Your search keyword '"DNA adducts"' showing total 2,496 results

1. Progressive expansion of albumin adducts for organophosphorus nerve agent traceability based on single and group adduct collection.

Author

Wang, Jin, Lu, Xiaogang, Gao, Runli, Pei, Chengxin, and Wang, Hongmei

Subjects

*DNA adducts, *NERVE gases, *ALBUMINS, *ACETYLCHOLINESTERASE, *SERUM albumin, *ERYTHROCYTES, *DRUG target

Abstract

Protein adducts are important biological targets for traceability of organophosphorus nerve agents (OPNAs). Currently, the recognized biomarkers that can be used in actual samples in the field of chemical forensics only include Y411 in albumin and the active nonapeptide in butyrylcholinesterase (BChE). To explore stable and reliable protein adducts and increase the accuracy of OPNAs traceability further, we gradually expanded OPNAs–albumin adducts based on single and group adduct collection. Several stable peptides were found via LC–MS/MS analysis in human serum albumin (HSA) exposed to OPNAs in a large exposure range. These adducts were present in HSA samples exposed to OPNAs of each concentration, which provided data support for the reliability and stability of using adducts to trace OPNAs. Meanwhile, the formation mechanism of OPNAs–cysteine adduct was clarified via computer simulations. Then, these active sites found and modified peptides were used as raw materials for progressive expansion of albumin adducts. We constructed an OPNAs–HSA adducts group, in which a specific agent is the exposure source, and three or more active peptides constitute data sets for OPNAs traceability. Compared with single or scattered protein adducts, the OPNAs–HSA adduct group improves OPNAs identification by mutual verification using active peptides or by narrowing the identity range of the exposure source. We also determined the minimum detectable concentration of OPNAs for the adduct group. Two or more peptides can be detected when there is an exposure of 50 times the molar excess of OPNAs in relation to HSA. This improved the accuracy of OPNAs exposure and identity confirmation. A collection of OPNAs–albumin adducts was also examined. The collection was established by collecting, classifying, and integrating the existing albumin adducts according to the species to which each albumin belongs, the types of agents, and protease. This method can serve as a reference for discovering new albumin adducts, characteristic phosphonylated peptides, and potential biomarkers. In addition, to avoid a false negative for OPNAs traceability using albumin adducts, we explored OPNAs–cholinesterase adducts because cholinesterase is more reactive with OPNAs than albumin. Seven active peptides in red blood cell acetylcholinesterase (RBC AChE) and serum BChE can assist in OPNAs exposure and identity confirmation. [ABSTRACT FROM AUTHOR]

Published

2024

2. Regioselective Synthesis of Hamilton‐Receptor‐Fullerene Oligo‐Adducts for the Supramolecular Binding of Cyanuric Derivatives.

Author

Wachter, Michael, Scholz, Barbara, Schulze, Erik J., Hampel, Frank, Pérez‐Ojeda, M. Eugenia, and Hirsch, Andreas

Subjects

*ISOTHERMAL titration calorimetry, *CYCLOPROPANATION, *FULLERENE derivatives, *HYDROGEN bonding, *FULLERENES, *DNA adducts

Abstract

A new concept for the regioselective synthesis of Hamilton‐receptor and cyanurate‐functionalized oligo adducts of the fullerene C60 was developed. Based on an in‐situ deprotection and click‐post‐functionalization approach with novel azido precursors, the corresponding fullerene hexakis‐adducts with octahedral addition patterns and up to twelve Hamilton‐receptor/cyanurate moieties surrounding the fullerene sphere were synthesized. The versatility of this approach was further demonstrated by the synthesis of Hamilton‐receptor/cyanurate functionalized fullerene mono‐adducts, which are not accessible by direct cyclopropanation. Several fullerene target compounds were purified by simple washing procedures of the solid crude reaction mixture without the need for chromatography. The resulting fullerene mono‐ and hexakis‐adducts were fully characterized and their supramolecular properties were investigated by NMR‐spectroscopy and isothermal titration calorimetry (ITC). [ABSTRACT FROM AUTHOR]

Published

2024

3. DNA adduct formation in Saccharomyces cerevisiae following exposure to environmental pollutants, as in vivo model for molecular toxicity studies.

Author

Jawich, Dalal, Pfohl-Leszkowicz, Annie, Lteif, Roger, and Strehaiano, Pierre

Subjects

*DNA adducts, *BENZOPYRENE, *POLLUTANTS, *SACCHAROMYCES cerevisiae, *ENVIRONMENTAL exposure, *POLLUTION, *DNA

Abstract

DNA adduction in the model yeast Saccharomyces cerevisiae was investigated after exposure to the fungicide penconazole and the reference genotoxic compound benzo(a)pyrene, for validating yeasts as a tool for molecular toxicity studies, particularly of environmental pollution. The effect of the toxicants on the yeast's growth kinetics was determined as an indicator of cytotoxicity. Fermentative cultures of S. cerevisiae were exposed to 2 ppm of Penconazole during different phases of growth; while 0.2 and 2 ppm of benzo(a)pyrene were applied to the culture medium before inoculation and on exponential cultures. Exponential respiratory cultures were also exposed to 0.2 ppm of B(a)P for comparison of both metabolisms. Penconazole induced DNA adducts formation in the exponential phase test; DNA adducts showed a peak of 54.93 adducts/109 nucleotides. Benzo(a)pyrene induced the formation of DNA adducts in all the tests carried out; the highest amount of 46.7 adducts/109 nucleotides was obtained in the fermentative cultures after the exponential phase exposure to 0.2 ppm; whereas in the respiratory cultures, 14.6 adducts/109 nucleotides were detected. No cytotoxicity was obtained in any experiment. Our study showed that yeast could be used to analyse DNA adducts as biomarkers of exposure to environmental toxicants. [ABSTRACT FROM AUTHOR]

Published

2024

4. Amino acid‐decorated mesoporous silica nanoparticles loaded with titanocene derivatives for targeted anticancer studies.

Author

Iorhemba, Michael Aondona, Ovejero‐Paredes, Karina, Díaz‐García, Diana, García‐Almodóvar, Victoria, Idris, Sulaiman Ola, Shallangwa, Gideon Adamu, Abdulkadir, Ibrahim, Méndez‐Arriaga, José M., Prashar, Sanjiv, Filice, Marco, and Gómez‐Ruiz, Santiago

Subjects

*SILICA nanoparticles, *MESOPOROUS silica, *DNA adducts, *NANOSTRUCTURED materials, *NUCLEAR magnetic resonance

Abstract

Nanostructured materials possess promising potential for cancer therapy through precise adjustment of their functionalization and physicochemical attributes. This study primarily focuses on the synthesis and characterization of mesoporous silica nanoparticles (MSN) that are functionalized with titanocene dichloride (a therapeutic agent) and one of several amino acids—cysteine, captopril, penicillamine, or methionine—utilizing 3‐aminopropyltriethoxysilane (AP) as a linker. This synthesis yielded four innovative metallodrug‐functionalized nanostructured materials (MSN‐AP‐Cys‐Ti, MSN‐AP‐Cap‐Ti, MSN‐AP‐Pen‐Ti, and MSN‐AP‐Met‐Ti), meticulously characterized using diverse analytical techniques such as X‐ray diffraction (XRD), X‐ray fluorescence (XRF), diffuse reflectance ultraviolet–visible (DR UV–Vis), Fourier transform infrared (FTIR), solid‐state nuclear magnetic resonance (NMR) spectroscopy, and transmission electron microscopy (TEM). The textural properties of the nanomaterials post‐functionalization displayed slight modifications, confirming the successful integration of the therapeutic agents. Evaluation of cytotoxicity in the breast cancer cell line MDA‐MB‐231, with the healthy cell line Hek‐293T as control via MTT assays, revealed the active nature of the functionalized silica‐based materials. The viability of both cell lines indicated a concentration‐dependent response to the materials. Among the tested systems, cysteine and captopril exhibited the highest activity concerning IC50 relative to material concentration. The enhanced biological activity of higher functionalized nanosystems suggests a favorable cell internalization facilitated by the amino acid fragment. Additionally, qualitative DNA binding studies hinted at potential DNA adsorption on the surface of the metallodrug‐functionalized nanomaterials, forming DNA adducts where a strand of DNA covalently bonds to the metallodrug moiety. This was deduced from the hypsochromic shift in absorbance of the characteristic π–π* and n–π* transitions in DNA, which occurred from 1.01 to 0.76 and 1.26–0.19 following drug (MSN‐AP‐Cap‐Ti) interaction. [ABSTRACT FROM AUTHOR]

Published

2024

5. Cyclopropenes as Chemical Reporters for Dual Bioorthogonal and Orthogonal Metabolic Labeling of DNA.

Author

Seul, Nicola, Lamade, Dennis, Stoychev, Petko, Mijic, Michaela, Michenfelder, Rita T., Rieger, Lisa, Geng, Philipp, and Wagenknecht, Hans‐Achim

Subjects

*DNA, *HELA cells, *DIELS-Alder reaction, *DNA adducts, *THYMIDINE, *DNA polymerases

Abstract

Dual bioorthogonal labeling enables the investigation and understanding of interactions in the biological environment that are not accessible by a single label. However, applying two bioorthogonal reactions in the same environment remains challenging due to cross‐reactivity. We developed a pair of differently modified 2′‐deoxynucleosides that solved this issue for dual and orthogonal labeling of DNA. Inverse‐electron demand Diels–Alder and photoclick reactions were combined to attach two different fluorogenic labels to genomic DNA in cells. Using a small synthetic library of 1‐ and 3‐methylcyclopropenyl‐modified 2′‐deoxynucleosides, two 2′‐deoxyuridines were identified to be the fastest‐reacting ones for each of the two bioorthogonal reactions. Their orthogonal reactivity could be evidenced in vitro. Primer extension experiments were performed with both 2′‐deoxyuridines investigating their replication properties as substitutes for thymidine and evaluating subsequent labeling reactions on the DNA level. Finally, dual, orthogonal and metabolic fluorescent labeling of genomic DNA was demonstrated in HeLa cells. An experimental procedure was developed combining intracellular transport and metabolic DNA incorporation of the two 2′‐deoxyuridines with the subsequent dual bioorthogonal labeling using a fluorogenic cyanine‐styryl tetrazine and a fluorogenic pyrene‐tetrazole. These results are fundamental for advanced metabolic labeling strategies for nucleic acids in the future, especially for live cell experiments. [ABSTRACT FROM AUTHOR]

Published

2024

6. Preparation and Preliminary Analysis of Several Nanoformulations Based on Plant Extracts and Biodegradable Polymers as a Possible Application for Chronic Venous Disease Therapy.

Author

Ungureanu, Andreea Roxana, Ozon, Emma Adriana, Musuc, Adina Magdalena, Anastasescu, Mihai, Atkinson, Irina, Mitran, Raul-Augustin, Rusu, Adriana, Popescu, Liliana, and Gîrd, Cerasela Elena

Subjects

*PLANT extracts, *DNA adducts, *CHRONIC diseases, *POLY-beta-hydroxybutyrate, *COMPRESSION stockings, *POLYHYDROXYBUTYRATE, *POLYMERS

Abstract

Nanotechnology is one of the newest directions for plant-based therapies. Chronic venous disease often predisposes to long-term and invasive treatment. This research focused on the inclusion of vegetal extracts from Sophorae flos (SE), Calendulae flos (CE), and Ginkgo bilobae folium (GE) in formulations with PHB and PLGA polymers and their physicochemical characterization as a preliminary stage for possible use in the development of a complex therapeutic product. The samples were prepared by an oil–water emulsification and solvent evaporation technique, resulting in suspensions with high spreadability and a pH of 5.5. ATR-FTIR analysis revealed bands for stretching vibrations (O-H, C=O, and C-H in symmetric and asymmetric methyl and methylene) in the same regions as the base components, but switched to high or low wavenumbers and absorbance, highlighting the formation of adducts/complexes between the extracts and polymers. The obtained formulations were in the amorphous phase, as confirmed by XRD analysis. AFM analysis emphasized the morphological peculiarities of the extract–polymer nanoformulations. It could be noticed that, in the case of SE-based formulations, the dominant characteristics for SE-PHB and SE-PLGA composition were the formation of random large (SE-PHB) and smaller uniform (SE-PLGA) particles; further on, these particles tended to aggregate in the case of SE-PHB-PLGA. For the CE- and GE-based formulations, the dominant surface morphology was their porosity, generally with small pores, but larger cavities were observed in some cases (CE- and GE-PHB). The highest roughness values at the (8 µm × 8 μm) scale were found for the following samples and succession: CE-PHB < SE-PLGA < SE-PHB-PLGA. In addition, by thermogravimetric analysis, impregnation in the matrix of compression stockings was evaluated, which varied in the following order: CE-polymer > SE-polymer > GE-polymer. In conclusion, nine vegetal extract–polymer nanoformulations were prepared and preliminarily characterized (by advanced physicochemical methods) as a starting point for further optimization, stability studies, and possible use in complex pharmaceutical products. [ABSTRACT FROM AUTHOR]

Published

2024

7. Selectivity in Adduct Formation of a Bidentate Boron Lewis Acid.

Author

Beckmann, J. Louis, Neumann, Beate, Stammler, Hans‐Georg, and Mitzel, Norbert W.

