serve as valuable biomedical models or require assistance to reverse endangerment.

Published

2015

184. Sperm DNA fragmentation, recurrent implantation failure and recurrent miscarriage

Author

Carol Coughlan, Helen Clarke, Rachel Cutting, Jane Saxton, Sarah Waite, William Ledger, Tinchiu Li, and Allan A Pacey

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, sperm DNA damage, paternal genome, offspring, chemotaxis, rheotaxis, sperm behavior, sperm motility, thermotaxis, apoptosis, sperm capacitation, conservation, cryobiology, endangered species, male fertility, blood-testis barrier, ectoplasmic specialization, ezrin, hypogonadism, Leydig cell, oxidative stress, Sertoli cell, ultramorphology, varicocele, hyperthermia, seminal plasma biochemical markers, sperm parameters, environment, Hurricane Katrina, New Orleans area, normospermic infertile population, retrospective semen analysis, DNA, recurrent implantation failure, recurrent miscarriage, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Evidence is increasing that the integrity of sperm DNA may also be related to implantation failure and recurrent miscarriage (RM). To investigate this, the sperm DNA fragmentation in partners of 35 women with recurrent implantation failure (RIF) following in vitro fertilization, 16 women diagnosed with RM and seven recent fathers (control) were examined. Sperm were examined pre- and post-density centrifugation by the sperm chromatin dispersion (SCD) test and the terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) assay. There were no significant differences in the age of either partner or sperm concentration, motility or morphology between three groups. Moreover, there were no obvious differences in sperm DNA fragmentation measured by either test. However, whilst on average sperm DNA fragmentation in all groups was statistically lower in prepared sperm when measured by the SCD test, this was not seen with the results from the TUNEL assay. These results do not support the hypothesis that sperm DNA fragmentation is an important cause of RIF or RM, or that sperm DNA integrity testing has value in such patients. It also highlights significant differences between test methodologies and sperm preparation methods in interpreting the data from sperm DNA fragmentation tests.

Published

2015

185. Varicocele and testicular function

Author

Alexander W Pastuszak and Run Wang

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, sperm DNA damage, paternal genome, offspring, chemotaxis, rheotaxis, sperm behavior, sperm motility, thermotaxis, apoptosis, sperm capacitation, conservation, cryobiology, endangered species, male fertility, blood-testis barrier, ectoplasmic specialization, ezrin, hypogonadism, Leydig cell, oxidative stress, Sertoli cell, ultramorphology, varicocele, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Testicular varicocele, a dilation of the veins of the pampiniform plexus thought to increase testicular temperature via venous congestion, is commonly associated with male infertility. Significant study has clarified the negative impact of varicocele on semen parameters and more recent work has shed light on its detrimental effects on the molecular and ultrastructural features of sperm and the testicular microenvironment, as well as more clearly defined the positive impacts of treatment on couples′ fertility. The relationship between varicocele and testicular endocrine function, while known for some time based on histologic evaluation, has become more apparent in the clinical setting with a growing link between varicocele and hypogonadism. Finally, in the pediatric setting, while future study will clarify the impact of varicocele on fertility and testicular function, recent work supports a parallel effect of varicocele in adolescents and adults, suggesting a re-evaluation of current treatment approaches in light of the progressive nature of the condition and potential increased risk of future disease.

Published

2015

186. A comparative evaluation of semen parameters in pre- and post-Hurricane Katrina human population

Author

Caner Baran, Wayne J Hellstrom, and Suresh C Sikka

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, sperm DNA damage, paternal genome, offspring, chemotaxis, rheotaxis, sperm behavior, sperm motility, thermotaxis, apoptosis, sperm capacitation, conservation, cryobiology, endangered species, male fertility, blood-testis barrier, ectoplasmic specialization, ezrin, hypogonadism, Leydig cell, oxidative stress, Sertoli cell, ultramorphology, varicocele, hyperthermia, seminal plasma biochemical markers, sperm parameters, environment, Hurricane Katrina, New Orleans area, normospermic infertile population, retrospective semen analysis, Diseases of the genitourinary system. Urology, RC870-923

