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1.
Nucleic Acids Res ; 52(11): 6424-6440, 2024 Jun 24.
Article in English | MEDLINE | ID: mdl-38801073

ABSTRACT

TIMELESS (TIM) in the fork protection complex acts as a scaffold of the replisome to prevent its uncoupling and ensure efficient DNA replication fork progression. Nevertheless, its underlying basis for coordinating leading and lagging strand synthesis to limit single-stranded DNA (ssDNA) exposure remains elusive. Here, we demonstrate that acute degradation of TIM at ongoing DNA replication forks induces the accumulation of ssDNA gaps stemming from defective Okazaki fragment (OF) processing. Cells devoid of TIM fail to support the poly(ADP-ribosyl)ation necessary for backing up the canonical OF processing mechanism mediated by LIG1 and FEN1. Consequently, recruitment of XRCC1, a known effector of PARP1-dependent single-strand break repair, to post-replicative ssDNA gaps behind replication forks is impaired. Physical disruption of the TIM-PARP1 complex phenocopies the rapid loss of TIM, indicating that the TIM-PARP1 interaction is critical for the activation of this compensatory pathway. Accordingly, combined deficiency of FEN1 and the TIM-PARP1 interaction leads to synergistic DNA damage and cytotoxicity. We propose that TIM is essential for the engagement of PARP1 to the replisome to coordinate lagging strand synthesis with replication fork progression. Our study identifies TIM as a synthetic lethal target of OF processing enzymes that can be exploited for cancer therapy.


Subject(s)
Cell Cycle Proteins , DNA Replication , DNA, Single-Stranded , Intracellular Signaling Peptides and Proteins , Poly (ADP-Ribose) Polymerase-1 , Humans , Cell Cycle Proteins/metabolism , Cell Cycle Proteins/genetics , DNA/metabolism , DNA/genetics , DNA Ligase ATP/metabolism , DNA Ligase ATP/genetics , DNA Repair , DNA, Single-Stranded/metabolism , DNA, Single-Stranded/genetics , DNA-Binding Proteins/metabolism , DNA-Binding Proteins/genetics , Flap Endonucleases/metabolism , Flap Endonucleases/genetics , Intracellular Signaling Peptides and Proteins/metabolism , Intracellular Signaling Peptides and Proteins/genetics , Poly (ADP-Ribose) Polymerase-1/metabolism , Poly (ADP-Ribose) Polymerase-1/genetics , X-ray Repair Cross Complementing Protein 1/metabolism , X-ray Repair Cross Complementing Protein 1/genetics
2.
Nucleic Acids Res ; 51(12): 6246-6263, 2023 07 07.
Article in English | MEDLINE | ID: mdl-37144518

ABSTRACT

The structure of DNA replication forks is preserved by TIMELESS (TIM) in the fork protection complex (FPC) to support seamless fork progression. While the scaffolding role of the FPC to couple the replisome activity is much appreciated, the detailed mechanism whereby inherent replication fork damage is sensed and counteracted during DNA replication remains largely elusive. Here, we implemented an auxin-based degron system that rapidly triggers inducible proteolysis of TIM as a source of endogenous DNA replication stress and replisome dysfunction to dissect the signaling events that unfold at stalled forks. We demonstrate that acute TIM degradation activates the ATR-CHK1 checkpoint, whose inhibition culminates in replication catastrophe by single-stranded DNA accumulation and RPA exhaustion. Mechanistically, unrestrained replisome uncoupling, excessive origin firing, and aberrant reversed fork processing account for the synergistic fork instability. Simultaneous TIM loss and ATR inactivation triggers DNA-PK-dependent CHK1 activation, which is unexpectedly necessary for promoting fork breakage by MRE11 and catastrophic cell death. We propose that acute replisome dysfunction results in a hyper-dependency on ATR to activate local and global fork stabilization mechanisms to counteract irreversible fork collapse. Our study identifies TIM as a point of replication vulnerability in cancer that can be exploited with ATR inhibitors.


