Your search keyword '"Berner, Andreas"' showing total 8 results

1. G4-Ligand-Conjugated Oligonucleotides Mediate Selective Binding and Stabilization of Individual G4 DNA Structures.

Author

Berner A, Das RN, Bhuma N, Golebiewska J, Abrahamsson A, Andréasson M, Chaudhari N, Doimo M, Bose PP, Chand K, Strömberg R, Wanrooij S, and Chorell E

Subjects

Humans, Ligands, Oligonucleotides, DNA chemistry, G-Quadruplexes

Abstract

G-quadruplex (G4) DNA structures are prevalent secondary DNA structures implicated in fundamental cellular functions, such as replication and transcription. Furthermore, G4 structures are directly correlated to human diseases such as cancer and have been highlighted as promising therapeutic targets for their ability to regulate disease-causing genes, e.g., oncogenes. Small molecules that bind and stabilize these structures are thus valuable from a therapeutic perspective and helpful in studying the biological functions of the G4 structures. However, there are hundreds of thousands of G4 DNA motifs in the human genome, and a long-standing problem in the field is how to achieve specificity among these different G4 structures. Here, we developed a strategy to selectively target an individual G4 DNA structure. The strategy is based on a ligand that binds and stabilizes G4s without selectivity, conjugated to a guide oligonucleotide, that specifically directs the G4-Ligand-conjugated oligo (GL-O) to the single target G4 structure. By employing various biophysical and biochemical techniques, we show that the developed method enables the targeting of a unique, specific G4 structure without impacting other off-target G4 formations. Considering the vast amount of G4s in the human genome, this represents a promising strategy to study the presence and functions of individual G4s but may also hold potential as a future therapeutic modality.

Published

2024

2. Exploring the Dispersion and Electrostatic Components in Arene-Arene Interactions between Ligands and G4 DNA to Develop G4-Ligands.

Author

Andreasson M, Donzel M, Abrahamsson A, Berner A, Doimo M, Quiroga A, Eriksson A, Chao YK, Overman J, Pemberton N, Wanrooij S, and Chorell E

Subjects

Ligands, Static Electricity, Promoter Regions, Genetic, DNA metabolism, G-Quadruplexes

Abstract

G-Quadruplex (G4) DNA structures are important regulatory elements in central biological processes. Small molecules that selectively bind and stabilize G4 structures have therapeutic potential, and there are currently >1000 known G4 ligands. Despite this, only two G4 ligands ever made it to clinical trials. In this work, we synthesized several heterocyclic G4 ligands and studied their interactions with G4s (e.g., G4s from the c-MYC , c-KIT , and BCL-2 promoters) using biochemical assays. We further studied the effect of selected compounds on cell viability, the effect on the number of G4s in cells, and their pharmacokinetic properties. This identified potent G4 ligands with suitable properties and further revealed that the dispersion component in arene-arene interactions in combination with electron-deficient electrostatics is central for the ligand to bind with the G4 efficiently. The presented design strategy can be applied in the further development of G4-ligands with suitable properties to explore G4s as therapeutic targets.

Published

2024

3. Enhanced mitochondrial G-quadruplex formation impedes replication fork progression leading to mtDNA loss in human cells.

Author

Doimo M, Chaudhari N, Abrahamsson S, L'Hôte V, Nguyen TVH, Berner A, Ndi M, Abrahamsson A, Das RN, Aasumets K, Goffart S, Pohjoismäki JLO, López MD, Chorell E, and Wanrooij S

Subjects

Humans, Mitochondria genetics, Mitochondria metabolism, DNA Replication genetics, DNA, Mitochondrial genetics, DNA, Mitochondrial metabolism, G-Quadruplexes

Abstract

Mitochondrial DNA (mtDNA) replication stalling is considered an initial step in the formation of mtDNA deletions that associate with genetic inherited disorders and aging. However, the molecular details of how stalled replication forks lead to mtDNA deletions accumulation are still unclear. Mitochondrial DNA deletion breakpoints preferentially occur at sequence motifs predicted to form G-quadruplexes (G4s), four-stranded nucleic acid structures that can fold in guanine-rich regions. Whether mtDNA G4s form in vivo and their potential implication for mtDNA instability is still under debate. In here, we developed new tools to map G4s in the mtDNA of living cells. We engineered a G4-binding protein targeted to the mitochondrial matrix of a human cell line and established the mtG4-ChIP method, enabling the determination of mtDNA G4s under different cellular conditions. Our results are indicative of transient mtDNA G4 formation in human cells. We demonstrate that mtDNA-specific replication stalling increases formation of G4s, particularly in the major arc. Moreover, elevated levels of G4 block the progression of the mtDNA replication fork and cause mtDNA loss. We conclude that stalling of the mtDNA replisome enhances mtDNA G4 occurrence, and that G4s not resolved in a timely manner can have a negative impact on mtDNA integrity., (© The Author(s) 2023. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2023