Abstract

A natural disaster leading to accumulation of environmental contaminants may have substantial effects on the male reproductive system. Our aim was to compare and assess semen parameters in a normospermic population residing in the Southern Louisiana, USA area pre- and post-Hurricane Katrina. We retrospectively evaluated semen analyses data (n = 3452) of 1855 patients who attended the Tulane University Andrology/Fertility Clinic between 1999 and 2013. The study inclusion criteria were men whose semen analyses showed ≥ 1.5 ml volume; ≥15 million ml -1 sperm concentration; ≥39 million total sperm count; ≥40% motility; >30% morphology, with an abstinence interval of 2-7 days. After the inclusion criteria applied to the population, 367 normospermic patients were included in the study. Descriptive statistics and group-based analyses were performed to interpret the differences between the pre-Katrina (Group 1, 1999-2005) and the post-Katrina (Group 2, 2006-2013) populations. There were significant differences in motility, morphology, number of white blood cell, immature germ cell count, pH and presence of sperm agglutination, but surprisingly there were no significant differences in sperm count between the two populations. This long-term comparative analysis further documents that a major natural disaster with its accompanied environmental issues can influence certain semen parameters (e.g., motility and morphology) and, by extension, fertility potential of the population of such areas.

Published

2015

187. The paternal genome and the health of the assisted reproductive technology child

Author

Sheena EM Lewis and Kishlay Kumar

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, sperm DNA damage, paternal genome, offspring, Diseases of the genitourinary system. Urology, RC870-923

Abstract

As a number of children born by assisted reproductive technology (ART) are increasing each year across the developed world, the health of such offspring is a matter of public concern. Does the integrity of the paternal genome impact on offspring health? In societal terms, as birth rates fall, and the Western population become unsustainable, do the benefits outweigh the costs of creating and providing for this ART conceived subpopulation? There are little data to date to answer these questions. The long-term health of such children has largely been ignored, and success measured only by early (prebirth) outcomes such as embryo quality or pregnancy. However, there are powerful paradigms such as ageing and smoking that give vital clues as to the potential impact of unhealthy spermatozoa on disease risk, mental and physical health, fertility and mortality of these offspring.

Published

2015

188. Behavioral mechanisms of mammalian sperm guidance

Author

Serafín Pérez Cerezales, Sergii Boryshpolets, and Michael Eisenbach

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, sperm DNA damage, paternal genome, offspring, chemotaxis, rheotaxis, sperm behavior, sperm motility, thermotaxis, Diseases of the genitourinary system. Urology, RC870-923

Abstract

In mammals, sperm guidance in the oviduct appears essential for successful sperm arrival at the oocyte. Hitherto, three different potential sperm guidance mechanisms have been recognized: thermotaxis, rheotaxis, and chemotaxis, each of them using specific stimuli - a temperature gradient, fluid flow, and a chemoattractant gradient, respectively. Here, we review sperm behavioral in these mechanisms and indicate commonalities and differences between them.

Published

2015

189. Redox regulation of mammalian sperm capacitation

Author

Cristian O′Flaherty

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Capacitation is a series of morphological and metabolic changes necessary for the spermatozoon to achieve fertilizing ability. One of the earlier happenings during mammalian sperm capacitation is the production of reactive oxygen species (ROS) that will trigger and regulate a series of events including protein phosphorylation, in a time-dependent fashion. The identity of the sperm oxidase responsible for the production of ROS involved in capacitation is still elusive, and several candidates are discussed in this review. Interestingly, ROS-induced ROS formation has been described during human sperm capacitation. Redox signaling during capacitation is associated with changes in thiol groups of proteins located on the plasma membrane and subcellular compartments of the spermatozoon. Both, oxidation of thiols forming disulfide bridges and the increase on thiol content are necessary to regulate different sperm proteins associated with capacitation. Reducing equivalents such as NADH and NADPH are necessary to support capacitation in many species including humans. Lactate dehydrogenase, glucose-6-phospohate dehydrogenase, and isocitrate dehydrogenase are responsible in supplying NAD (P) H for sperm capacitation. Peroxiredoxins (PRDXs) are newly described enzymes with antioxidant properties that can protect mammalian spermatozoa; however, they are also candidates for assuring the regulation of redox signaling required for sperm capacitation. The dysregulation of PRDXs and of enzymes needed for their reactivation such as thioredoxin/thioredoxin reductase system and glutathione-S-transferases impairs sperm motility, capacitation, and promotes DNA damage in spermatozoa leading to male infertility.