Subject(s)
Ataxia Telangiectasia Mutated Proteins , Cell Cycle Proteins , DNA Replication , Ataxia Telangiectasia Mutated Proteins/metabolism , Cell Cycle Proteins/metabolism , Checkpoint Kinase 1/metabolism , Nuclear Proteins/metabolism , Humans
3.
Cell Mol Life Sci ; 80(4): 84, 2023 Mar 09.
Article in English | MEDLINE | ID: mdl-36892674

ABSTRACT

Accurate replication of the genome is fundamental to cellular survival and tumor prevention. The DNA replication fork is vulnerable to DNA lesions and damages that impair replisome progression, and improper control over DNA replication stress inevitably causes fork stalling and collapse, a major source of genome instability that fuels tumorigenesis. The integrity of the DNA replication fork is maintained by the fork protection complex (FPC), in which TIMELESS (TIM) constitutes a key scaffold that couples the CMG helicase and replicative polymerase activities, in conjunction with its interaction with other proteins associated with the replication machinery. Loss of TIM or the FPC in general results in impaired fork progression, elevated fork stalling and breakage, and a defect in replication checkpoint activation, thus underscoring its pivotal role in protecting the integrity of both active and stalled replication forks. TIM is upregulated in multiple cancers, which may represent a replication vulnerability of cancer cells that could be exploited for new therapies. Here, we discuss recent advances on our understanding of the multifaceted roles of TIM in DNA replication and stalled fork protection, and how its complex functions are engaged in collaboration with other genome surveillance and maintenance factors.


Subject(s)
DNA Replication , DNA , DNA/metabolism , DNA-Binding Proteins/genetics , DNA Helicases/genetics , Cell Cycle Proteins/metabolism
4.
Sensors (Basel) ; 24(19)2024 Oct 01.
Article in English | MEDLINE | ID: mdl-39409420

ABSTRACT

The leave-one-out (LOO) green fluorescent protein (GFP) approach to biosensor design combines computational protein design with split protein reconstitution. LOO-GFPs reversibly fold and gain fluorescence upon encountering the target peptide, which can be redefined by computational design of the LOO site. Such an approach can be used to create reusable biosensors for the early detection of emerging biological threats. Enlightening biophysical inferences for nine LOO-GFP biosensor libraries are presented, with target sequences from dengue, influenza, or HIV, replacing beta strands 7, 8, or 11. An initially low hit rate was traced to components of the energy function, manifesting in the over-rewarding of over-tight side chain packing. Also, screening by colony picking required a low library complexity, but designing a biosensor against a peptide of at least 12 residues requires a high-complexity library. This double-bind was solved using a "piecemeal" iterative design strategy. Also, designed LOO-GFPs fluoresced in the unbound state due to unwanted dimerization, but this was solved by fusing a fully functional prototype LOO-GFP to a fiber-forming protein, Drosophila ultrabithorax, creating a biosensor fiber. One influenza hemagglutinin biosensor is characterized here in detail, showing a shifted excitation/emission spectrum, a micromolar affinity for the target peptide, and an unexpected photo-switching ability.


Subject(s)
Biosensing Techniques , Green Fluorescent Proteins , Biosensing Techniques/methods , Green Fluorescent Proteins/genetics , Green Fluorescent Proteins/chemistry , Green Fluorescent Proteins/metabolism , Hemagglutinin Glycoproteins, Influenza Virus/genetics
5.
Int J Mol Sci ; 24(13)2023 Jun 22.
Article in English | MEDLINE | ID: mdl-37445667