Subjects

*LEWIS acids, *LEWIS bases, *X-ray diffraction, *DNA adducts, *MOLECULAR recognition, *DIAMINES, *BORON

Abstract

A bidentate boron Lewis acid based on 1,8‐diethynylanthracene has been studied in detail with respect to its adduct formation with diamines and diphosphanes of different linker lengths between the donor functions. A clear correlation between the linker length of the bifunctional base and the formation of 1 : 1 adducts, 1 : 2 adducts or oligomers was found. The adducts were characterized in solution by NMR titration experiments and structurally by X‐ray diffraction. In addition, adduct formation and competition experiments of the host system with ZR3 (Z=N, P; R=H, Me) demonstrated the generally higher stability of alkylphosphane adducts compared to alkylamine adducts with boron functions. The results provide a general insight into the adduct formation of bidentate Lewis acids with guests of different sizes as well as the differences in stability between borane‐amine and borane‐phosphane adducts. [ABSTRACT FROM AUTHOR]

Published

2024

8. Clinical implications of DNA methylation-based integrated classification of histologically defined grade 2 meningiomas.

Author

Ehret, Felix, Perez, Eilís, Teichmann, Daniel, Meier, Sandra, Geiler, Carola, Cosmas, Zeus, Franke, Helene, Roohani, Siyer, Wasilewksi, David, Onken, Julia, Vajkoczy, Peter, Schweizer, Leonille, Kaul, David, and Capper, David

Subjects

*DNA methylation, *DNA analysis, *DNA, *MENINGIOMA, *CANCER invasiveness, *METHYLGUANINE, *DNA adducts

Abstract

The combination of DNA methylation analysis with histopathological and genetic features allows for a more accurate risk stratification and classification of meningiomas. Nevertheless, the implications of this classification for patients with grade 2 meningiomas, a particularly heterogeneous tumor entity, are only partially understood. We correlate the outcomes of histopathologically confirmed grade 2 meningioma with an integrated molecular-morphologic risk stratification and determine its clinical implications. Grade 2 meningioma patients treated at our institution were re-classified using an integrated risk stratification involving DNA methylation array-based data, copy number assessment and TERT promoter mutation analyses. Grade 2 meningioma cases according to the WHO 2021 criteria treated between 2007 and 2021 (n = 100) were retrospectively analyzed. The median clinical and radiographic follow-up periods were 59.8 and 54.4 months. A total of 38 recurrences and 17 deaths were observed. The local control rates of the entire cohort after 2-, 4-, and 6-years were 84.3%, 68.5%, and 50.8%, with a median local control time of 77.2 months. The distribution of the integrated risk groups were as follows: 31 low, 54 intermediate, and 15 high risk cases. In the multivariable Cox regression analysis, integrated risk groups were significantly associated with the risk of local recurrence (hazard ratio (HR) intermediate: 9.91, HR high-risk: 7.29, p < 0.01). Gross total resections decreased the risk of local tumor progression (HR gross total resection: 0.19, p < 0.01). The comparison of 1p status and integrated risk groups (low vs. intermediate/high) revealed nearly identical local control rates within their respective subgroups. In summary, only around 50% of WHO 2021 grade 2 meningiomas have an intermediate risk profile. Integrated molecular risk stratification is crucial to guide the management of patients with grade 2 tumors and should be routinely applied to avoid over- and undertreatment, especially concerning the use of adjuvant radiotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

9. Exocyclic DNA adducts and oxidative stress parameters: useful tools for biomonitoring exposure to aldehydes in smokers.

Author

Alamil, Héléna, Colsoul, Marie-Lise, Heutte, Natacha, Van Der Schueren, Marie, Galanti, Laurence, and Lechevrel, Mathilde

Subjects

*DNA adducts, *OXIDATIVE stress, *SMOKING cessation, *ALDEHYDES, *BIOLOGICAL monitoring, *UBIQUINONES

Abstract

Exocyclic DNA adducts have been shown to be potential biomarkers of cancer risk related to oxidative stress and exposure to aldehydes in smokers. In fact, aldehydes potentially arise from tobacco combustion directly and endogenously through lipid peroxidation. This study aims to investigate the relationship between a profile of nine aldehydes-induced DNA adducts and antioxidant activities, in order to evaluate new biomarkers of systemic exposure to aldehydes. Using our previously published UPLC-MS/MS method, adducts levels were quantified in the blood DNA of 34 active smokers. The levels of antioxidant vitamins (A, C and E), coenzyme Q10, β-carotene, superoxide dismutase (SOD) and autoantibodies against oxidized low-density lipoprotein were measured. Adducts induced by tobacco smoking-related aldehydes were quantified at levels reflecting an oxidative production from lipid peroxidation. A significant correlation between SOD and crotonaldehyde-induced adducts (p = 0.0251) was also observed. β-Carotene was negatively correlated with the adducts of formaldehyde (p = 0.0351) and acetaldehyde (p = 0.0413). Vitamin C tended to inversely correlate with acetaldehyde-induced adducts (p = 0.0584). These results are promising, and the study is now being conducted on a larger cohort with the aim of evaluating the impact of smoking cessation programs on the evolution of adducts profile and antioxidants activities. [ABSTRACT FROM AUTHOR]

Published

2024

10. Cellular senescence gene TACC3 associated with colorectal cancer risk via genetic and DNA methylated alteration.

Author

Shen, Hengyang, Chen, Yang, Xu, Menghuan, Zhou, Jieyu, Huang, Changzhi, Wang, Zhenling, Shao, Yu, Zhang, Hongqiang, Lu, Yunfei, Li, Shuwei, and Fu, Zan

Subjects

*CELLULAR aging, *COLORECTAL cancer, *DISEASE risk factors, *DNA mismatch repair, *GENE expression, *GENETIC variation, *IRINOTECAN, *DNA adducts

Abstract

Cell senescence genes play a vital role in the pathogenesis of colorectal cancer, a process that may involve the triggering of genetic variations and reversible phenotypes caused by epigenetic modifications. However, the specific regulatory mechanisms remain unclear. Using CellAge and The Cancer Genome Atlas databases and in-house RNA-seq data, DNA methylation-modified cellular senescence genes (DMCSGs) were validated by Support Vector Machine and correlation analyses. In 1150 cases and 1342 controls, we identified colorectal cancer risk variants in DMCSGs. The regulatory effects of gene, variant, and DNA methylation were explored through dual-luciferase and 5-azacytidine treatment experiments, complemented by multiple database analyses. Biological functions of key gene were evaluated via cell proliferation assays, SA-β-gal staining, senescence marker detection, and immune infiltration analyses. The genetic variant rs4558926 in the downstream of TACC3 was significantly associated with colorectal cancer risk (OR = 1.35, P = 3.22 × 10–4). TACC3 mRNA expression increased due to rs4558926 C > G and decreased DNA methylation levels. The CpG sites in the TACC3 promoter region were regulated by rs4558926. TACC3 knockdown decreased proliferation and senescence in colorectal cancer cells. In addition, subjects with high-TACC3 expression presented an immunosuppressive microenvironment. These findings provide insights into the involvement of genetic variants of cellular senescence genes in the development and progression of colorectal cancer. [ABSTRACT FROM AUTHOR]

Published

2024

11. Reactions of deoxyribonucleotide bases with sulfooxymethyl or halomethyl polycyclic aromatic hydrocarbons induce unwinding of DNA supercoils.

Author

Lehner, Andreas F.

Subjects

*DNA denaturation, *POLYCYCLIC aromatic hydrocarbons, *DNA adducts, *DNA topoisomerase I, *DEOXYRIBONUCLEOTIDES, *HISTONE methyltransferases, *VITAMIN C

Abstract

Torsional stress in double-stranded DNA enables and regulates facets of chromosomal metabolism, replication, and transcription and requires regulatory enzymatic systems including topoisomerases and histone methyltransferases. As such, this machinery may be subject to deleterious effects from reactive mutagens, including ones from carcinogenic polycyclic aromatic hydrocarbon (PAH) adduct formation with DNA. Supercoiled plasmid DNA was investigated for its torsional responses to adducts formed in vitro from PAH benzylic carbocation reactive intermediates created spontaneously by release of leaving groups. PAH sulfate esters were found to (1) unwind DNA in a concentration dependent manner, and (2) provide maximum unwinding in a pattern consistent with known carcinogenicities of the parent PAHs, that is, 6-methylbenzo[a]pyrene > 7,12-methylbenz[a]anthracene > 3-methylcholanthrene > 9-methylanthracene > 7-methylbenz[a]anthracene > 1-methylpyrene. Supercoil unwinding was demonstrated to be dependent on the presence of sulfate or chloride leaving groups such that reactive carbocations were generated in situ by hydrolysis. In silico modeling of intercalative complex topology showed PAH benzylic carbocation reactive functional groups in alignment with target nucleophiles on guanine bases in a 5'-dCdG-3' pocket in agreement with known formation of nucleotide adducts. Inhibitory or modulatory effects on PAH-induced supercoil unwinding were seen with ascorbic acid and an experimental antineoplastic agent Antineoplaston A10 in agreement with their known anticarcinogenic properties. In summary, the reactive PAH intermediates studied here undoubtedly participate in well-known mutational mechanisms such as frameshifts and apurinic site generation. However, they are also capable of random disruption of chromosomal supercoiling in a manner consistent with the known carcinogenicities of the parent compounds, and this mechanism may represent an additional detrimental motif worthy of further study for a more complete understanding of chemical carcinogenicity. [ABSTRACT FROM AUTHOR]

Published

2024

12. Exploring the electronic and steric effects on the dimerization of intramolecular frustrated Lewis pairs: a comparison between aminoboranes and aminoalanes.

Author

Barrales-Martínez, César, Illanes-Solis, Claudio, Durán, Rocío, and Caballero, Julio

Subjects

*LEWIS pairs (Chemistry), *POLAR effects (Chemistry), *DIMERIZATION, *GIBBS' free energy, *LEWIS acids, *DNA adducts, *DIMERS

Abstract

The dimerization of intramolecular aminoborane and aminoalane frustrated Lewis pairs was investigated using density functional theory. We systematically varied the substituents to gradually increase their bulkiness, including H, CH3, t-Bu, Ph, and Mes groups. Starting from the most stable conformer of the monomers, a frustrated Lewis pair or classic Lewis adduct, we studied the dimerization process for all systems, revealing significant variations in the Gibbs free energy. Dimerization was favored in four aminoboranes and six aminoalanes, depending on the specific combinations of substituents. Applying an energy decomposition analysis, we found that the preparation energy of the monomers and the non-orbital interactions between them are the primary contributors to the observed energetic differences, showing a clear linear relationship. Additionally, we analyzed the electronic effects by increasing the acidity of the Lewis acid, observing a shift toward endergonic and exergonic directions in aminoboranes and aminoalanes, respectively. This shift was attributed to the stabilization of a classic Lewis adduct. This study underscores three crucial factors influencing dimer formation: (i) substituent size, (ii) stabilization of the classic Lewis adduct conformation, and (iii) covalent radii of the Lewis centers. Understanding these factors is essential for designing FLPs and preventing unwanted dimerization that could affect their catalytic performance in H2 activation processes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Methylglyoxal Adducts Are Prognostic Biomarkers for Diabetic Kidney Disease in Patients With Type 1 Diabetes.