4. Protein Microarray-Guided Development of a Highly Sensitive and Specific Dipstick Assay for Glanders Serodiagnostics.

Author

Wagner GE, Berner A, Lipp M, Kohler C, Assig K, Lichtenegger S, Saqib M, Müller E, Trinh TT, Gad AM, Söffing HH, Ehricht R, Laroucau K, and Steinmetz I

Subjects

Humans, Horses, Animals, Protein Array Analysis, Glanders diagnosis, Melioidosis diagnosis, Melioidosis veterinary, Burkholderia mallei genetics, Burkholderia pseudomallei

Abstract

Burkholderia mallei, the causative agent of glanders, is a clonal descendant of Burkholderia pseudomallei, the causative agent of melioidosis, which has lost its environmental reservoir and has a restricted host range. Despite limitations in terms of sensitivity and specificity, complement fixation is still the official diagnostic test for glanders. Therefore, new tools are needed for diagnostics and to study the B. mallei epidemiology. We recently developed a highly sensitive serodiagnostic microarray test for human melioidosis based on the multiplex detection of B. pseudomallei proteins. In this study, we modified our array tests by using anti-horse IgG conjugate and tested sera from B. mallei-infected horses ( n  = 30), negative controls ( n  = 39), and horses infected with other pathogens ( n  = 14). Our array results show a sensitivity of 96.7% (confidence interval [CI] 85.5 to 99.6%) and a specificity of 100.0% (CI, 95.4 to 100.0%). The reactivity pattern of the positive sera on our array test allowed us to identify a set of 12 highly reactive proteins of interest for glanders diagnosis. The B. mallei variants of the three best protein candidates were selected for the development of a novel dipstick assay. Our point-of-care test detected glanders cases in less than 15 min with a sensitivity of 90.0% (CI, 75.7 to 97.1%) and a specificity of 100.0% (CI, 95.4 to 100.0%). The microarray and dipstick can easily be adopted for the diagnosis of both B. mallei and B. pseudomallei infections in different animals. Future studies will show whether multiplex serological testing has the potential to differentiate between these pathogens.

Published

2023

5. A unique arginine cluster in PolDIP2 enhances nucleotide binding and DNA synthesis by PrimPol.

Author

Kasho K, Stojkovič G, Velázquez-Ruiz C, Martínez-Jiménez MI, Doimo M, Laurent T, Berner A, Pérez-Rivera AE, Jenninger L, Blanco L, and Wanrooij S

Subjects

Amino Acid Motifs, DNA Primase metabolism, DNA-Directed DNA Polymerase metabolism, Deoxyribonucleotides chemistry, Deoxyribonucleotides metabolism, Models, Molecular, Multifunctional Enzymes metabolism, Protein Binding, Arginine chemistry, DNA biosynthesis, DNA Primase chemistry, DNA-Directed DNA Polymerase chemistry, Multifunctional Enzymes chemistry, Nuclear Proteins chemistry, Nuclear Proteins metabolism

Abstract

Replication forks often stall at damaged DNA. To overcome these obstructions and complete the DNA duplication in a timely fashion, replication can be restarted downstream of the DNA lesion. In mammalian cells, this repriming of replication can be achieved through the activities of primase and polymerase PrimPol. PrimPol is stimulated in DNA synthesis through interaction with PolDIP2, however the exact mechanism of this PolDIP2-dependent stimulation is still unclear. Here, we show that PrimPol uses a flexible loop to interact with the C-terminal ApaG-like domain of PolDIP2, and that this contact is essential for PrimPol's enhanced processivity. PolDIP2 increases primer-template and dNTP binding affinities of PrimPol, which concomitantly enhances its nucleotide incorporation efficiency. This stimulation is dependent on a unique arginine cluster in PolDIP2. Since the polymerase activity of PrimPol alone is very limited, this mechanism, where the affinity for dNTPs gets increased by PolDIP2 binding, might be critical for the in vivo function of PrimPol in tolerating DNA lesions at physiological nucleotide concentrations., (© The Author(s) 2021. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2021

6. Melioidosis DS rapid test: A standardized serological dipstick assay with increased sensitivity and reliability due to multiplex detection.