ABSTRACT

DNA replication is a tightly controlled process that ensures the faithful duplication of the genome. However, DNA damage arising from both endogenous and exogenous assaults gives rise to DNA replication stress associated with replication fork slowing or stalling. Therefore, protecting the stressed fork while prompting its recovery to complete DNA replication is critical for safeguarding genomic integrity and cell survival. Specifically, the plasticity of the replication fork in engaging distinct DNA damage tolerance mechanisms, including fork reversal, repriming, and translesion DNA synthesis, enables cells to overcome a variety of replication obstacles. Furthermore, stretches of single-stranded DNA generated upon fork stalling trigger the activation of the ATR kinase, which coordinates the cellular responses to replication stress by stabilizing the replication fork, promoting DNA repair, and controlling cell cycle and replication origin firing. Deregulation of the ATR checkpoint and aberrant levels of chronic replication stress is a common characteristic of cancer and a point of vulnerability being exploited in cancer therapy. Here, we discuss the various adaptive responses of a replication fork to replication stress and the roles of ATR signaling that bring fork stabilization mechanisms together. We also review how this knowledge is being harnessed for the development of checkpoint inhibitors to trigger the replication catastrophe of cancer cells.


Subject(s)
DNA Repair , DNA Replication , Ataxia Telangiectasia Mutated Proteins/genetics , Ataxia Telangiectasia Mutated Proteins/metabolism , Cell Cycle , DNA , DNA Damage , Checkpoint Kinase 1/metabolism
6.
Andrologia ; 53(2): e13938, 2021 Mar.
Article in English | MEDLINE | ID: mdl-33377541

ABSTRACT

Seminal oxidative stress (OS) is a major contributing factor to male infertility. Semen analysis cannot identify reactive oxygen species (ROS), which can be measured using a chemiluminescence assay. Measurement of redox potential provides a more comprehensive assessment of OS, although the test has yet to be fully validated. This study aimed to validate the MiOXsys analyser for measuring static oxidation-reduction potential (sORP). Results demonstrated that duplicate measurements must be taken, sensors must be batch tested, and sockets should be regularly changed to avoid inconsistency in measurement. Measurement of sORP using MiOXsys exhibited good reproducibility across different operators (p = 0.469), analysers (p = 0.963) and days (p = 0.942). It is not affected by mechanical agitation (p = 0.522) or snap freezing and thawing (p = 0.823). The stability of sORP over time requires further verification, particularly in samples with high initial sORP. Measurement is temperature sensitive between 2 and 37°C, significantly increasing with increasing temperature (p = 0.0004). MiOXsys is a more stable assay for assessing OS than chemiluminescence methods and permits greater flexibility for sample handling. MiOXsys could be implemented to complement semen analysis as part of routine diagnostic testing for male infertility and may be useful in identifying contributing factors to idiopathic infertility.


Subject(s)
Infertility, Male , Semen , Humans , Infertility, Male/diagnosis , Infertility, Male/metabolism , Male , Oxidation-Reduction , Oxidative Stress , Reactive Oxygen Species/metabolism , Reproducibility of Results , Semen Analysis , Spermatozoa/metabolism
7.
Infancy ; 26(5): 724-734, 2021 09.
Article in English | MEDLINE | ID: mdl-34288359

ABSTRACT

Behavioral and emotional problems in infants and toddlers are common, often persist and put children at risk of later mental health problems. Reliable, efficient, and sensitive tools are needed to identify young children who may benefit from further assessment and support. The Strengths and Difficulties Questionnaire (SDQ), offers a brief, convenient means of screening for early problems, however, it lacks psychometric validation in infants. The aim of this study was to assess the validity and reliability of the SDQ in children aged 12-24 months. Ninety-three participants, with children aged 12-24 months, completed the SDQ and Child Behavior Checklist (CBCL) online. Concurrent validity of the SDQ was assessed through comparison with the CBCL. The results demonstrated that key subscales of the SDQ and CBCL were significantly correlated (r range= -.19 to -.57). Key SDQ subscales showed moderate reliability (Cronbach's alpha range = .38-.79, mean inter-item correlation range = .06-.43). The SDQ shows promising reliability and validity as a measure for rating the behavior of 12-24-months-old children, particularly for externalizing symptoms. Further research is needed to assess its predictive utility.