Author

Seigmund Wai Tsuen Lai, Hernandez-Castillo, Carlos, Lopez Gonzalez, Edwin De Jesus, Zoukari, Tala, Talley, Min, Paquin, Nadia, Zhuo Chen, Roep, Bart O., Kaddis, John S., Natarajan, Rama, Termini, John, and Shuck, Sarah C.

Subjects

*TYPE 1 diabetes, *PROGNOSIS, *DNA adducts, *DIABETES complications, *GLYCEMIC control

Abstract

More than 30% of patients with type 1 diabetes develop diabetic kidney disease (DKD), which significantly increases mortality risk. The Diabetes Control and Complications Trial (DCCT) and follow-up study, Epidemiology of Diabetes Interventions and Complications (EDIC), established that glycemic control measured by HbA1c predicts DKD risk. However, the continued high incidence of DKD reinforces the urgent need for additional biomarkers to supplement HbA1c. Here, we assessed biomarkers induced bymethylglyoxal (MG), ametabolic by-product that forms covalent adducts on DNA, RNA, and proteins, called MG adducts. Urinary MG adducts were measured in samples from patients with type 1 diabetes enrolled in DCCT/EDIC who did (case patients; n = 90) or did not (control patients; n = 117) develop DKD. Univariate and multivariable analyses revealed that measurements of MG adducts independently predict DKD before established DKD biomarkers such as glomerular filtration rate and albumin excretion rate. Elevated levels of MG adducts bestowed the greatest risk of developing DKD in a multivariable model that included HbA1c and other clinical covariates. Our work establishes a novel class of biomarkers to predict DKD risk and suggests that inclusion of MG adducts may be a valuable tool to improve existing predictors of complications like DKD prior to overt disease, and to aid in identifying at-risk individuals and personalized risk management. [ABSTRACT FROM AUTHOR]

Published

2024

14. Detection of Extremely Low Level Ciguatoxins through Monitoring of Lithium Adduct Ions by Liquid Chromatography-Triple Quadrupole Tandem Mass Spectrometry.

Author

Kobayashi, Manami, Masuda, Junichi, and Oshiro, Naomasa

Subjects

*TANDEM mass spectrometry, *LITHIUM ions, *DNA adducts, *FOOD poisoning, *QUADRUPOLE ion trap mass spectrometry, *ALKALI metals, *QUADRUPOLES

Abstract

Ciguatera poisoning (CP) is the most common type of marine biotoxin food poisoning worldwide, and it is caused by ciguatoxins (CTXs), thermostable polyether toxins produced by dinoflagellate Gambierdiscus and Fukuyoa spp. It is typically caused by the consumption of large fish high on the food chain that have accumulated CTXs in their flesh. CTXs in trace amounts are found in natural samples, and they mainly induce neurotoxic effects in consumers at concentrations as low as 0.2 µg/kg. The U.S. Food and Drug Administration has established CTX maximum permitted levels of 0.01 µg/kg for CTX1B and 0.1 µg/kg for C-CTX1 based on toxicological data. More than 20 variants of the CTX1B and CTX3C series have been identified, and the simultaneous detection of trace amounts of CTX analogs has recently been required. Previously published works using LC-MS/MS achieved the safety levels by monitoring the sodium adduct ions of CTXs ([M+Na]+ > [M+Na]+). In this study, we optimized a highly sensitive method for the detection of CTXs using the sodium or lithium adducts, [M+Na]+ or [M+Li]+, by adding alkali metals such as Na+ or Li+ to the mobile phase. This work demonstrates that CTXs can be successfully detected at the low concentrations recommended by the FDA with good chromatographic separation using LC-MS/MS. It also reports on the method's new analytical conditions and accuracy using [M+Li]+. [ABSTRACT FROM AUTHOR]

Published

2024

15. Formation of DNA Adducts by 1-Methoxy-3-indolylmethylalcohol, a Breakdown Product of a Glucosinolate, in the Mouse: Impact of the SULT1A1 Status—Wild-Type, Knockout or Humanised.

Author

Glatt, Hansruedi, Weißenberg, Sarah Yasmin, Ehlers, Anke, Lampen, Alfonso, Seidel, Albrecht, Schumacher, Fabian, Engst, Wolfram, and Meinl, Walter

Subjects

*DNA adducts, *TRANSGENIC mice, *CARCINOGENICITY testing, *MICE, *SMALL intestine, *BONE marrow

Abstract

We previously found that feeding rats with broccoli or cauliflower leads to the formation of characteristic DNA adducts in the liver, intestine and various other tissues. We identified the critical substances in the plants as 1-methoxy-3-indolylmethyl (1-MIM) glucosinolate and its degradation product 1-MIM-OH. DNA adduct formation and the mutagenicity of 1-MIM-OH in cell models were drastically enhanced when human sulfotransferase (SULT) 1A1 was expressed. The aim of this study was to clarify the role of SULT1A1 in DNA adduct formation by 1-MIM-OH in mouse tissues in vivo. Furthermore, we compared the endogenous mouse Sult1a1 and transgenic human SULT1A1 in the activation of 1-MIM-OH using genetically modified mouse strains. We orally treated male wild-type (wt) and Sult1a1-knockout (ko) mice, as well as corresponding lines carrying the human SULT1A1-SULT1A2 gene cluster (tg and ko-tg), with 1-MIM-OH. N2-(1-MIM)-dG and N6-(1-MIM)-dA adducts in DNA were analysed using isotope-dilution UPLC-MS/MS. In the liver, caecum and colon adducts were abundant in mice expressing mouse and/or human SULT1A1, but were drastically reduced in ko mice (1.2–10.6% of wt). In the kidney and small intestine, adduct levels were high in mice carrying human SULT1A1-SULT1A2 genes, but low in wt and ko mice (1.8–6.3% of tg-ko). In bone marrow, adduct levels were very low, independently of the SULT1A1 status. In the stomach, they were high in all four lines. Thus, adduct formation was primarily controlled by SULT1A1 in five out of seven tissues studied, with a strong impact of differences in the tissue distribution of mouse and human SULT1A1. The behaviour of 1-MIM-OH in these models (levels and tissue distribution of DNA adducts; impact of SULTs) was similar to that of methyleugenol, classified as "probably carcinogenic to humans". Thus, there is a need to test 1-MIM-OH for carcinogenicity in animal models and to study its adduct formation in humans consuming brassicaceous foodstuff. [ABSTRACT FROM AUTHOR]

Published

2024

16. Attenuation of Polycyclic Aromatic Hydrocarbon (PAH)-Induced Carcinogenesis and Tumorigenesis by Omega-3 Fatty Acids in Mice In Vivo.

Author

Xia, Guobin, Zhou, Guodong, Jiang, Weiwu, Chu, Chun, Wang, Lihua, and Moorthy, Bhagavatula

Subjects

*OMEGA-3 fatty acids, *BENZOPYRENE, *DNA adducts, *POLYCYCLIC aromatic hydrocarbons, *DOCOSAHEXAENOIC acid, *EICOSAPENTAENOIC acid, *CARCINOGENESIS

Abstract

Lung cancer is the leading cause of cancer death worldwide. Polycyclic aromatic hydrocarbons (PAHs) are metabolized by the cytochrome P450 (CYP)1A and 1B1 to DNA-reactive metabolites, which could lead to mutations in critical genes, eventually resulting in cancer. Omega-3 fatty acids, such as eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), are beneficial against cancers. In this investigation, we elucidated the mechanisms by which omega-3 fatty acids EPA and DHA will attenuate PAH-DNA adducts and lung carcinogenesis and tumorigenesis mediated by the PAHs BP and MC. Adult wild-type (WT) (A/J) mice, Cyp1a1-null, Cyp1a2-null, or Cyp1b1-null mice were exposed to PAHs benzo[a]pyrene (BP) or 3-methylcholanthrene (MC), and the effects of omega-3 fatty acid on PAH-mediated lung carcinogenesis and tumorigenesis were studied. The major findings were as follows: (i) omega-3 fatty acids significantly decreased PAH-DNA adducts in the lungs of each of the genotypes studied; (ii) decreases in PAH-DNA adduct levels by EPA/DHA was in part due to inhibition of CYP1B1; (iii) inhibition of soluble epoxide hydrolase (sEH) enhanced the EPA/DHA-mediated prevention of pulmonary carcinogenesis; and (iv) EPA/DHA attenuated PAH-mediated carcinogenesis in part by epigenetic mechanisms. Taken together, our results suggest that omega-3 fatty acids have the potential to be developed as cancer chemo-preventive agents in people. [ABSTRACT FROM AUTHOR]

Published

2024

17. Alteration of DNA Methylation and Epigenetic Scores Associated With Features of Schizophrenia and Common Variant Genetic Risk.

Author

Kiltschewskij, Dylan J., Reay, William R., Geaghan, Michael P., Atkins, Joshua R., Xavier, Alexandre, Zhang, Xiajie, Watkeys, Oliver J., Carr, Vaughan J., Scott, Rodney J., Green, Melissa J., and Cairns, Murray J.

Subjects

*DNA methylation, *GENETIC variation, *EPIGENETICS, *MYOCARDIAL infarction, *SCHIZOPHRENIA, *DNA adducts

Abstract

Unpacking molecular perturbations associated with features of schizophrenia is a critical step toward understanding phenotypic heterogeneity in this disorder. Recent epigenome-wide association studies have uncovered pervasive dysregulation of DNA methylation in schizophrenia; however, clinical features of the disorder that account for a large proportion of phenotypic variability are relatively underexplored. We comprehensively analyzed patterns of DNA methylation in a cohort of 381 individuals with schizophrenia from the deeply phenotyped Australian Schizophrenia Research Bank. Epigenetic changes were investigated in association with cognitive status, age of onset, treatment resistance, Global Assessment of Functioning scores, and common variant polygenic risk scores for schizophrenia. We subsequently explored alterations within genes previously associated with psychiatric illness, phenome-wide epigenetic covariance, and epigenetic scores. Epigenome-wide association studies of the 5 primary traits identified 662 suggestively significant (p < 6.72 × 10−5) differentially methylated probes, with a further 432 revealed after controlling for schizophrenia polygenic risk on the remaining 4 traits. Interestingly, we uncovered many probes within genes associated with a variety of psychiatric conditions as well as significant epigenetic covariance with phenotypes and exposures including acute myocardial infarction, C-reactive protein, and lung cancer. Epigenetic scores for treatment-resistant schizophrenia strikingly exhibited association with clozapine administration, while epigenetic proxies of plasma protein expression, such as CCL17, MMP10, and PRG2, were associated with several features of schizophrenia. Our findings collectively provide novel evidence suggesting that several features of schizophrenia are associated with alteration of DNA methylation, which may contribute to interindividual phenotypic variation in affected individuals. [ABSTRACT FROM AUTHOR]

Published

2024

18. Deciphering the Molecular Mechanisms of Reactive Metabolite Formation in the Mechanism-Based Inactivation of Cytochrome p450 1B1 by 8-Methoxypsoralen and Assessing the Driving Effect of phe268.