Published

2015

190. Effect of transient scrotal hyperthermia on sperm parameters, seminal plasma biochemical markers, and oxidative stress in men

Author

Meng Rao, Xiao-Ling Zhao, Jing Yang, Shi-Fu Hu, Hui Lei, Wei Xia, and Chang-Hong Zhu

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, sperm DNA damage, paternal genome, offspring, chemotaxis, rheotaxis, sperm behavior, sperm motility, thermotaxis, apoptosis, sperm capacitation, conservation, cryobiology, endangered species, male fertility, blood-testis barrier, ectoplasmic specialization, ezrin, hypogonadism, Leydig cell, oxidative stress, Sertoli cell, ultramorphology, varicocele, hyperthermia, seminal plasma biochemical markers, sperm parameters, Diseases of the genitourinary system. Urology, RC870-923

Abstract

In this experimental prospective study, we aimed to analyze the effect of transient scrotal hyperthermia on the male reproductive organs, from the perspective of sperm parameters, semen plasma biochemical markers, and oxidative stress, to evaluate whether different frequencies of heat exposure cause different degrees of damage to spermatogenesis. Two groups of volunteers (10 per group) received testicular warming in a 43°C water bath 10 times, for 30 min each time: group 1: 10 consecutive days; group 2: once every 3 days. Sperm parameters, epididymis and accessory sex gland function, semen plasma oxidative stress and serum sex hormones were tested before treatment and in the 16-week recovery period after treatment. At last, we found an obvious reversible decrease in sperm concentration (P = 0.005 for Group 1 and P= 0.008 for Group 2 when the minimums were compared with baseline levels, the same below), motility (P = 0.009 and 0.021, respectively), the hypoosmotic swelling test score (P = 0.007 and 0.008, respectively), total acrosin activity (P = 0.018 and 0.009, respectively), and an increase in the seminal plasma malondialdehyde concentration (P = 0.005 and 0.017, respectively). The decrease of sperm concentration was greater for Group 2 than for Group 1 (P = 0.031). We concluded that transient scrotal hyperthermia seriously, but reversibly, negatively affected the spermatogenesis, oxidative stress may be involved in this process. In addition, intermittent heat exposure more seriously suppresses the spermatogenesis compared to consecutive heat exposure. This may be indicative for clinical infertility etiology analysis and the design of contraceptive methods based on heat stress.

Published

2015

191. Exploring the role of mononuclear phagocytes in the epididymis

Author

Nicolas Da Silva and Tegan B Smith

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, Diseases of the genitourinary system. Urology, RC870-923

Abstract

The onslaught of foreign antigens carried by spermatozoa into the epididymis, an organ that has not demonstrated immune privilege, a decade or more after the establishment of central immune tolerance presents a unique biological challenge. Historically, the physical confinement of spermatozoa to the epididymal tubule enforced by a tightly interwoven wall of epithelial cells was considered sufficient enough to prevent cross talk between gametes and the immune system and, ultimately, autoimmune destruction. The discovery of an intricate arrangement of mononuclear phagocytes (MPs) comprising dendritic cells and macrophages in the murine epididymis suggests that we may have underestimated the existence of a sophisticated mucosal immune system in the posttesticular environment. This review consolidates our current knowledge of the physiology of MPs in the steady state epididymis and speculates on possible interactions between auto-antigenic spermatozoa, pathogens and the immune system by drawing on what is known about the immune system in the intestinal mucosa. Ultimately, further investigation will provide valuable information regarding the origins of pathologies arising as a result of autoimmune or inflammatory responses in the epididymis, including epididymitis and infertility.

Published

2015

192. Human sperm chromatin epigenetic potential: genomics, proteomics, and male infertility

Author

Judit Castillo, Josep Maria Estanyol, Josep Lluis Ballescà, and Rafael Oliva

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, Diseases of the genitourinary system. Urology, RC870-923