Subject(s)
Child Behavior Disorders , Behavior Rating Scale , Child , Child Behavior Disorders/diagnosis , Child, Preschool , Humans , Infant , Psychometrics , Reproducibility of Results , Surveys and Questionnaires
8.
Neurobiol Dis ; 135: 104352, 2020 02.
Article in English | MEDLINE | ID: mdl-30579705

ABSTRACT

Recent evidence provides support for involvement of the microbiota-gut-brain axis in Parkinson's disease (PD) pathogenesis. We propose that a pro-inflammatory intestinal milieu, due to intestinal hyper-permeability and/or microbial dysbiosis, initiates or exacerbates PD pathogenesis. One factor that can cause intestinal hyper-permeability and dysbiosis is chronic stress which has been shown to accelerate neuronal degeneration and motor deficits in Parkinsonism rodent models. We hypothesized that stress-induced intestinal barrier dysfunction and microbial dysbiosis lead to a pro-inflammatory milieu that exacerbates the PD phenotype in the low-dose oral rotenone PD mice model. To test this hypothesis, mice received unpredictable restraint stress (RS) for 12 weeks, and during the last six weeks mice also received a daily administration of low-dose rotenone (10 mg/kg/day) orally. The initial six weeks of RS caused significantly higher urinary cortisol, intestinal hyperpermeability, and decreased abundance of putative "anti-inflammatory" bacteria (Lactobacillus) compared to non-stressed mice. Rotenone alone (i.e., without RS) disrupted the colonic expression of the tight junction protein ZO-1, increased oxidative stress (N-tyrosine), increased myenteric plexus enteric glial cell GFAP expression and increased α-synuclein (α-syn) protein levels in the colon compared to controls. Restraint stress exacerbated these rotenone-induced changes. Specifically, RS potentiated rotenone-induced effects in the colon including: 1) intestinal hyper-permeability, 2) disruption of tight junction proteins (ZO-1, Occludin, Claudin1), 3) oxidative stress (N-tyrosine), 4) inflammation in glial cells (GFAP + enteric glia cells), 5) α-syn, 6) increased relative abundance of fecal Akkermansia (mucin-degrading Gram-negative bacteria), and 7) endotoxemia. In addition, RS promoted a number of rotenone-induced effects in the brain including: 1) reduced number of resting microglia and a higher number of dystrophic/phagocytic microglia as well as (FJ-C+) dying cells in the substantia nigra (SN), 2) increased lipopolysaccharide (LPS) reactivity in the SN, and 3) reduced dopamine (DA) and DA metabolites (DOPAC, HVA) in the striatum compared to control mice. Our findings support a model in which chronic stress-induced, gut-derived, pro-inflammatory milieu exacerbates the PD phenotype via a dysfunctional microbiota-gut-brain axis.


Subject(s)
Gastrointestinal Diseases/complications , Gastrointestinal Microbiome/drug effects , Parkinson Disease/pathology , Rotenone/pharmacology , Animals , Brain/drug effects , Brain/metabolism , Disease Models, Animal , Gastrointestinal Diseases/chemically induced , Humans , Parkinson Disease/complications
9.
Int J Mol Sci ; 21(1)2019 Dec 23.
Article in English | MEDLINE | ID: mdl-31878088

ABSTRACT

Tyrosyl-DNA phosphodiesterase 1 (Tdp1) is an important DNA repair enzyme in humans, and a current and promising inhibition target for the development of new chemosensitizing agents due to its ability to remove DNA damage caused by topoisomerase 1 (Top1) poisons such as topotecan and irinotecan. Herein, we report our work on the synthesis and characterization of new Tdp1 inhibitors that combine the arylcoumarin (neoflavonoid) and monoterpenoid moieties. Our results showed that they are potent Tdp1 inhibitors with IC50 values in the submicromolar range. In vivo experiments with mice revealed that compound 3ba (IC50 0.62 µM) induced a significant increase in the antitumor effect of topotecan on the Krebs-2 ascites tumor model. Our results further strengthen the argument that Tdp1 is a druggable target with the potential to be developed into a clinically-potent adjunct therapy in conjunction with Top1 poisons.