Author

Kamel, Emadeldin M., Alwaili, Maha A., Rudayni, Hassan A., Allam, Ahmed A., and Lamsabhi, Al Mokhtar

Subjects

*CYTOCHROME P-450, *DRUG discovery, *DNA adducts, *MOLECULAR docking, *ENERGY consumption, *CATALYSIS

Abstract

This study provides a comprehensive computational exploration of the inhibitory activity and metabolic pathways of 8-methoxypsoralen (8-MP), a furocoumarin derivative used for treating various skin disorders, on cytochrome P450 (P450). Employing quantum chemical DFT calculations, molecular docking, and molecular dynamics (MD) simulations analyses, the biotransformation mechanisms and the active site binding profile of 8-MP in CYP1B1 were investigated. Three plausible inactivation mechanisms were minutely scrutinized. Further analysis explored the formation of reactive metabolites in subsequent P450 metabolic processes, including covalent adduct formation through nucleophilic addition to the epoxide, 8-MP epoxide hydrolysis, and non-CYP-catalyzed epoxide ring opening. Special attention was paid to the catalytic effect of residue Phe268 on the mechanism-based inactivation (MBI) of P450 by 8-MP. Energetic profiles and facilitating conditions revealed a slight preference for the C4′=C5′ epoxidation pathway, while recognizing a potential kinetic competition with the 8-OMe demethylation pathway due to comparable energy demands. The formation of covalent adducts via nucleophilic addition, particularly by phenylalanine, and the generation of potentially harmful reactive metabolites through autocatalyzed ring cleavage are likely to contribute significantly to P450 metabolism of 8-MP. Our findings highlight the key role of Phe268 in retaining 8-MP within the active site of CYP1B1, thereby facilitating initial oxygen addition transition states. This research offers crucial molecular-level insights that may guide the early stages of drug discovery and risk assessment related to the use of 8-MP. [ABSTRACT FROM AUTHOR]

Published

2024

19. A computational study of the structures and base-pairing properties of pyrrolizidine alkaloid-derived DNA adducts.

Author

Franz, Mckenzie, Kebel, Melanie S., Sandhu, Pardeepak, Moldovan, Denisa, Adamitz, Taylor, Kaur, Rajwinder, Jeong, Ye Eun Rebecca, and Wetmore, Stacey D.

Subjects

*DNA adducts, *PYRROLIZIDINES, *DENSITY functional theory, *STEREOCHEMISTRY, *BASE pairs, *COMPUTATIONAL chemistry

Abstract

Pyrrolizidine alkaloids (PAs) are found in many plants worldwide, including some in Canada. PAs have been linked to losses in livestock populations and the development of human PA diseases. Four PA-derived dehydrosupinidine (DHP) adducts formed at the exocyclic amino groups of DNA purines have been found in tumor tissue and flagged as potential biomarkers for tumor formation (denoted DHP–G/A–3 and DHP–G/A–4). Four additional adducts (DHP–G/A–1 and DHP–G/A–2) have also been identified, which differ in the stereochemistry at the DHP–nucleobase linker or DHP ring carbon containing the hydroxy group, as well as the length of the DHP–nucleobase linker. Since the impact of these distinct chemical features on adduct mutagenicity is currently unclear, the present work uses density functional theory calculations to uncover the structures and base-pairing properties of these experimentally-observed DHP-derived purine adducts. Adduct Watson–Crick–Franklin base pairs involving the canonical partner are energetically and structurally feasible. However, the G/A–3 and G/A–4 adducts are also highly susceptible to mispairing with G. Indeed, the longer and more flexible DHP–nucleobase linker in these adducts affords interactions between the DHP moiety and the pairing G that are not possible for the G/A–1 and G/A–2 counterparts. Our data thus rationalize the experimental identification of this subset of adducts in liver tumor tissue, and provide key insights to guide future experimental and computational studies that investigate the replication and broader biological outcomes of DHP-derived lesions. [ABSTRACT FROM AUTHOR]

Published

2024

20. Integrated data from intravital imaging and HPLC–MS/MS analysis reveal large interspecies differences in AFB1 metabolism in mice and rats.

Author

Hassan, Reham, Gerdemann, Andrea, Cramer, Benedikt, Hobloss, Zaynab, Myllys, Maiju, González, Daniela, Albrecht, Wiebke, Veerkamp, Jannik, Friebel, Adrian, Hoehme, Stefan, Esselen, Melanie, Degen, Gisela H., Humpf, Hans-Ulrich, Hengstler, Jan G., and Ghallab, Ahmed

Subjects

*RATS, *MICE, *IMAGE analysis, *BILE, *LABORATORY rats, *METABOLISM, *DNA adducts, *AFLATOXINS

Abstract

Large interspecies differences between rats and mice concerning the hepatotoxicity and carcinogenicity of aflatoxin B1 (AFB1) are known, with mice being more resistant. However, a comprehensive interspecies comparison including subcellular liver tissue compartments has not yet been performed. In this study, we performed spatio-temporal intravital analysis of AFB1 kinetics in the livers of anesthetized mice and rats. This was supported by time-dependent analysis of the parent compound as well as metabolites and adducts in blood, urine, and bile of both species by HPLC–MS/MS. The integrated data from intravital imaging and HPLC–MS/MS analysis revealed major interspecies differences between rats and mice: (1) AFB1-associated fluorescence persisted much longer in the nuclei of rat than mouse hepatocytes; (2) in the sinusoidal blood, AFB1-associated fluorescence was rapidly cleared in mice, while a time-dependent increase was observed in rats in the first three hours after injection followed by a plateau that lasted until the end of the observation period of six hours; (3) this coincided with a far stronger increase of AFB1-lysine adducts in the blood of rats compared to mice; (4) the AFB1-guanine adduct was detected at much higher concentrations in bile and urine of rats than mice. In both species, the AFB1-glutathione conjugate was efficiently excreted via bile, where it reached concentrations at least three orders of magnitude higher compared to blood. In conclusion, major differences between mice and rats were observed, concerning the nuclear persistence, formation of AFB1-lysine adducts, and the AFB1-guanine adducts. [ABSTRACT FROM AUTHOR]

Published

2024

21. Circ0087385 promotes DNA damage in benzo(a)pyrene-induced lung cancer development by upregulating CYP1A1.

Author

Zhang, Nan, Qiu, Miaoyun, Yao, Shuwei, Zhou, Hanyu, Zhang, Han, Jia, Yangyang, Li, Xin, Chen, Xintong, Li, Xun, Zhou, Yun, and Jiang, Yiguo

Subjects

*BENZOPYRENE, *DNA adducts, *CIRCULAR RNA, *DNA damage, *LUNG cancer, *CYTOCHROME P-450 CYP1A1, *BIOCHEMICAL genetics, *CARCINOGENESIS

Abstract

Increasing environmental genotoxic chemicals have been shown to induce epigenetic alterations. However, the interaction between genetics and epigenetics in chemical carcinogenesis is still not fully understood. Here, we constructed an in vitro human lung carcinogenesis model (16HBE-T) by treating human bronchial epithelial cells with a typical significant carcinogen benzo(a)pyrene (BaP). We identified a novel circular RNA, circ0087385, which was overexpressed in 16HBE-T and human lung cancer cell lines, as well as in lung cancer tissues and serum exosomes from lung cancer patients. The upregulated circ0087385 after exposure to BaP promoted DNA damage in the early stage of chemical carcinogenesis and affected the cell cycle, proliferation, and apoptosis of the malignantly transformed cells. Overexpression of circ0087385 enhanced the expression of cytochrome P450 1A1 (CYP1A1), which is crucial for metabolically activating BaP. Interfering with circ0087385 or CYP1A1 reduced the levels of ultimate carcinogen benzo(a)pyrene diol epoxide (BPDE) and BPDE-DNA adducts. Interfering with CYP1A1 partially reversed the DNA damage induced by high expression of circ0087385, as well as decreased the level of BPDE and BPDE-DNA adducts. These findings provide novel insights into the interaction between epigenetics and genetics in chemical carcinogenesis which are crucial for understanding the epigenetic and genetic toxicity of chemicals. [ABSTRACT FROM AUTHOR]

Published

2024

22. Osme Bond: Geometric and Energetic Features in the Adducts between OsO4 and Lewis Bases.

Author

Calabrese, Miriam, Pizzi, Andrea, Daolio, Andrea, Beccaria, Roberta, Lo Iacono, Cristina, Scheiner, Steve, and Resnati, Giuseppe

Subjects

*LEWIS bases, *DENSITY functional theory, *METAL bonding, *X-ray diffraction, *SINGLE crystals, *DNA adducts

Abstract

Adducts between OsO4 and Lewis bases exert a role in important oxidation processes such as epoxidation and dihydroxylation. It has been shown that the attractive interaction driving the formation of these adducts is a σ‐hole bond involving the metal as the electrophilic species; the term Osme Bond (OmB) was proposed for designating it. Here some new adducts between OsO4 and various bases have been characterized through single crystal x‐ray diffraction (XRD) and computational studies (density functional theory, DFT), confirming the existence of a robust correlation between σ‐hole interaction energy and deformation of the tetrahedral geometry of OsO4. Also, some adducts formed by RuO4 with nucleophiles were investigated computationally. [ABSTRACT FROM AUTHOR]

Published

2024

23. Generation of site-specifically labelled fluorescent human XPA to investigate DNA binding dynamics during nucleotide excision repair.

Author

Kuppa, Sahiti, Corless, Elliot, Caldwell, Colleen C., Spies, Maria, and Antony, Edwin

Subjects

*EXCISION repair, *DNA adducts, *DNA damage, *XERODERMA pigmentosum, *DNA repair, *DNA-binding proteins, *FLUORESCENT proteins

Abstract

• XPA is an essential protein for the repair of bulky DNA lesions through Nucleotide Excision Repair. • XPA works in complex with RPA to orient the DNA for processing. • A site-specific Cy3 fluorophore was incorporated on XPA and reports on ssDNA binding dynamics. • Detailed methods to generate fluorescent XPA and conditions to generate and maintain stable protein are described. Nucleotide excision repair (NER) promotes genomic integrity by removing bulky DNA adducts introduced by external factors such as ultraviolet light. Defects in NER enzymes are associated with pathological conditions such as Xeroderma Pigmentosum, trichothiodystrophy, and Cockayne syndrome. A critical step in NER is the binding of the Xeroderma Pigmentosum group A protein (XPA) to the ss/ds DNA junction. To better capture the dynamics of XPA interactions with DNA during NER we have utilized the fluorescence enhancement through non-canonical amino acids (FEncAA) approach. 4-azido- L -phenylalanine (4AZP or pAzF) was incorporated at Arg-158 in human XPA and conjugated to Cy3 using strain-promoted azide-alkyne cycloaddition. The resulting fluorescent XPA protein (XPACy3) shows no loss in DNA binding activity and generates a robust change in fluorescence upon binding to DNA. Here we describe methods to generate XPACy3 and detail in vitro experimental conditions required to stably maintain the protein during biochemical and biophysical studies. [ABSTRACT FROM AUTHOR]

Published

2024

24. AKR1C2 genetic variants mediate tobacco carcinogens metabolism involving bladder cancer susceptibility.

Author

Xiao, Yanping, Shen, Yang, Song, Hui, Gao, Fang, Mao, Zhenguang, Lv, Qiang, Qin, Chao, Yuan, Lin, Wu, Dongmei, Chu, Haiyan, Wang, Meilin, Du, Mulong, Zheng, Rui, and Zhang, Zhengdong

Subjects

*DNA adducts, *NITROSOAMINES, *BLADDER cancer, *GENETIC variation, *CARCINOGENS, *POLYCYCLIC aromatic hydrocarbons, CANCER susceptibility

Abstract

Tobacco carcinogens metabolism-related genes (TCMGs) could generate reactive metabolites of tobacco carcinogens, which subsequently contributed to multiple diseases. However, the association between genetic variants in TCMGs and bladder cancer susceptibility remains unclear. In this study, we derived TCMGs from metabolic pathways of polycyclic aromatic hydrocarbons and tobacco-specific nitrosamines, and then explored genetic associations between TCMGs and bladder cancer risk in two populations: a Chinese population of 580 cases and 1101 controls, and a European population of 5930 cases and 5468 controls, along with interaction and joint analyses. Expression patterns of TCMGs were sourced from Nanjing Bladder Cancer (NJBC) study and publicly available datasets. Among 43 TCMGs, we observed that rs7087341 T > A in AKR1C2 was associated with a reduced risk of bladder cancer in the Chinese population [odds ratio (OR) = 0.84, 95% confidence interval (CI) = 0.72–0.97, P = 1.86 × 10–2]. Notably, AKR1C2 rs7087341 showed an interaction effect with cigarette smoking on bladder cancer risk (Pinteraction = 5.04 × 10–3), with smokers carrying the T allele increasing the risk up to an OR of 3.96 (Ptrend < 0.001). Genetically, rs7087341 showed an allele-specific transcriptional regulation as located at DNA-sensitive regions of AKR1C2 highlighted by histone markers. Mechanistically, rs7087341 A allele decreased AKR1C2 expression, which was highly expressed in bladder tumors that enhanced metabolism of tobacco carcinogens, and thereby increased DNA adducts and reactive oxygen species formation during bladder tumorigenesis. These findings provided new insights into the genetic mechanisms underlying bladder cancer. [ABSTRACT FROM AUTHOR]

Published

2024

25. TisB protein is the single molecular determinant underlying multiple downstream effects of ofloxacin in Escherichia coli.