Abstract

The classical idea about the function of the mammalian sperm chromatin is that it serves to transmit a highly protected and transcriptionally inactive paternal genome, largely condensed by protamines, to the next generation. In addition, recent sperm chromatin genome-wide dissection studies indicate the presence of a differential distribution of the genes and repetitive sequences in the protamine-condensed and histone-condensed sperm chromatin domains, which could be potentially involved in regulatory roles after fertilization. Interestingly, recent proteomic studies have shown that sperm chromatin contains many additional proteins, in addition to the abundant histones and protamines, with specific modifications and chromatin affinity features which are also delivered to the oocyte. Both gene and protein signatures seem to be altered in infertile patients and, as such, are consistent with the potential involvement of the sperm chromatin landscape in early embryo development. This present work reviews the available information on the composition of the human sperm chromatin and its epigenetic potential, with a particular focus on recent results derived from high-throughput genomic and proteomic studies. As a complement, we provide experimental evidence for the detection of phosphorylations and acetylations in human protamine 1 using a mass spectrometry approach. The available data indicate that the sperm chromatin is much more complex than what it was previously thought, raising the possibility that it could also serve to transmit crucial paternal epigenetic information to the embryo.

Published

2015

193. Are sperm capacitation and apoptosis the opposite ends of a continuum driven by oxidative stress?

Author

Robert J Aitken, Mark A Baker, and Brett Nixon

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, sperm DNA damage, paternal genome, offspring, chemotaxis, rheotaxis, sperm behavior, sperm motility, thermotaxis, apoptosis, sperm capacitation, Diseases of the genitourinary system. Urology, RC870-923

Abstract

This chapter explores the possibility that capacitation and apoptosis are linked processes joined by their common dependence on the continued generation of reactive oxygen species (ROS). According to this model capacitation is initiated in spematozoa following their release into the female reproductive tract as a consequence of intracellular ROS generation, which stimulates intracellular cAMP generation, inhibits tyrosine phosphatase activity and enhances the formation of oxysterols prior to their removal from the sperm surface by albumin. The continued generation of ROS by capacitating populations of spermatozoa eventually overwhelms the limited capacity of these cells to protect themselves from oxidative stress. As a result the over-capacitation of spermatozoa leads to a state of senescence and the activation of a truncated intrinsic apoptotic cascade characterized by enhanced mitochondrial ROS generation, lipid peroxidation, motility loss, caspase activation and phosphatidylserine externalization. The latter may be particularly important in instructing phagocytic leukocytes that the removal of senescent, moribund spermatozoa should be a silent process unaccompanied by the generation of proinflammatory cytokines. These observations reveal the central role played by redox chemistry in defining the life and death of spermatozoa. A knowledge of these mechanisms may help us to engineer novel solutions to both support and preserve the functionality of these highly specialized cells.

Published

2015

194. Ezrin: a regulator of actin microfilaments in cell junctions of the rat testis

Author

N Ece Gungor-Ordueri, Ciler Celik-Ozenci, and C Yan Cheng

Subjects

gene regulation, Musashi, Musashi-1, Musashi-2, posttranscriptional control, RNA binding proteins, spermatogenesis, splicing, testis, translation, cell fate, cell stress, importin, karyopherin, nucleocytoplasmic transport, spermatid, spermatocyte, artificial insemination, biomarker, fertility, fertilization, flow cytometry, infertility, nanotechnology, oocyte activation, Postacrosomal Sheath WWI Domain Binding Protein, sperm, SPTRX3, thioredoxin, ubiquitin, ATP binding cassette transporters, albumin, high-density lipoprotein, lipid rafts, membrane fluidity, membrane microdomains, membrane packing, oxysterols, reverse cholesterol transport, sterol transporters, egg, heat shock protein A2, molecular chaperone, sperm-egg interactions, dehydrogenases, oxidases, peroxiredoxins, reactive oxygen species, spermatozoa, thiols, thioredoxins, antigen-presenting cells, autoimmunity, dendritic cells, epididymis, macrophages, peripheral tolerance, sperm maturation, genomics, male infertility, proteomics, sperm chromatin, sperm epigenetics, sperm DNA damage, paternal genome, offspring, chemotaxis, rheotaxis, sperm behavior, sperm motility, thermotaxis, apoptosis, sperm capacitation, conservation, cryobiology, endangered species, male fertility, blood-testis barrier, ectoplasmic specialization, ezrin, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Ezrin, radixin, moesin and merlin (ERM) proteins are highly homologous actin-binding proteins that share extensive sequence similarity with each other. These proteins tether integral membrane proteins and their cytoplasmic peripheral proteins (e.g., adaptors, nonreceptor protein kinases and phosphatases) to the microfilaments of actin-based cytoskeleton. Thus, these proteins are crucial to confer integrity of the apical membrane domain and its associated junctional complex, namely the tight junction and the adherens junction. Since ectoplasmic specialization (ES) is an F-actin-rich testis-specific anchoring junction-a highly dynamic ultrastructure in the seminiferous epithelium due to continuous transport of germ cells, in particular spermatids, across the epithelium during the epithelial cycle-it is conceivable that ERM proteins are playing an active role in these events. Although these proteins were first reported almost 25 years and have since been extensively studied in multiple epithelia/endothelia, few reports are found in the literature to examine their role in the actin filament bundles at the ES. Studies have shown that ezrin is also a constituent protein of the actin-based tunneling nanotubes (TNT) also known as intercellular bridges, which are transient cytoplasmic tubular ultrastructures that transport signals, molecules and even organelles between adjacent and distant cells in an epithelium to coordinate cell events that occur across an epithelium. Herein, we critically evaluate recent data on ERM in light of recent findings in the field in particular ezrin regarding its role in actin dynamics at the ES in the testis, illustrating additional studies are warranted to examine its physiological significance in spermatogenesis.