Subject(s)
Carcinoma, Krebs 2/drug therapy , Carcinoma, Lewis Lung/drug therapy , Monoterpenes , Neoplasm Proteins , Phosphodiesterase Inhibitors , Phosphoric Diester Hydrolases/metabolism , Animals , Carcinoma, Krebs 2/enzymology , Carcinoma, Krebs 2/pathology , Carcinoma, Lewis Lung/enzymology , Carcinoma, Lewis Lung/pathology , Female , Humans , MCF-7 Cells , Male , Mice , Monoterpenes/chemical synthesis , Monoterpenes/chemistry , Monoterpenes/pharmacology , Neoplasm Proteins/antagonists & inhibitors , Neoplasm Proteins/metabolism , Phosphodiesterase Inhibitors/chemical synthesis , Phosphodiesterase Inhibitors/chemistry , Phosphodiesterase Inhibitors/pharmacology , Structure-Activity Relationship
10.
Molecules ; 24(20)2019 Oct 15.
Article in English | MEDLINE | ID: mdl-31619021

ABSTRACT

Tyrosyl-DNA phosphodiesterase 1 (Tdp1) is a promising therapeutic target in cancer therapy. Combination chemotherapy using Tdp1 inhibitors as a component can potentially improve therapeutic response to many chemotherapeutic regimes. A new set of usnic acid derivatives with hydrazonothiazole pharmacophore moieties were synthesized and evaluated as Tdp1 inhibitors. Most of these compounds were found to be potent inhibitors with IC50 values in the low nanomolar range. The activity of the compounds was verified by binding experiments and supported by molecular modeling. The ability of the most effective inhibitors, used at non-toxic concentrations, to sensitize tumors to the anticancer drug topotecan was also demonstrated. The order of administration of the inhibitor and topotecan on their synergistic effect was studied, suggesting that prior or simultaneous introduction of the inhibitor with topotecan is the most effective.


Subject(s)
Benzofurans/chemistry , Benzofurans/pharmacology , Phosphodiesterase Inhibitors/chemistry , Phosphodiesterase Inhibitors/pharmacology , Thiazoles/chemistry , Thiazoles/pharmacology , Cell Survival/drug effects , Dose-Response Relationship, Drug , Humans , Models, Molecular , Molecular Conformation , Molecular Structure , Phosphoric Diester Hydrolases , Protein Binding , Structure-Activity Relationship
11.
Mol Cell Proteomics ; 15(5): 1622-41, 2016 05.
Article in English | MEDLINE | ID: mdl-26912667

ABSTRACT

Profiling post-translational modifications represents an alternative dimension to gene expression data in characterizing cellular processes. Many cellular responses to drugs are mediated by changes in cellular phosphosignaling. We sought to develop a common platform on which phosphosignaling responses could be profiled across thousands of samples, and created a targeted MS assay that profiles a reduced-representation set of phosphopeptides that we show to be strong indicators of responses to chemical perturbagens.To develop the assay, we investigated the coordinate regulation of phosphosites in samples derived from three cell lines treated with 26 different bioactive small molecules. Phosphopeptide analytes were selected from these discovery studies by clustering and picking 1 to 2 proxy members from each cluster. A quantitative, targeted parallel reaction monitoring assay was developed to directly measure 96 reduced-representation probes. Sample processing for proteolytic digestion, protein quantification, peptide desalting, and phosphopeptide enrichment have been fully automated, making possible the simultaneous processing of 96 samples in only 3 days, with a plate phosphopeptide enrichment variance of 12%. This highly reproducible process allowed ∼95% of the reduced-representation phosphopeptide probes to be detected in ∼200 samples.The performance of the assay was evaluated by measuring the probes in new samples generated under treatment conditions from discovery experiments, recapitulating the observations of deeper experiments using a fraction of the analytical effort. We measured these probes in new experiments varying the treatments, cell types, and timepoints to demonstrate generalizability. We demonstrated that the assay is sensitive to disruptions in common signaling pathways (e.g. MAPK, PI3K/mTOR, and CDK). The high-throughput, reduced-representation phosphoproteomics assay provides a platform for the comparison of perturbations across a range of biological conditions, suitable for profiling thousands of samples. We believe the assay will prove highly useful for classification of known and novel drug and genetic mechanisms through comparison of phosphoproteomic signatures.