Author

Cayron, Julien, Oms, Thierry, Schlechtweg, Tatjana, Zedek, Safia, and Van Melderen, Laurence

Subjects

*ESCHERICHIA coli, *DNA topoisomerase II, *DNA replication, *PROTEINS, *BACTERIAL cells, *DNA adducts

Abstract

Bactericidal antibiotics can cause metabolic perturbations that contribute to antibiotic-induced lethality. The molecular mechanism underlying these downstream effects remains unknown. Here, we show that ofloxacin, a fluoroquinolone that poisons DNA gyrase, induces a cascade of metabolic changes that are dependent on an active SOS response. We identified the SOS-regulated TisB protein as the unique molecular determinant responsible for cytoplasmic condensation, proton motive force dissipation, loss of pH homeostasis, and H2O2 accumulation in Escherichia coli cells treated with high doses of ofloxacin. However, TisB is not required for high doses of ofloxacin to interfere with the function of DNA gyrase or the resulting rapid inhibition of DNA replication and lethal DNA damage. Overall, the study sheds light on the molecular mechanisms by which ofloxacin affects bacterial cells and highlights the role of the TisB protein in mediating these effects. [ABSTRACT FROM AUTHOR]

Published

2024

26. Refining risk prediction in pediatric acute lymphoblastic leukemia through DNA methylation profiling.

Author

Mosquera Orgueira, Adrián, Krali, Olga, Pérez Míguez, Carlos, Peleteiro Raíndo, Andrés, Díaz Arias, José Ángel, González Pérez, Marta Sonia, Pérez Encinas, Manuel Mateo, Fernández Sanmartín, Manuel, Sinnet, Daniel, Heyman, Mats, Lönnerholm, Gudmar, Norén-Nyström, Ulrika, Schmiegelow, Kjeld, and Nordlund, Jessica

Subjects

*LYMPHOBLASTIC leukemia, *DNA methylation, *ACUTE leukemia, *SUPERVISED learning, *CHILDHOOD cancer, *DNA adducts

Abstract

Acute lymphoblastic leukemia (ALL) is the most prevalent cancer in children, and despite considerable progress in treatment outcomes, relapses still pose significant risks of mortality and long-term complications. To address this challenge, we employed a supervised machine learning technique, specifically random survival forests, to predict the risk of relapse and mortality using array-based DNA methylation data from a cohort of 763 pediatric ALL patients treated in Nordic countries. The relapse risk predictor (RRP) was constructed based on 16 CpG sites, demonstrating c-indexes of 0.667 and 0.677 in the training and test sets, respectively. The mortality risk predictor (MRP), comprising 53 CpG sites, exhibited c-indexes of 0.751 and 0.754 in the training and test sets, respectively. To validate the prognostic value of the predictors, we further analyzed two independent cohorts of Canadian (n = 42) and Nordic (n = 384) ALL patients. The external validation confirmed our findings, with the RRP achieving a c-index of 0.667 in the Canadian cohort, and the RRP and MRP achieving c-indexes of 0.529 and 0.621, respectively, in an independent Nordic cohort. The precision of the RRP and MRP models improved when incorporating traditional risk group data, underscoring the potential for synergistic integration of clinical prognostic factors. The MRP model also enabled the definition of a risk group with high rates of relapse and mortality. Our results demonstrate the potential of DNA methylation as a prognostic factor and a tool to refine risk stratification in pediatric ALL. This may lead to personalized treatment strategies based on epigenetic profiling. [ABSTRACT FROM AUTHOR]

Published

2024

27. A Novel Bisquaternary Ammonium Compound as an Anion Sensor—ESI-MS and Fluorescence Study.

Author

Kowalska, Marta, Wieczorek, Robert, Gawryszewska, Paula, and Bąchor, Remigiusz

Subjects

*DNA adducts, *ELECTROSPRAY ionization mass spectrometry, *AMMONIUM compounds, *DAUGHTER ions, *ANIONS, *FLUORESCENCE

Abstract

Electrospray ionization mass spectrometry (ESI-MS) analysis is frequently associated with noncovalent adduct formation, both in positive and negative modes. Anion binding and sensing by mass spectrometry, notably more challenging compared to cation binding, will have major research potential with the development of appropriate sensors. Here, we demonstrated identification of stable bisquaternary dication adducts with trifluoroacetate (TFA−), Cl− and HSO4− in positive-mode ESI-MS analysis. The observed adducts were stable in MS/MS mode, leading to the formation of characteristic fragment ions containing a covalently bound anion, which requires bond reorganization. This phenomenon was confirmed by computational methods. Furthermore, given that anion detection and anion sensor chemistry have gained significant prominence in chemistry, we conducted an analysis of the fluorescent properties of bisquaternary ammonium compound as a potential anion sensor. [ABSTRACT FROM AUTHOR]

Published

2024

28. Novel modifications of PARP inhibitor veliparib increase PARP1 binding to DNA breaks.

Author

Velagapudi, Uday Kiran, Rouleau-Turcotte, Élise, Billur, Ramya, Xuwei Shao, Patil, Manisha, Black, Ben E., Pascal, John M., and Talele, Tanaji T.

Subjects

*POLY ADP ribose, *POLY(ADP-ribose) polymerase, *DNA, *DNA adducts, *CATALYTIC activity, *PHARMACOPHORE

Abstract

Catalytic poly(ADP-ribose) production by PARP1 is allosterically activated through interaction with DNA breaks, and PARP inhibitor compounds have the potential to influence PARP1 allostery in addition to preventing catalytic activity. Using the benzimidazole-4-carboxamide pharmacophore present in the first generation PARP1 inhibitor veliparib, a series of 11 derivatives was designed, synthesized, and evaluated as allosteric PARP1 inhibitors, with the premise that bulky substituents would engage the regulatory helical domain (HD) and thereby promote PARP1 retention on DNA breaks. We found that core scaffold modifications could indeed increase PARP1 affinity for DNA; however, the bulk of the modification alone was insufficient to trigger PARP1 allosteric retention on DNA breaks. Rather, compounds eliciting PARP1 retention on DNA breaks were found to be rigidly held in a position that interferes with a specific region of the HD domain, a region that is not targeted by current clinical PARP inhibitors. Collectively, these compounds highlight a unique way to trigger PARP1 retention on DNA breaks and open a path to unveil the pharmacological benefits of such inhibitors with novel properties. [ABSTRACT FROM AUTHOR]

Published

2024

29. Combinatorial Effect of Syringic Acid-Pyrazinamide Adduct against Luminal Type Breast Cancer Investigated through DFT, Drug-Likeness, and Molecular Docking Simulation.

Author

Priya, Mohana, Zochedh, Azar, Palaniyandi, Karthikeyan, Shunmuganarayanan, Athimoolam, and Sultan, Asath Bahadur

Subjects

*BREAST cancer, *ELECTRIC potential, *SIGNAL recognition particle receptor, *QUANTUM mechanics, *BAND gaps, *DNA adducts

Abstract

Luminal type breast cancer is a type of breast cancer that has a favorable prognosis in comparison to other forms. In accordance with the proliferation index, luminal-type breast malignancy is divided as luminal A and B types. The combination of two molecules will be a more effective strategy for the treatment of breast cancer. In this study, the structural and different spectroscopic parameters for the 4-hydroxy3, 5-dimethoxybenzoic acid-pyrazine 2-carboxamide cocrystal were calculated using quantum mechanics employing the B3LYP/6–311++G (d,p) approach. With the use of XRD data, the optimized geometrical parameters were compared. The HOMO-LUMO, molecule electrostatic potential surfaces, and vibrational investigations of the cocrystal are all computed. The possibility of charge transmission inside the particle is demonstrated by the minimal HOMO–LUMO energy gap. The existence of intermolecular OH...O hydrogen bonds, which are brought about by the interface of the oxygen lone pair with the anti-bonding orbital, was demonstrated by NBO examination. The drug-likeness possessions exhibited the safety profile of the 4-hydroxy-3,5-dimethoxybenzoic acid-pyrazine-2-carboxamide adduct. The results of molecular docking indicate that the cocrystal of 4-hydroxy3, 5-dimethoxybenzoic acid and pyrazine 2-carboxamide revealed better binding ability against luminal type breast cancer proteins with docking values of −8.3, −7.6, and −8.7 kcal/mol. [ABSTRACT FROM AUTHOR]

Published

2024

30. Pharmacodynamics and biodistribution of [195mPt]cisplatin(CISSPECT®) in head and neck squamous cell carcinoma.

Author

de Roest, Reinout H., Stigter van Walsum, Marijke, van der Schilden, Karlijn, and Brakenhoff, Ruud H.

Subjects

*SQUAMOUS cell carcinoma, *CISPLATIN, *DNA adducts, *NECK, *PHARMACODYNAMICS, *DRUG monitoring

Abstract

Background: Cisplatin- based chemoradiotherapy is a crucial pillar in the treatment of HNSCC. The use of cisplatin comes with high toxicity rates as 35% of patients cannot sustain the planned dose while response is unpredictable. Unfortunately, there are no clinically applicable biomarkers to predict response. Based on the association of response with the number of DNA adducts and the involved molecular pathway to resolve cisplatin-induced DNA crosslinks in HNSCC, [195mPt]cisplatin (CISSPECT®) might have potential to monitor drug uptake and retention before treatment, and predict cisplatin response. The aim of this study is to investigate this concept by analyzing uptake, retention and biodistribution of [195mPt]cisplatin between known cisplatin-sensitive (VU-SCC-1131) and –resistant (VU-SCC-OE) HNSCC cell lines in vitro and xenografted in mice in vivo. Results: By a variety of experiments in vitro, including cell cycle analyses, and in vivo, the sensitivity of cell line VU-SCC-1131 and resistance of cell line VU-SCC-OE for cisplatin was demonstrated. VU-SCC-OE was able to accumulate more [195mPt]cisplatin in the DNA, and showed an increased capability to repair [195mPt]cisplatin crosslinks compared to VU-SCC-1131. Notably, DNA binding of cisplatin increased even when cisplatin was removed from the medium, likely from intracellular sources. In vivo, [195mPt]cisplatin showed a rapid biodistribution to the large organs such as the liver, with no differences between intravenous and intraperitoneal administration. Most circulating [195mPt]cisplatin was cleared by renal filtration, and accumulation in kidney and liver remained high. Uptake in xenografts was rapid (blood:tumor ratio; 1:1) and highest after 1 h, while decreasing after 6 h in line with the concentration in the blood. Remarkably, there was no significant difference in uptake or retention between xenografts of the cisplatin-sensitive and -resistant cell line. Conclusion: VU-SCC-1131 with a known FA deficiency and VU-SCC-OE displayed a significant difference in sensitivity to and recovery from cisplatin treatment, due to S-phase problems in VU-SCC-1131 at low doses, in line with the genetic defect. Using Pt-195m radioactivity analysis, we demonstrated the limited capability of cisplatin crosslink repair in VU-SCC-1131. Unexpectedly, we were not able to translate these findings to a mouse model for sensitivity prediction based on the biodistribution in the tumor, most likely as other factors such as influx counterbalanced repair. These data do not support response prediction by [195mPt]cisplatin, and applications to predict the toxic side-effects of cisplatin and to tailor dosing schemes seem more feasible. [ABSTRACT FROM AUTHOR]

Published

2024

31. The phosphylated butyrylcholinesterase-derived tetrapeptide GlyGluSerAla proves exposure to organophosphorus agents with enantioselectivity.