Published

2015

195. Effects of electroacupuncture on the intestinal thioredoxin interaction protein/Nod-like receptor 3 signaling pathway in mice with Parkinson's disease.

Author

Wang Y, Wang YC, Ma J, Li YN, Zhang XL, Hu MN, Qi L, Guo L, Rong Z, and Guan QY

Subjects

Animals, Mice, Rats, Cell Cycle Proteins metabolism, Claudin-1, Mice, Inbred C57BL, NLR Family, Pyrin Domain-Containing 3 Protein, Occludin, Rats, Sprague-Dawley, RNA, Messenger, Signal Transduction, Thioredoxins, Electroacupuncture, Parkinson Disease genetics, Parkinson Disease therapy

Abstract

Objectives: To observe the effects of electroacupuncture (EA) at "Fengfu" (GV16), "Taichong" (LR3) and "Zusanli" (ST36) on α-synuclein (α-syn), Occludin, Claudin-1, thioredoxin interaction protein (TXNIP) and Nod-like receptor 3 (NLRP3) in Parkinson's disease (PD) mice, so as to investigate the mechanisms of EA on intestinal barrier function and inflammation in PD mice., Methods: Thirty six C57BL/6 mice were randomly divided into control, model and EA groups, with 12 mice in each group. PD mice model was induced by rotenone intragastric administration for 28 days. Mice in the EA group were treated with EA (2 Hz, 1 mA) at GV16, LR3 and ST36 for 30 min, once a day for 14 days. The behavioral scores were observed. The total distance of autonomic movement was measured by open field test. The expression level of α-syn in substantia nigra and colon tissue was determined by immunohistochemistry. The colonic morphology and goblet cell distribution were observed by Alcian blue staining. The expression levels of Occludin, Claudin-1, TXNIP and NLRP3 mRNA in colon tissue were detected by real-time fluorescence quantitative PCR., Results: Compared with the control group, the behavioral scores of rats were increased ( P <0.01)；the total distance of autonomous movement was decreased ( P <0.01)；the positive expression level of α-syn in the substantia nigra and colon was increased ( P <0.01)；the goblet cells and crypts in colon tissue were reduced, and the muscular layer was thinner；the expression levels of Occludin and Claudin-1 mRNAs in colon tissue were decreased ( P <0.01) while TXNIP and NLRP3 mRNAs were increased ( P <0.01) in the model group. Compared with the model group, the surface villi of colon tissue was more complete, the goblet cells and crypts were increased, and the muscular layer was thickened；the other indexes were reversed ( P <0.01, P <0.05) in the EA group., Conclusions: EA at GV16, LR3 and ST36 can reduce the abnormal accumulation of α-syn in the substania nigra and colon tissue of PD mice, alleviate the damage of intestinal barrier, regulate TXNIP/NLRP3 signaling pathway, so as to delay the occurrence and development of PD.

Published

2023

196. The chloroplast protein HCF164 is predicted to be associated with Coffea S H 9 resistance factor against Hemileia vastatrix.