Subject(s)
Embryonic Stem Cells/metabolism , Phosphoproteins/analysis , Proteomics/methods , Small Molecule Libraries/pharmacology , Animals , Cells, Cultured , Embryonic Stem Cells/cytology , High-Throughput Screening Assays , Humans , MCF-7 Cells , Mice , Phosphoproteins/drug effects , Signal Transduction
12.
Molecules ; 23(10)2018 Sep 26.
Article in English | MEDLINE | ID: mdl-30261631

ABSTRACT

Tyrosyl-DNA phosphodiesterase 1 (Tdp1) is a DNA repair enzyme that mends topoisomerase 1-mediated DNA damage. Tdp1 is a current inhibition target for the development of improved anticancer treatments, as its inhibition may enhance the therapeutic effect of topoisomerase 1 poisons. Here, we report a study on the development of a novel class of Tdp1 inhibitors that is based on the octahydro-2H-chromene scaffold. Inhibition and binding assays revealed that these compounds are potent inhibitors of Tdp1, with IC50 and KD values in the low micromolar concentration range. Molecular modelling predicted plausible conformations of the active ligands, blocking access to the enzymatic machinery of Tdp1. Our results thus help establish a structural-activity relationship for octahydro-2H-chromene-based Tdp1 inhibitors, which will be useful for future Tdp1 inhibitor development work.


Subject(s)
Benzopyrans/chemistry , Phosphodiesterase Inhibitors/chemistry , Phosphodiesterase Inhibitors/pharmacology , Phosphoric Diester Hydrolases/chemistry , Phosphoric Diester Hydrolases/metabolism , Humans , Models, Molecular , Structure-Activity Relationship
13.
Nat Methods ; 10(7): 634-7, 2013 Jul.
Article in English | MEDLINE | ID: mdl-23749302

ABSTRACT

We report a mass spectrometry-based method for the integrated analysis of protein expression, phosphorylation, ubiquitination and acetylation by serial enrichments of different post-translational modifications (SEPTM) from the same biological sample. This technology enabled quantitative analysis of nearly 8,000 proteins and more than 20,000 phosphorylation, 15,000 ubiquitination and 3,000 acetylation sites per experiment, generating a holistic view of cellular signal transduction pathways as exemplified by analysis of bortezomib-treated human leukemia cells.


Subject(s)
Gene Expression Profiling/methods , Mass Spectrometry/methods , Protein Processing, Post-Translational/physiology , Proteome/metabolism , Systems Integration
14.
Mol Cell Proteomics ; 11(6): M111.014423, 2012 Jun.
Article in English | MEDLINE | ID: mdl-22210691