Author

Kranawetvogl, Tamara, Siegert, Markus, Steinritz, Dirk, Thiermann, Horst, and John, Harald

Subjects

*DNA adducts, *PHOSPHONIC acid derivatives, *NERVE gases, *RACEMIC mixtures, *PEPTIDES, *CHEMICAL weapons, *PEPSIN, *ENANTIOMERS, *CHOLINESTERASE reactivators

Abstract

We herein present for the first time the phosphylated (*) tetrapeptide (TP)-adduct GlyGluSer198*Ala generated from butyrylcholinesterase (BChE) with proteinase K excellently suited for the verification of exposure to toxic organophosphorus nerve agents (OPNA). Verification requires bioanalytical methods mandatory for toxicological and legal reasons. OPNA react with BChE by phosphonylation of the active site serine residue (Ser198) forming one of the major target protein adducts for verification. After its enzymatic cleavage with pepsin, the nonapeptide (NP) PheGlyGluSer*AlaGlyAlaAlaSer is typically produced as biomarker. Usually OPNA occur as racemic mixtures of phosphonic acid derivatives with the stereocenter at the phosphorus atom, e.g. (±)-VX. Both enantiomers react with BChE, but the adducted NP does not allow their chromatographic distinction. In contrast, the herein introduced TP-adducts appeared as two peaks when using a stationary reversed phase (1.8 µm) in micro-liquid chromatography–electrospray ionisation tandem-mass spectrometry (µLC–ESI MS/MS) analysis. These two peaks represent diastereomers of the (+)- and (−)-OPNA adducted to the peptide that comprises chiral L-amino acids exclusively. Concentration- and time-dependent effects of adduct formation with (±)-VX and its pure enantiomers (+)- and (−)-VX as well as with (±)-cyclosarin (GF) were investigated in detail characterising enantioselective adduct formation, stability, ageing and spontaneous reactivation. The method was also successfully applied to samples from a real case of pesticide poisoning as well as to samples of biomedical proficiency tests provided by the Organisation for the Prohibition of Chemical Weapons. [ABSTRACT FROM AUTHOR]

Published

2024

32. Fluorescent human RPA to track assembly dynamics on DNA.

Author

Kaushik, Vikas, Chadda, Rahul, Kuppa, Sahiti, Pokhrel, Nilisha, Vayyeti, Abhinav, Grady, Scott, Arnatt, Chris, and Antony, Edwin

Subjects

*FLUORESCENCE resonance energy transfer, *DNA repair, *SINGLE-stranded DNA, *DNA, *RECOMBINANT DNA, *PHENYLALANINE, *DNA adducts

Abstract

• Site-specific fluorescent probes were incorporated into two domains of RPA and report on ssDNA binding dynamics. • Bulk-level kinetic and single-molecule assays are described to monitor the binding and remodeling of individual RPA domains on ssDNA. • Experiments capture the dynamic ssDNA binding states of the DBD-A and DBD-D domains of human RPA. DNA metabolic processes including replication, repair, recombination, and telomere maintenance occur on single-stranded DNA (ssDNA). In each of these complex processes, dozens of proteins function together on the ssDNA template. However, when double-stranded DNA is unwound, the transiently open ssDNA is protected and coated by the high affinity heterotrimeric ssDNA binding Replication Protein A (RPA). Almost all downstream DNA processes must first remodel/remove RPA or function alongside to access the ssDNA occluded under RPA. Formation of RPA-ssDNA complexes trigger the DNA damage checkpoint response and is a key step in activating most DNA repair and recombination pathways. Thus, in addition to protecting the exposed ssDNA, RPA functions as a gatekeeper to define functional specificity in DNA maintenance and genomic integrity. RPA achieves functional dexterity through a multi-domain architecture utilizing several DNA binding and protein-interaction domains connected by flexible linkers. This flexible and modular architecture enables RPA to adopt a myriad of configurations tailored for specific DNA metabolic roles. To experimentally capture the dynamics of the domains of RPA upon binding to ssDNA and interacting proteins we here describe the generation of active site-specific fluorescent versions of human RPA (RPA) using 4-azido- L- phenylalanine (4AZP) incorporation and click chemistry. This approach can also be applied to site-specific modifications of other multi-domain proteins. Fluorescence-enhancement through non-canonical amino acids (FEncAA) and Förster Resonance Energy Transfer (FRET) assays for measuring dynamics of RPA on DNA are also described. The fluorescent human RPA described here will enable high-resolution structure-function analysis of RPA-ssDNA interactions. [ABSTRACT FROM AUTHOR]

Published

2024

33. DNA methylation may partly explain psychotropic drug-induced metabolic side effects: results from a prospective 1-month observational study.

Author

Dubath, Céline, Porcu, Eleonora, Delacrétaz, Aurélie, Grosu, Claire, Laaboub, Nermine, Piras, Marianna, von Gunten, Armin, Conus, Philippe, Plessen, Kerstin Jessica, Kutalik, Zoltán, and Eap, Chin Bin

Subjects

*DRUG side effects, *DNA methylation, *WEIGHT gain, *HYPERGLYCEMIA, *SCIENTIFIC observation, *DNA adducts, *TREATMENT effectiveness

Abstract

Background: Metabolic side effects of psychotropic medications are a major drawback to patients' successful treatment. Using an epigenome-wide approach, we aimed to investigate DNA methylation changes occurring secondary to psychotropic treatment and evaluate associations between 1-month metabolic changes and both baseline and 1-month changes in DNA methylation levels. Seventy-nine patients starting a weight gain inducing psychotropic treatment were selected from the PsyMetab study cohort. Epigenome-wide DNA methylation was measured at baseline and after 1 month of treatment, using the Illumina Methylation EPIC BeadChip. Results: A global methylation increase was noted after the first month of treatment, which was more pronounced (p < 2.2 × 10–16) in patients whose weight remained stable (< 2.5% weight increase). Epigenome-wide significant methylation changes (p < 9 × 10−8) were observed at 52 loci in the whole cohort. When restricting the analysis to patients who underwent important early weight gain (≥ 5% weight increase), one locus (cg12209987) showed a significant increase in methylation levels (p = 3.8 × 10–8), which was also associated with increased weight gain in the whole cohort (p = 0.004). Epigenome-wide association analyses failed to identify a significant link between metabolic changes and methylation data. Nevertheless, among the strongest associations, a potential causal effect of the baseline methylation level of cg11622362 on glycemia was revealed by a two-sample Mendelian randomization analysis (n = 3841 for instrument-exposure association; n = 314,916 for instrument-outcome association). Conclusion: These findings provide new insights into the mechanisms of psychotropic drug-induced weight gain, revealing important epigenetic alterations upon treatment, some of which may play a mediatory role. [ABSTRACT FROM AUTHOR]

Published

2024

34. Special Issue with Research Topics on "Recent Analysis and Applications of Mass Spectra on Biochemistry".

Author

Ivanova, Bojidarka

Subjects

*MASS spectrometry, *PETROLEUM chemistry, *FORENSIC chemistry, *ENVIRONMENTAL chemistry, *ENZYME inactivation, *DNA adducts, *ION mobility spectroscopy, *CHEMICAL ionization mass spectrometry

Abstract

This document is a special issue of the International Journal of Molecular Sciences that focuses on the analysis and applications of mass spectra in biochemistry. It discusses the definitions of analytical chemistry and how it applies to mass spectrometry, highlighting the use of soft ionization methods as the gold standard in analytical practice. The document explores advancements in high-resolution mass analyzers and their impact on various research fields. It also mentions the importance of isotopomers in fields like medicine, ecology, geology, and forensic anthropology. The article concludes by discussing the diverse applications of mass spectrometry, including direct analysis, imaging techniques, monitoring chemical reactions, and determining kinetics and thermodynamics of chemicals. The text also mentions the use of computational quantum chemistry methods and other instrumental techniques for studying molecular structures. The Special Issue aims to provide innovative developments in mass spectrometry for researchers in different disciplines. [Extracted from the article]

Published

2024

35. Molecular and structural basis of anti-DNA antibody specificity for pyrrolated proteins.

Author

Anan, Yusuke, Itakura, Masanori, Shimoda, Tatsuya, Yamaguchi, Kosuke, Lu, Peng, Nagata, Koji, Dong, Jinhua, Ueda, Hiroshi, and Uchida, Koji

Subjects

*DNA antibodies, *ANTIBODY specificity, *AMINO acid residues, *SYSTEMIC lupus erythematosus, *IMMUNOGLOBULINS, *X-ray crystallography, *DNA adducts

Abstract

Anti-DNA antibodies (Abs), serological hallmarks of systemic lupus erythematosus (SLE) and markers for diagnosis and disease activity, show a specificity for non-nucleic acid molecules, such as N-pyrrolated proteins (pyrP) containing Nε-pyrrole-L-lysine (pyrK) residues. However, the detailed mechanism for the binding of anti-DNA Abs to pyrP remains unknown. In the present study, to gain structural insights into the dual-specificity of anti-DNA Abs, we used phage display to obtain DNA-binding, single-chain variable fragments (scFvs) from SLE-prone mice and found that they also cross-reacted with pyrP. It was revealed that a variable heavy chain (VH) domain is sufficient for the recognition of DNA/pyrP. Identification of an antigenic sequence containing pyrK in pyrP suggested that the presence of both pyrK and multiple acidic amino acid residues plays important roles in the electrostatic interactions with the Abs. X-ray crystallography and computer-predicted simulations of the pyrK-containing peptide-scFv complexes identified key residues of Abs involved in the interaction with the antigens. These data provide a mechanistic insight into the molecular basis of the dual-specificity of the anti-DNA Abs and provide a basis for therapeutic intervention against SLE. The authors use phage display to develop dual-specific single-chain variable fragments against DNA and N-pyrrolated proteins, providing mechanistic insights into the multi-specificity of anti-DNA antibodies. [ABSTRACT FROM AUTHOR]

Published

2024

36. Role of covalent modification by hepatic aldehydes in dictamnine-induced liver injury.

Author

Luo, Qi, Shen, Yang, Zhai, Guohong, Chen, Lin, Ou, Furong, Yi, Luxi, Yang, Danli, Pan, Hong, and Shi, Fuguo

Subjects

*LIVER injuries, *BIOTRANSFORMATION (Metabolism), *ALDEHYDES, *NUCLEOPHILES, *DNA adducts, *HEPATIC veins

Abstract

Dictamnine is a representative furan-containing hepatotoxic compound. Administration of dictamnine caused acute liver injury in mice and the metabolic activation of furan to reactive epoxy intermediate was responsible for the hepatotoxicity. This study aimed to characterize the protein adduction by endogenous hepatic aldehydes and investigate its role in dictamnine-induced hepatotoxicity. In the liver sample of dictamnine-treated mice, the protein adduction by five aldehydes was characterized as lysine residue-aldehyde adducts using high-resolution UPLC-Q/Orbitrap MS after exhaustive proteolytic digestion. The levels of protein adduct were increased at 2–3 h after the treatment with dictamnine. The formation of protein adduction increased with increasing doses of dictamnine. Inhibition of the bioactivation by CYP3A inhibitor ketoconazole prevented the protein adduction. Treatment with 2,3-dihydro-dictamnine, an analog of dictamnine that was unable to form the epoxy intermediate, did not lead to an increase in protein adduction. Application of aldehyde dehydrogenase-2 activator ALDA-1 or nucleophilic trapping reagent N -acetyl-L-lysine significantly reduced the protein adduction and attenuated dictamnine-induced liver injury without affecting the bioactivation. In conclusion, the metabolic activation of the furan ring of dictamnine resulted in the protein adduction by multiple hepatic aldehydes and the protein modification played a crucial role in dictamnine-induced liver injury. [Display omitted] • Covalent modification of hepatic protein by five aldehydes was characterized by LC-MS. • Reactive metabolite of dictamnine caused protein adduction by multiple aldehydes. • Protein adduction by aldehydes contributed to the dictamnine-induced hepatotoxicity. • Activation of ALDH2 by ALDA-1 attenuated dictamnine-induced liver injury. • Aldehydes could directly induce mouse liver injury via injection to hepatic vein. [ABSTRACT FROM AUTHOR]

Published

2024

37. Lipid Peroxidation as the Mechanism Underlying Polycyclic Aromatic Hydrocarbons and Sunlight Synergistic Toxicity in Dermal Fibroblasts.

Author

Larnac, Eloïse, Montoni, Alicia, Haydont, Valérie, Marrot, Laurent, and Rochette, Patrick J.