Author

Guerra-Guimarães L, Pinheiro C, Oliveira ASF, Mira-Jover A, Valverde J, Guedes FAF, Azevedo H, Várzea V, and Muñoz Pajares AJ

Subjects

Humans, Coffee, Phylogeny, R Factors, Plant Breeding, Thioredoxins, Nuclear Proteins, Membrane Proteins, Chloroplast Proteins, Chloroplasts genetics, Complement Factor H, Coffea genetics

Abstract

To explore the connection between chloroplast and coffee resistance factors, designated as S H 1 to S H 9, whole genomic DNA of 42 coffee genotypes was sequenced, and entire chloroplast genomes were de novo assembled. The chloroplast phylogenetic haplotype network clustered individuals per species instead of S H factors. However, for the first time, it allowed the molecular validation of Coffea arabica as the maternal parent of the spontaneous hybrid "Híbrido de Timor". Individual reads were also aligned on the C. arabica reference genome to relate S H factors with chloroplast metabolism, and an in-silico analysis of selected nuclear-encoded chloroplast proteins (132 proteins) was performed. The nuclear-encoded thioredoxin-like membrane protein HCF164 enabled the discrimination of individuals with and without the S H 9 factor, due to specific DNA variants linked to chromosome 7c (from C. canephora-derived sub-genome). The absence of both the thioredoxin domain and redox-active disulphide center in the HCF164 protein, observed in S H 9 individuals, raises the possibility of potential implications on redox regulation. For the first time, the identification of specific DNA variants of chloroplast proteins allows discriminating individuals according to the S H profile. This study introduces an unexplored strategy for identifying protein/genes associated with S H factors and candidate targets of H. vastatrix effectors, thereby creating new perspectives for coffee breeding programs., (© 2023. Springer Nature Limited.)

Published

2023

197. Breakdown of Arabidopsis thaliana thioredoxins and glutaredoxins based on electrostatic similarity-Leads to common and unique interaction partners and functions.

Author

Bodnar Y, Gellert M, Hossain FM, and Lillig CH

Subjects

Glutaredoxins, Static Electricity, Thioredoxins, Sulfhydryl Compounds, Thioredoxin-Disulfide Reductase, Arabidopsis

Abstract

The reversible reduction and oxidation of protein thiols was first described as mechanism to control light/dark-dependent metabolic regulation in photosynthetic organisms. Today, it is recognized as an essential mechanism of regulation and signal transduction in all kingdoms of life. Proteins of the thioredoxin (Trx) family, Trxs and glutaredoxins (Grxs) in particular, catalyze thiol-disulfide exchange reactions and are vital players in the operation of thiol switches. Various Trx and Grx isoforms are present in all compartments of the cell. These proteins have a rather broad but at the same time distinct substrate specificity. Understanding the molecular basis of their target specificity is central to the understanding of physiological and pathological redox signaling. Electrostatic complementarity of the redoxins with their target proteins has been proposed as a major reason. Here, we analyzed the electrostatic similarity of all Arabidopsis thaliana Trxs, Grxs, and proteins containing such domains. Clustering of the redoxins based on this comparison suggests overlapping and also distant target specificities and thus functions of the different sub-classes including all Trx isoforms as well as the three classes of Grxs, i.e. CxxC-, CGFS-, and CC-type Grxs. Our analysis also provides a rationale for the tuned substrate specificities of both the ferredoxin- and NADPH-dependent Trx reductases., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Bodnar et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

198. SBP1 promotes tumorigenesis of thyroid cancer through TXN/NIS pathway.

Author

Ma J, Huang X, Xu J, Li Z, Lai J, Shen Y, Zhao J, Sun X, and Ma L

Subjects

Animals, Humans, Mice, Carcinogenesis genetics, Cell Transformation, Neoplastic, Endothelial Cells, Receptors, Thyrotropin, Thioredoxins, Thyroglobulin, Selenium-Binding Proteins metabolism, Selenium, Thyroid Carcinoma, Anaplastic genetics, Thyroid Neoplasms genetics