ABSTRACT

Labeling of primary amines on peptides with reagents containing stable isotopes is a commonly used technique in quantitative mass spectrometry. Isobaric labeling techniques such as iTRAQ™ or TMT™ allow for relative quantification of peptides based on ratios of reporter ions in the low m/z region of spectra produced by precursor ion fragmentation. In contrast, nonisobaric labeling with mTRAQ™ yields precursors with different masses that can be directly quantified in MS1 spectra. In this study, we compare iTRAQ- and mTRAQ-based quantification of peptides and phosphopeptides derived from EGF-stimulated HeLa cells. Both labels have identical chemical structures, therefore precursor ion- and fragment ion-based quantification can be directly compared. Our results indicate that iTRAQ labeling has an additive effect on precursor intensities, whereas mTRAQ labeling leads to more redundant MS2 scanning events caused by triggering on the same peptide with different mTRAQ labels. We found that iTRAQ labeling quantified nearly threefold more phosphopeptides (12,129 versus 4,448) and nearly twofold more proteins (2,699 versus 1,597) than mTRAQ labeling. Although most key proteins in the EGFR signaling network were quantified with both techniques, iTRAQ labeling allowed quantification of twice as many kinases. Accuracy of reporter ion quantification by iTRAQ is adversely affected by peptides that are cofragmented in the same precursor isolation window, dampening observed ratios toward unity. However, because of tighter overall iTRAQ ratio distributions, the percentage of statistically significantly regulated phosphopeptides and proteins detected by iTRAQ and mTRAQ was similar. We observed a linear correlation of logarithmic iTRAQ to mTRAQ ratios over two orders of magnitude, indicating a possibility to correct iTRAQ ratios by an average compression factor. Spike-in experiments using peptides of defined ratios in a background of nonregulated peptides show that iTRAQ quantification is less accurate but not as variable as mTRAQ quantification.


Subject(s)
Phosphoproteins/chemistry , Proteome/chemistry , Epidermal Growth Factor/physiology , HeLa Cells , Humans , Isotope Labeling , Peptide Fragments/chemistry , Phosphoproteins/metabolism , Proteome/metabolism , Proteomics , Regression Analysis , Tandem Mass Spectrometry
15.
Cell Rep ; 43(3): 113845, 2024 Mar 26.
Article in English | MEDLINE | ID: mdl-38393943

ABSTRACT

Poly(ADP-ribosyl)ation (PARylation), catalyzed mainly by poly(ADP-ribose) polymerase (PARP)1, is a key posttranslational modification involved in DNA replication and repair. Here, we report that TIMELESS (TIM), an essential scaffold of the replisome, is PARylated, which is linked to its proteolysis. TIM PARylation requires recognition of auto-modified PARP1 via two poly(ADP-ribose)-binding motifs, which primes TIM for proteasome-dependent degradation. Cells expressing the PARylation-refractory TIM mutant or under PARP inhibition accumulate TIM at DNA replication forks, causing replication stress and hyper-resection of stalled forks. Mechanistically, aberrant engagement of TIM with the replicative helicase impedes RAD51 loading and protection of reversed forks. Accordingly, defective TIM degradation hypersensitizes BRCA2-deficient cells to replication damage. Our study defines TIM as a substrate of PARP1 and elucidates how the control of replisome remodeling by PARylation is linked to stalled fork protection. Therefore, we propose a mechanism of PARP inhibition that impinges on the DNA replication fork instability caused by defective TIM turnover.


Subject(s)
Poly ADP Ribosylation , Poly(ADP-ribose) Polymerase Inhibitors , Poly(ADP-ribose) Polymerase Inhibitors/pharmacology , Poly (ADP-Ribose) Polymerase-1/genetics , Poly (ADP-Ribose) Polymerase-1/metabolism , Poly(ADP-ribose) Polymerases/metabolism , DNA Damage , DNA Replication
16.
Proc Natl Acad Sci U S A ; 106(8): 2653-8, 2009 Feb 24.
Article in English | MEDLINE | ID: mdl-19196960

ABSTRACT

Native cytochrome c (cyt c) has a compact tertiary structure with a hexacoordinated heme iron and functions in electron transport in mitochondria and apoptosis in the cytoplasm. However, the possibility that protein modifications confer additional functions to cyt c has not been explored. Disruption of methionine 80 (M80)-Fe ligation of cyt c under nitrative stress has been reported. To model this alteration and determine if it confers new properties to cyt c, a cyt c mutant (M80A) was constitutively expressed in cells. M80A-cyt c has increased peroxidase activity and is spontaneously released from mitochondria, translocating to the cytoplasm and nucleus in the absence of apoptosis. Moreover, M80A models endogenously nitrated cyt c because nitration of WT-cyt c is associated with its translocation to the cytoplasm and nucleus. Further, M80A cyt c may up-regulate protective responses to nitrative stress. Our findings raise the possibility that endogenous protein modifications that disrupt the M80-Fe ligation (such as tyrosine nitration) stimulate nuclear translocation and confer new functions to cyt c in nonapoptotic cells.