Subjects

*BENZOPYRENE, *POLYCYCLIC aromatic hydrocarbons, *PEROXIDATION, *FIBROBLASTS, *AIR pollution, *PREMATURE aging (Medicine), *DNA adducts

Abstract

Light and atmospheric pollution are both independently implicated in cancer induction and premature aging. Evidence has been growing more recently on the toxic synergy between light and pollutants. Polycyclic aromatic hydrocarbons (PAHs) originate from the incomplete combustion of organic matter. Some PAHs, such as the Benzo[a]pyrene (BaP), absorb ultraviolet A (UVA) wavelengths and can act as exogenous chromophores, leading to synergistic toxicity through DNA damage and cytotoxicity concomitant to ROS formation. In this study, we shed light on the mechanism underlying the toxic synergy between PAHs and UVA. Using dermal fibroblasts co-exposed to UVA and BaP, we have demonstrated that the photosensitization reaction causes mortality, which is most likely caused by ROS accumulation. We have shown that these ROS are concentrated in the lipids, which causes an important induction of lipid peroxidation and malondialdehyde, by-products of lipid peroxidation. We have also shown the accumulation of bulky DNA damage, most likely generated by these by-products of lipid peroxidation. To our knowledge, this study represents the first one depicting the molecular effects of photo-pollution on dermal skin. [ABSTRACT FROM AUTHOR]

Published

2024

38. Multicenter Prospective Validation of a DNA Methylation-Based Predictor of Meningioma Recurrence Risk and Molecular Classification.

Author

Wang, Justin Z., Gui, Chloe, Landry, Alexander P., Patil, Vikas, Ajisebutu, Andrew, Cohen-Gadol, Aaron, Wilson, Christopher, Makarenko, Serge, Yip, Stephen, Nassiri, Farshad, and Zadeh, Gelareh

Subjects

*MENINGIOMA, *DNA adducts, *DNA

Abstract

This article discusses the development and validation of a DNA methylation-based predictor for meningioma recurrence risk and molecular classification. Meningiomas are known to have significant heterogeneity, making it difficult to accurately predict prognosis using current classifications. The study utilized prospectively collected samples from multiple institutions to confirm the utility of the predictor in prognosticating meningioma patients and informing selection for adjuvant radiotherapy. The DNA methylation-based predictor outperformed the conventional WHO classification in predicting outcome and may be useful for real-time prognostication, patient counseling, and referral for adjuvant radiotherapy. [Extracted from the article]

Published

2024

39. Dissociation energies of labile C—H bonds in adducts of thiyl radicals with quinoids.

Author

Varlamov, V. T., Ovchinnikov, M. Yu., and Khursan, S. L.

Subjects

*RADICALS (Chemistry), *ATOMIC hydrogen, *QUINONE, *CYCLOHEXADIENE, *AROMATIC compounds, *BOND strengths, *DNA adducts

Abstract

Dissociation energies (DC—H) of labile C—H bonds in radical adducts formed by coordination of thiyl radicals across the cyclohexadiene rings of 1,4-benzoquinone, N-phenyl-1,4-benzoquinone monoimine, and N,N′-diphenyl-1,4-benzoquinone diimine have been determined using composite methods of the Gaussian family and data on the enthalpies of formal homodesmotic reactions involving the adducts and simpler reference compounds. The DC—H values were found to be in the range of 140–170 kJ mol−1. These values are typical of the strength of bonds between atomic hydrogen and olefins. The weakness of the C—H bonds in both types of compounds is due to the compensation of bond breaking by the stabilization of the reaction products, viz., an olefin molecule or the cyclohexadiene ring of a quinoid. The proximity of the DC—H values in these adducts and the significant difference (∼50 kJ mol−1) between these values and the strength of the C—H bond in the adduct of atomic hydrogen with a benzene molecule confirms the fact that quinones and quinone imines are not aromatic compounds. The obtained DC—H values are required for the quantitative interpretation of the kinetic regularities found for the chain reactions of thiols with quinoids, as well as the catalysis of these reactions at the stage of chain propagation under the action of compounds with X—H groups (X = O, S, etc.). [ABSTRACT FROM AUTHOR]

Published

2024

40. Metabolic stress-induced long ncRNA transcription governs the formation of meiotic DNA breaks in the fission yeast fbp1 gene.

Author

Tsuruta, Yusuke, Senmatsu, Satoshi, Oe, Hana, Hoffman, Charles S., and Hirota, Kouji

Subjects

*NON-coding RNA, *GENETIC variation, *DNA, *CHROMOSOME segregation, *YEAST, *DNA adducts

Abstract

Meiotic recombination is a pivotal process that ensures faithful chromosome segregation and contributes to the generation of genetic diversity in offspring, which is initiated by the formation of double-strand breaks (DSBs). The distribution of meiotic DSBs is not uniform and is clustered at hotspots, which can be affected by environmental conditions. Here, we show that non-coding RNA (ncRNA) transcription creates meiotic DSBs through local chromatin remodeling in the fission yeast fbp1 gene. The fbp1 gene is activated upon glucose starvation stress, in which a cascade of ncRNA-transcription in the fbp1 upstream region converts the chromatin configuration into an open structure, leading to the subsequent binding of transcription factors. We examined the distribution of meiotic DSBs around the fbp1 upstream region in the presence and absence of glucose and observed several new DSBs after chromatin conversion under glucose starvation conditions. Moreover, these DSBs disappeared when cis-elements required for ncRNA transcription were mutated. These results indicate that ncRNA transcription creates meiotic DSBs in response to stress conditions in the fbp1 upstream region. This study addressed part of a long-standing unresolved mechanism underlying meiotic recombination plasticity in response to environmental fluctuation. [ABSTRACT FROM AUTHOR]

Published

2024

41. Quo Vadis CO2 Activation: Catalytic Reduction of CO2 to Methanol Using Aluminum and Gallium/Carbon‐based Ambiphiles.

Author

Krämer, Felix, Paradies, Jan, Fernández, Israel, and Breher, Frank

Subjects

*CATALYTIC reduction, *LEWIS pairs (Chemistry), *ALUMINUM, *LEWIS acids, *CARBON dioxide, *METHANOL, *DNA adducts

Abstract

We report on so‐called "hidden FLPs" (FLP: frustrated Lewis pair) consisting of a phosphorus ylide featuring a group 13 fragment in the ortho position of a phenyl ring scaffold to form five‐membered ring structures. Although the formation of the Lewis acid/base adducts was observed in the solid state, most of the title compounds readily react with carbon dioxide to provide stable insertion products. Strikingly, 0.3–3.0 mol% of the reported aluminum and gallium/carbon‐based ambiphiles catalyze the reduction of CO2 to methanol with satisfactory high selectivity and yields using pinacol borane as stoichiometric reduction equivalent. Comprehensive computational studies provided valuable mechanistic insights and shed more light on activity differences. [ABSTRACT FROM AUTHOR]

Published

2024

42. Regulation of Benzo[a]pyrene-Induced Hepatic Lipid Accumulation through CYP1B1-Induced mTOR-Mediated Lipophagy.

Author

Bu, Kyung-Bin, Kim, Min, Shin, Min Kyoung, Lee, Seung-Ho, and Sung, Jung-Suk

Subjects

*ARYL hydrocarbon receptors, *POLYCYCLIC aromatic hydrocarbons, *DNA adducts, *LIPIDS, *CYTOCHROME P-450, *NON-alcoholic fatty liver disease

Abstract

Metabolic dysfunction-associated steatotic liver disease (MASLD) is caused by lipid accumulation within the liver. The pathogenesis underlying its development is poorly understood. Benzo[a]pyrene (B[a]P) is a polycyclic aromatic hydrocarbon and a group 1 carcinogen. The aryl hydrocarbon receptor activation by B[a]P induces cytochrome P450 (CYP) enzymes, contributing to hepatic lipid accumulation. However, the molecular mechanism through which the B[a]P-mediated induction of CYP enzymes causes hepatic lipid accumulation is unknown. This research was conducted to elucidate the role of CYP1B1 in regulating B[a]P-induced lipid accumulation within hepatocytes. B[a]P increased hepatic lipid accumulation, which was mitigated by CYP1B1 knockdown. An increase in the mammalian target of rapamycin (mTOR) by B[a]P was specifically reduced by CYP1B1 knockdown. The reduction of mTOR increased the expression of autophagic flux-related genes and promoted phagolysosome formation. Both the expression and translocation of TFE3, a central regulator of lipophagy, were induced, along with the expression of lipophagy-related genes. Conversely, enhanced mTOR activity reduced TFE3 expression and translocation, which reduced the expression of lipophagy-related genes, diminished phagolysosome production, and increased lipid accumulation. Our results indicate that B[a]P-induced hepatic lipid accumulation is caused by CYP1B1-induced mTOR and the reduction of lipophagy, thereby introducing novel targets and mechanisms to provide insights for understanding B[a]P-induced MASLD. [ABSTRACT FROM AUTHOR]

Published

2024

43. A comparison of the exposure system of glycidol‐related chemicals on the formation of glycidol‐hemoglobin adducts.

Author

Shimamura, Yuko, Wada, Yuri, Tashiro, Moeka, Honda, Hiroshi, and Masuda, Shuichi

Subjects

*DNA adducts, *CHEMICAL systems, *MOLARITY, *FATTY acid esters, *ACRYLIC acid, *LABORATORY mice, *BLOOD proteins

Abstract

Glycidol fatty acid esters that are present in foods are degraded in vivo to the animal carcinogen glycidol, which binds to the N‐terminal valine of hemoglobin (Hb) to form N‐(2,3‐dihydroxypropyl)valine (diHOPrVal) adducts. The existence of other chemicals that are converted to glycidol is unknown. To determine the effect of different exposure conditions on the formation of diHOPrVal adducts, several glycidol‐related chemicals (3‐monochloropropane‐1,2‐diol; 3‐MCPD, epichlorohydrin, glyceraldehyde, acrylic acid, and 1,2‐propanediol) were evaluated using in vitro and in vivo (single/repeated dose) methods. In vitro, the reaction of 3‐MCPD or epichlorohydrin with human Hb produced 17% and 0.7% of diHOPrVal, as compared to equimolar glycidol, respectively. Following a single administration of glycidol‐related compounds to ICR mice, diHOPrVal formation was observed only in the epichlorohydrin‐treated group after day 5 of exposure. After 14 days of repeated dosing, the amounts of diHOPrVal produced by epichlorohydrin and 3‐MCPD in vivo were <1% of diHOPrVal produced by an equal molar concentration of glycidol. Furthermore, glyceraldehyde group produced 0.2% of diHOPrVal at the same molar concentration of glycidol equivalents, in which diHOPrVal formation could not be confirmed by the in vitro assay. The results indicate the usefulness of diHOPrVal as an exposure marker for glycidol; however, the contribution of its formation in vivo by exposure to various chemicals will be necessary to validate and interpret the results. [ABSTRACT FROM AUTHOR]

Published

2024

44. Evaluation of the Drug-Induced Liver Injury Potential of Saxagliptin through Reactive Metabolite Identification in Rats.

Author

Kim, Ki-Young, Jeong, Yeo-Jin, Park, So-Young, Park, Eun-Ji, Jeon, Ji-Hyeon, Song, Im-Sook, and Liu, Kwang-Hyeon

Subjects

*LIVER injuries, *DNA adducts, *TYPE 2 diabetes, *DRUG side effects, *CD26 antigen, *RATS, *THIOLS

Abstract

A liver injury was recently reported for saxagliptin, which is a dipeptidyl peptidase-4 (DPP-4) inhibitor. However, the underlying mechanisms of saxagliptin-induced liver injury remain unknown. This study aimed to evaluate whether saxagliptin, a potent and selective DPP-4 inhibitor that is globally used for treating type 2 diabetes mellitus, binds to the nucleophiles in vitro. Four DPP-4 inhibitors, including vildagliptin, were evaluated for comparison. Only saxagliptin and vildagliptin, which both contain a cyanopyrrolidine group, quickly reacted with L-cysteine to enzyme-independently produce thiazolinic acid metabolites. This saxagliptin–cysteine adduct was also found in saxagliptin-administered male Sprague–Dawley rats. In addition, this study newly identified cysteinyl glycine conjugates of saxagliptin and 5-hydroxysaxagliptin. The observed metabolic pathways were hydroxylation and conjugation with cysteine, glutathione, sulfate, and glucuronide. In summary, we determined four new thiazoline-containing thiol metabolites (cysteine and cysteinylglycine conjugates of saxagliptin and 5-hydroxysaxagliptin) in saxagliptin-administered male rats. Our results reveal that saxagliptin can covalently bind to the thiol groups of cysteine residues of endogenous proteins in vivo, indicating the potential for saxagliptin to cause drug-induced liver injury. [ABSTRACT FROM AUTHOR]

Published

2024

45. Estimating the Impact of Gamma Radiation on Biochemical Aspects and DNA Damage by Comet Assay in Galleria mellonella Male.