Abstract

Background: As the tissue with the highest selenium content in the body, the occurrence and development of thyroid cancer are closely related to selenium and selenoproteins. Selenium-binding protein 1 (SBP1) has been repeatedly implicated in several cancers, but its role and molecular mechanisms in thyroid cancer remains largely undefined., Methods: The expression of SBP1, sodium/iodide symporter (NIS) and thioredoxin (TXN) were analyzed in clinical samples and cell lines. Cell counting kit-8 (CCK-8) and tube formation assays were used to analyze the cell viability and tube formation of cells. Immunofluorescence was used to determine the expression of the NIS. Co-immunoprecipitation (Co-IP) assay was carried out to verify the interaction of SBP1 with TXN. The mouse xenograft experiment was performed to investigate the growth of thyroid cancer cells with SBP1 knockdown in vivo., Results: SBP1 was significantly increased in human thyroid cancer tissues and cells, especially in anaplastic thyroid cancer. Overexpression of SBP1 promoted FTC-133 cell proliferation, and the culture supernatant of SBP1-overexpression FTC-133 cells promoted tube formation of human retinal microvascular endothelial cells. Knockdown of SBP1, however, inhibited cell proliferation and tube formation. Furthermore, overexpression of SBP1 inhibited cellular differentiation of differentiated thyroid cancer cell line FTC-133, as indicated by decreased expression of thyroid stimulating hormone receptors, thyroglobulin and NIS. Knockdown of SBP1, however, promoted differentiation of BHT101 cells, an anaplastic thyroid cancer cell line. Notably, TXN, a negative regulator of NIS, was found to be significantly upregulated in human thyroid cancer tissues, and it was positively regulated by SBP1. Co-IP assay implied a direct interaction of SBP1 with TXN. Additionally, TXN overexpression reversed the effect of SBP1 knockdown on BHT101 cell viability, tube formation and cell differentiation. An in vivo study found that knockdown of SBP1 promoted the expression of thyroid stimulating hormone receptors, thyroglobulin and NIS, as well as inhibited the growth and progression of thyroid cancer tumors., Conclusion: SBP1 promoted tumorigenesis and dedifferentiation of thyroid cancer through positively regulating TXN., (© 2023. The Feinstein Institute for Medical Research.)

Published

2023

199. Thioredoxin-1 inhibits the activation of IRE1 by targeting Hsp90/p-Cdc37 chaperone complex in Parkinson disease.

Author

Zeng X, Geng W, Zhang Y, Yin J, Xu G, Yu M, Li L, and Jia J

Subjects

Mice, Animals, Humans, Thioredoxins, HSP90 Heat-Shock Proteins metabolism, Protein Serine-Threonine Kinases metabolism, Cell Cycle Proteins metabolism, Parkinson Disease

Abstract

Endoplasmic reticulum stress is implicated in the etiopathogenesis of Parkinson disease (PD). Our previous study has revealed that thioredoxin-1 (Trx-1) attenuated IRE1 activation in 1-methyl-4-phenylpyridinium ion (MPP + )/1-methy-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced PD models. However, its exact mechanism has been largely unclear. In this research, it was reported for the first time that the protein levels of heat shock protein 90 (Hsp90) and phosphorylated cell division cycle 37 (p-Cdc37) were significantly decreased and the interaction of Hsp90/p-Cdc37 complex with IRE1 was disturbed in MPP + /MPTP-induced PD models. Trx-1 overexpression reversed the expression of Hsp90 and p-Cdc37 in cultured cells and the substantia nigra pars compacta of mice. More importantly, Trx-1 overexpression enhanced the interaction of Hsp90/p-Cdc37 complex with IRE1. In conclusion, our data demonstrated that Trx-1 inhibited IRE1 activation in PD by elevating the expression of Hsp90 and p-Cdc37 and strengthening the interaction of Hsp90/p-Cdc37 complex and IRE1., Competing Interests: Declaration of Competing Interest The authors have no conflict of interest to report., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

200. Remodelling the surface of thioredoxin from

Author

Diego S, Vazquez, William A, Agudelo, Gerardo, Ferrer-Sueta, Laura, Giraudo, Mariano C, González Lebrero, Martín, Aran, and Javier, Santos

Subjects

Binding Sites, Thioredoxins, Iron, Escherichia coli Proteins, Escherichia coli, Sulfhydryl Compounds, Oxidoreductases

Abstract

In this work, we have designed and generated a Fe(III)-binding protein with thiol oxidoreductase activity. The consensus iron-binding motif EExxED from the frataxin protein family was grafted on a model peptide and on the surface of thioredoxin (TRX) from

Published

2022