Subject(s)
Cell Nucleus/enzymology , Cytochromes c/metabolism , Cytoplasm/enzymology , Iron/metabolism , Apoptosis , Cells, Cultured , Cytochromes c/genetics , Fluorescent Antibody Technique , Green Fluorescent Proteins/genetics , HeLa Cells , Humans , RNA, Small Interfering
17.
Comput Intell Neurosci ; 2022: 9283293, 2022.
Article in English | MEDLINE | ID: mdl-36177311

ABSTRACT

During the last few decades, the quality of water has deteriorated significantly due to pollution and many other issues. As a consequence of this, there is a need for a model that can make accurate projections about water quality. This work shows the comparative analysis of different machine learning approaches like Support Vector Machine (SVM), Decision Tree (DT), Random Forest, Gradient Boost, and Ada Boost, used for the water quality classification. The model is trained on the Water Quality Index dataset available on Kaggle. Z-score is used to normalize the dataset before beginning the training process for the model. Because the given dataset is unbalanced, Synthetic Minority Oversampling Technique (SMOTE) is used to balance the dataset. Experiments results depict that Random Forest and Gradient Boost give the highest accuracy of 81%. One of the major issues with the machine learning model is lack of transparency which makes it impossible to evaluate the results of the model. To address this issue, explainable AI (XAI) is used which assists us in determining which features are the most important. Within the context of this investigation, Local Interpretable Model-agnostic Explanations (LIME) is utilized to ascertain the significance of the features.


Subject(s)
Machine Learning , Support Vector Machine , Forecasting
18.
Cureus ; 13(3): e14024, 2021 Mar 21.
Article in English | MEDLINE | ID: mdl-33889464

ABSTRACT

Worldwide, gastric cancer is the fifth most common cancer and the third leading cause of cancer deaths, which carries a poor prognosis as only 28.3% are expected to survive after five years. The incidence varies depending on the geographical locations and dietary patterns. Here, we present a case of a 59-year-old Hispanic male with a 10-month history of recurrent bilateral pneumonia and dysphagia. Diagnostic workup revealed metastatic gastric adenocarcinoma.

19.
Case Rep Endocrinol ; 2021: 6699409, 2021.
Article in English | MEDLINE | ID: mdl-33953991

ABSTRACT

Pheochromocytoma (PCC) is a rare catecholamine-secreting tumor that arises from chromaffin cells of the adrenal medulla which are derived from the neural crest. This report illustrates a 51-year-old Caucasian male with a history of hypertension diagnosed two years ago who presented to the hospital due to acute onset of right testicular pain of 3-day duration. Laboratory results and imaging revealed a presumptive diagnosis of PCC. The patient had undergone robot-assisted laparoscopic right adrenalectomy 14 days after being diagnosed with PCC due to perioperative management with phenoxybenzamine. The final pathology report revealed a PCC. At follow-up two weeks after discharge, the patient reported complete resolution of his testicular pain.

20.
J Med Cases ; 12(11): 438-441, 2021 Nov.
Article in English | MEDLINE | ID: mdl-34804302

ABSTRACT

A hepatic abscess is a rare condition which can have multiple etiologies, including biliary disease, intra-abdominal collections (appendicitis, diverticulitis, and inflammatory bowel disease), abdominal surgery, liver transplantation, and liver trauma. The diagnosis is primarily based on imaging findings of ultrasound and computed tomography scan. Management includes antibiotics and percutaneous drainage or surgical drainage of the abscess. Here, we present a case of a 43-year-old Hispanic female who initially presented with left lower quadrant and right upper quadrant abdominal pain for 1 week. She was found to have a hepatic abscess and pelvic abscess likely secondary to perforated diverticulum.

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