Author

Afify, Amira, Ali, Hanaa M., and Sayed, Rehab M.

Subjects

*GREATER wax moth, *GAMMA rays, *DNA damage, *IRRADIATION, *FATTY acids, *MALES, *DNA adducts

Abstract

The current study aimed to determine the DNA damage; variations induced in elemental contents as well as and fatty acids profile in Galleria mellonella male adults body tissues irradiated as pupae with sterilizing and sub sterilizing doses. Data from the present study revealed that DNA damage was directly dependant upon to the irradiation dose. It was found that the free fatty acids declined in males after irradiation with the sub sterilizing dose 100Gy while the free fatty acids raised after irradiation with the sterilizing dose 260Gy when compared to the unirradiated males. The results investigated the presence of 13 elements in both normal and irradiated males. Carbon and nitrogen elements were the most dominant elements; while chloride, silicon and calcium were the least elements. Moreover, some elements increased and others decreased as a result of the irradiation. Therefore, it can be concluded that these techniques can contribute to the separation of irradiated and non-irradiated males in sterile males' programs. [ABSTRACT FROM AUTHOR]

Published

2024

46. Optimised Fermentation Production of Radiolabelled Ochratoxin A by Aspergillus ochraceus with Maximum 14 C in the Pentaketide Moiety for Exploring Its Rat Renal Toxicology.

Author

Mantle, Peter

Subjects

*NEPHROTOXICOLOGY, *OCHRATOXINS, *DNA adducts, *FERMENTATION, *MOIETIES (Chemistry), *LITERATURE reviews, *ASPERGILLUS, *CACAO beans

Abstract

In the context of the mysterious Balkan endemic nephropathy of the 1900s, and the discovery in the 1960s of the potent mycotoxin ochratoxin A, experimental research projects sought to explore any inter-relationship. Experimental lifetime administration of the toxin to male rats had revealed renal DNA adducts with the toxin, correlated with renal tumours, confirmation of which required molecular evidence. Consequently, production of 14C-ochratoxin A of a high specific radioactivity was required, practical biosynthetic detail of which had not previously been published. A fermentation study of Aspergillus ochraceous was carried out during 2002 for a European project, to select for the production of high-quality 14C-ochratoxin A, necessarily exploring for the maximum diversion of 14C-sodium acetate into the pentaketide portion of mycotoxin. Experimentation necessarily had to optimise the competitive context of fungal growth dynamics and addition of the biosynthetic precursor in the early days of shaken-flask fermentation before adding the radiolabelled precursor. From optimal fermentation, 50 mg of the 14C ochratoxin A was supplied within a European project for DNA adduct experimentation, but that proved negative as subsequently published. Experimental description of the radiolabelled ochratoxin A production was later made in a doctoral thesis, but is first publicised here. Further review of the literature reveals an explanation for the published failure to confirm rat DNA/ochratoxin A adduct formation, for which further experimentation is now recommended. [ABSTRACT FROM AUTHOR]

Published

2024

47. The synergistic action of silver nanoparticles and ceftazidime against antibiotic-resistant Burkholderia pseudomallei: A modifying treatment.

Author

Tun, Wonn Shweyi Thet, Hongsing, Nuttaya, Sirithongsuk, Pawinee, Nasompak, Sawinee, Daduang, Sakda, Klaynongsruang, Sompong, Taweechaisupapong, Suwimol, Chareonsudjai, Sorujsiri, Prangkio, Panchika, Kosolwattana, Suppanat, and Patramanon, Rina

Subjects

*BURKHOLDERIA pseudomallei, *SILVER nanoparticles, *CEFTAZIDIME, *ATOMIC force microscopes, *BACTERIAL cell membranes, *PEMETREXED, *DNA adducts

Abstract

Burkholderia pseudomallei is responsible for melioidosis, a tropical disease that is difficult to treat with conventional antibiotics. Silver nanoparticles (AgNPs) have strong antibacterial properties and are effective against B. pseudomalle i. This study investigated the synergistic effect of AgNPs and ceftazidime (CAZ) against B. pseudomallei 316c and H777 strains. The combined use of AgNPs and CAZ showed significantly higher growth inhibition of B. pseudomallei than when used individually. Reactive Oxygen Species (ROS) production and protein leakage analysis revealed that the combined AgNPs-CAZ induced ROS, which had a strong effect. Atomic Force Microscope (AFM) was used to investigate the morphology of B. pseudomallei H777, which showed that the surface membrane of bacterial cells was severely damaged after treatment with the combined AgNPs-CAZ. The combined AgNPs-CAZ treatment was also non-toxic to human lung adenocarcinoma epithelial cells (A549) at low concentrations, with no changes in morphology observed. These findings suggest that combining AgNPs and CAZ could be a promising treatment for melioidosis. • The combined AgNPs-CAZ caused damage to the bacterial cytoplasmic membrane of B. pseudomallei. • The combined AgNPs-CAZ induced reactive oxygen species which caused cell death by reacting with DNA, proteins, and lipids of B. pseudomallei. • The combined AgNPs-CAZ resulted in decreased cytotoxicity in the human lung adenocarcinoma epithelial cell line (A549). [ABSTRACT FROM AUTHOR]

Published

2024

48. Regulation of long non-coding RNA expression by aryl hydrocarbon receptor activation.

Author

Alluli, Aeshah, Fonseca, Gregory, Matthews, Jason, Eidelman, David H., and Baglole, Carolyn J.

Subjects

*GENE expression, *LINCRNA, *RNA regulation, *CYTOCHROME P-450, *DNA adducts, *RNA sequencing, *ARYL hydrocarbon receptors

Abstract

The aryl hydrocarbon receptor (AhR) is a cytosolic transcription factor that can be activated by endogenous or xenobiotic ligands. Upon activation, the AhR translocates to the nucleus, dimerizes with the AhR nuclear translator (ARNT), and binds to specific DNA sequences called xenobiotic response elements (XRE) to promote target gene transcription, including cytochrome P450 (e.g. , CYP1A1) expression. In addition to mRNA, the AhR may also regulate long non-coding RNA (lncRNA) expression. lncRNA are transcripts more than 200 nucleotides in length that do not encode a protein. Herein, we tested whether AhR activation regulates the expression of lncRNA in response to benzo[ a ]pyrene (B[ a ]P) using RNA sequencing (RNA-seq). We found that many lncRNA (e.g., SATB1-AS1, MIR4290HG, AC008969.1, LINC01533, VIPR1-AS1) and protein-coding RNA (e.g. , CYP1A1 , BX005266.2 , AQP3 , BTG2 , DCX , and AhRR) were differentially expressed (DE) in A549 cells treated with B[ a ]P; many of these genes were dependent on AhR expression including CYP1A1 , CYP1B1 and TiPARP. GO analyses indicated that DE protein-coding RNAs in A549WT cells are associated with distinct molecular functions compared to A549KO cells. KEGG analyses showed the hsa01100 pathway was associated with DE lncRNA only in A549WT cells. A549KO cells treated with B[ a ]P exhibited a distinct set of differentially-regulated lncRNA including upregulation of HOTAIR. We further confirmed that despite AhR activation in A549WT cells, B[ a ]P did not alter the expression of many well-characterized lncRNA including NEAT1, HOTTIP, SOX2OT, MALAT1, H19, and Linc00673. Thus, there is control over select lncRNA expression in A549 cells exposed to B[ a ]P, a finding which could yield insight into the molecular function of the AhR. • The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor that responds to environmental chemicals. • The AhR drives the expression of drug metabolizing enzymes such as CYP1A1. • AhR activation regulates the expression of lncRNA in response to the carcinogen benzo[ a ]pyrene. • Regulation of lncRNA may be how the AhR fine-tunes cellular versus toxicological responses [ABSTRACT FROM AUTHOR]

Published

2024

49. Molecular Dynamics Investigations of Human DNA-Topoisomerase I Interacting with Novel Dewar Valence Photo-Adducts: Insights into Inhibitory Activity.

Author

Di Martino, Jessica, Arcieri, Manuel, Madeddu, Francesco, Pieroni, Michele, Carotenuto, Giovanni, Bottoni, Paolo, Botta, Lorenzo, Castrignanò, Tiziana, Gabellone, Sofia, and Saladino, Raffaele

Subjects

*DNA topoisomerase I, *MOLECULAR dynamics, *DNA adducts, *HUMAN DNA, *STANDARD deviations, *HYDROPHOBIC interactions, *HYDROGEN bonding

Abstract

Chronic exposure to ultraviolet (UV) radiation is known to induce the formation of DNA photo-adducts, including cyclobutane pyrimidine dimers (CPDs) and Dewar valence derivatives (DVs). While CPDs usually occur at higher frequency than DVs, recent studies have shown that the latter display superior selectivity and significant stability in interaction with the human DNA/topoisomerase 1 complex (TOP1). With the aim to deeply investigate the mechanism of interaction of DVs with TOP1, we report here four all-atom molecular dynamic simulations spanning one microsecond. These simulations are focused on the stability and conformational changes of two DNA/TOP1-DV complexes in solution, the data being compared with the biomimetic thymine dimer counterparts. Results from root-mean-square deviation (RMSD) and root-mean-square fluctuation (RMSF) analyses unequivocally confirmed increased stability of the DNA/TOP1-DV complexes throughout the simulation duration. Detailed interaction analyses, uncovering the presence of salt bridges, hydrogen bonds, water-mediated interactions, and hydrophobic interactions, as well as pinpointing the non-covalent interactions within the complexes, enabled the identification of specific TOP1 residues involved in the interactions over time and suggested a potential TOP1 inhibition mechanism in action. [ABSTRACT FROM AUTHOR]

Published

2024

50. Risk Screening of Invasive Aquatic Species and a Survey of Fish Diversity Using Environmental DNA Metabarcoding Analysis in Shanghai.

Author

Yu, Ruohan, Wu, Qianqian, Li, Fan, Zhan, Aibin, Zhou, Jinxin, and Li, Shan

Subjects

*DNA analysis, *FISH diversity, *FISH surveys, *INTRODUCED aquatic species, *INTRODUCED species, *DNA adducts

Abstract

As the largest coastal city in China, Shanghai's rapid development in transportation, tourism, trade, and commerce has facilitated the spread and invasion of non-native aquatic organisms. Aquatic organisms are highly elusive, and once established, eradicating them becomes a challenging task. Currently, our understanding of the invasion risk posed by non-native aquatic species in Shanghai is limited. Therefore, it is imperative to investigate the pathways of introduction, distribution, and dispersion and the invasion risk and impacts of non-native aquatic organisms in Shanghai. This study investigated aquatic organisms in Shanghai's primary water bodies, including Huangpu River, Suzhou River, and Dianshan Lake. The risk assessment was conducted using the Aquatic Species Invasiveness Screening Kit (AS-ISK), and field monitoring was performed with environmental DNA (eDNA) technology. Results of the risk assessment indicate that among the 21 evaluated species, 9 fall into the medium-to-high-risk category with scores ≥26, while 12 are classified as low-risk with scores <26. The top four species with the highest invasion risk are Gambusia affinis, Pomacea canaliculata, Lepomis macrochirus, and Coptodon zillii. This study identified 54 fish species belonging to seven orders, 16 families, and 42 genera at 16 sampling sites in Shanghai, among which Channa maculata, Micropterus salmoides, and Misgurnus bipartitus are non-native. The results suggest that Shanghai faces a high invasion risk of aquatic species, necessitating enhanced scientific prevention and control measures. Early monitoring is essential for species with medium-to-high invasion risk, and a further evaluation and analysis of the risks associated with introduced fish species already present in Shanghai are recommended for aquaculture practices. [ABSTRACT FROM AUTHOR]

Published

2024