Author

Wagner GE, Föderl-Höbenreich E, Assig K, Lipp M, Berner A, Kohler C, Lichtenegger S, Stiehler J, Karoonboonyanan W, Thanapattarapairoj N, Promkong C, Koosakulnirand S, Chaichana P, Ehricht R, Gad AM, Söffing HH, Dunachie SJ, Chantratita N, and Steinmetz I

Subjects

Antibodies, Bacterial blood, Antigens, Bacterial, Bacterial Proteins, Burkholderia pseudomallei genetics, Humans, Melioidosis microbiology, Sensitivity and Specificity, Burkholderia pseudomallei isolation & purification, Melioidosis blood, Melioidosis diagnosis, Reagent Strips, Serologic Tests methods

Abstract

Background: Melioidosis, caused by Burkholderia pseudomallei, is a severe infectious disease with high mortality rates, but is under-recognized worldwide. In endemic areas, there is a great need for simple, low-cost and rapid diagnostic tools. In a previous study we showed, that a protein multiplex array with 20 B. pseudomallei-specific antigens detects antibodies in melioidosis patients with high sensitivity and specificity. In a subsequent study the high potential of anti-B. pseudomallei antibody detection was confirmed using a rapid Hcp1 single protein-based assay. Our protein array also showed that the antibody profile varies between patients, possibly due to a combination of host factors but also antigen variations in the infecting B. pseudomallei strains. The aim of this study was to develop a rapid test, combining Hcp1 and the best performing antigens BPSL2096, BPSL2697 and BPSS0477 from our previous study, to take advantage of simultaneous antibody detection., Methods and Principal Findings: The 4-plex dipstick was validated with sera from 75 patients on admission plus control groups, achieving 92% sensitivity and 97-100% specificity. We then re-evaluated melioidosis sera with the 4-plex assay that were previously misclassified by the monoplex Hcp1 rapid test. 12 out of 55 (21.8%) false-negative samples were positive in our new dipstick assay. Among those, 4 sera (7.3%) were Hcp1 positive, whereas 8 (14.5%) sera remained Hcp1 negative but gave a positive reaction with our additional antigens., Conclusions: Our dipstick rapid test represents an inexpensive, standardized and simple diagnostic tool with an improved serodiagnostic performance due to multiplex detection. Each additional band on the test strip makes a false-positive result more unlikely, contributing to its reliability. Future prospective studies will seek to validate the gain in sensitivity and specificity of our multiplex rapid test approach in different melioidosis patient cohorts., Competing Interests: All authors have declared that no competing interests exist. AG and HHS are employees of Senova Gesellschaft für Biowissenschaft und Technik mbH the company that manufacturers the Dipsticks. This does not affect the authors' adherence to all the PLOS policies on sharing data and materials.

Published

2020

7. Medical Emergencies During a Half Marathon Race - The Influence of Weather.

Author

Carlström E, Borjesson M, Palm G, Khorram-Manesh A, Lindberg F, Holmer B, Berner A, Örninge P, Luning H, Nilson F, Gelang C, and Thorsson S

Subjects

Adolescent, Adult, Aged, Ambulances, Female, Humans, Male, Middle Aged, Sweden, Temperature, Young Adult, Emergencies, Running, Weather

Abstract

The aim was to analyze the influence of weather conditions on medical emergencies in a half-marathon, specifically by evaluating its relation to the number of non-finishers, ambulance-required assistances, and collapses in need of ambulance as well as looking at the location of such emergencies on the race course. Seven years of data from the world's largest half marathon were used. Meteorological data were obtained from a nearby weather station, and the Physiological Equivalent Temperature (PET) index was used as a measure of general weather conditions. Of the 315,919 race starters, 104 runners out of the 140 ambulance-required assistances needed ambulance services due to collapses. Maximum air temperature and PET significantly co-variated with ambulance-required assistances, collapses, and non-finishers (R 2 =0.65-0.92; p=0.001-0.03). When air temperatures vary between 15-29°C, an increase of 1°C results in an increase of 2.5 (0.008/1000) ambulance-required assistances, 2.5 (0.008/1000) collapses (needing ambulance services), and 107 (0.34/1000) non-finishers. The results also indicate that when the daily maximum PET varies between 18-35°C, an increase of 1°C PET results in an increase of 1.8 collapses (0.006/1000) needing ambulance services and 66 non-finishers (0.21/1000)., Competing Interests: No potential conflict of interest was reported by the authors., (© Georg Thieme Verlag KG Stuttgart · New York.)

Published

2019

8. Medical Emergencies During a Half Marathon Race - The Influence of Weather.

Author

Carlström E, Borjesson M, Palm G, Khorram-Manesh A, Lindberg F, Holmer B, Berner A, Örninge P, Luning H, Nilson F, Gelang C, and Thorsson S

Abstract

Competing Interests: Disclosure The authors report no conflicts of interest in this work.

Published

2019