Your search keyword '"Katja Petzold"' showing total 63 results

1. ANGEL2 phosphatase activity is required for non-canonical mitochondrial RNA processing

Author

Paula Clemente, Javier Calvo-Garrido, Sarah F. Pearce, Florian A. Schober, Megumi Shigematsu, Stefan J. Siira, Isabelle Laine, Henrik Spåhr, Christian Steinmetzger, Katja Petzold, Yohei Kirino, Rolf Wibom, Oliver Rackham, Aleksandra Filipovska, Joanna Rorbach, Christoph Freyer, and Anna Wredenberg

Subjects

Science

Abstract

A subset of mitochondrial transcripts is not flanked by tRNAs and thus does not conform to the canonical mode of processing. Here, Clemente et al. demonstrate that phosphatase activity of ANGEL2 is required for correct processing of these transcripts.

Published

2022

2. Enzymatic incorporation of an isotope-labeled adenine into RNA for the study of conformational dynamics by NMR.

Author

Hannes Feyrer, Cenk Onur Gurdap, Maja Marušič, Judith Schlagnitweit, and Katja Petzold

Subjects

Medicine, Science

Abstract

Solution NMR spectroscopy is a well-established tool with unique advantages for structural studies of RNA molecules. However, for large RNA sequences, the NMR resonances often overlap severely. A reliable way to perform resonance assignment and allow further analysis despite spectral crowding is the use of site-specific isotope labeling in sample preparation. While solid-phase oligonucleotide synthesis has several advantages, RNA length and availability of isotope-labeled building blocks are persistent issues. Purely enzymatic methods represent an alternative and have been presented in the literature. In this study, we report on a method in which we exploit the preference of T7 RNA polymerase for nucleotide monophosphates over triphosphates for the 5' position, which allows 5'-labeling of RNA. Successive ligation to an unlabeled RNA strand generates a site-specifically labeled RNA. We show the successful production of such an RNA sample for NMR studies, report on experimental details and expected yields, and present the surprising finding of a previously hidden set of peaks which reveals conformational exchange in the RNA structure. This study highlights the feasibility of site-specific isotope-labeling of RNA with enzymatic methods.

Published

2022

3. One-Pot Production of RNA in High Yield and Purity Through Cleaving Tandem Transcripts

Author

Hannes Feyrer, Raluca Munteanu, Lorenzo Baronti, and Katja Petzold

Subjects

rna preparation, in vitro transcription, t7 polymerase, rnase h, tandem repeats, short rnas, Organic chemistry, QD241-441

Abstract

There is an increasing demand for efficient and robust production of short RNA molecules in both pharmaceutics and research. A standard method is in vitro transcription by T7 RNA polymerase. This method is sequence-dependent on efficiency and is limited to products longer than ~12 nucleotides. Additionally, the native initiation sequence is required to achieve high yields, putting a strain on sequence variability. Deviations from this sequence can lead to side products, requiring laborious purification, further decreasing yield. We here present transcribing tandem repeats of the target RNA sequence followed by site-specific cleavage to obtain RNA in high purity and yield. This approach makes use of a plasmid DNA template and RNase H-directed cleavage of the transcript. The method is simpler and faster than previous protocols, as it can be performed as one pot synthesis and provides at the same time higher yields of RNA.

Published

2020

4. Kidney volume measurement methods for clinical studies on autosomal dominant polycystic kidney disease.

Author

Kanishka Sharma, Anna Caroli, Le Van Quach, Katja Petzold, Michela Bozzetto, Andreas L Serra, Giuseppe Remuzzi, and Andrea Remuzzi

Subjects

Medicine, Science

Abstract

BACKGROUND:In autosomal dominant polycystic kidney disease (ADPKD), total kidney volume (TKV) is regarded as an important biomarker of disease progression and different methods are available to assess kidney volume. The purpose of this study was to identify the most efficient kidney volume computation method to be used in clinical studies evaluating the effectiveness of treatments on ADPKD progression. METHODS AND FINDINGS:We measured single kidney volume (SKV) on two series of MR and CT images from clinical studies on ADPKD (experimental dataset) by two independent operators (expert and beginner), twice, using all of the available methods: polyline manual tracing (reference method), free-hand manual tracing, semi-automatic tracing, Stereology, Mid-slice and Ellipsoid method. Additionally, the expert operator also measured the kidney length. We compared different methods for reproducibility, accuracy, precision, and time required. In addition, we performed a validation study to evaluate the sensitivity of these methods to detect the between-treatment group difference in TKV change over one year, using MR images from a previous clinical study. Reproducibility was higher on CT than MR for all methods, being highest for manual and semiautomatic contouring methods (planimetry). On MR, planimetry showed highest accuracy and precision, while on CT accuracy and precision of both planimetry and Stereology methods were comparable. Mid-slice and Ellipsoid method, as well as kidney length were fast but provided only a rough estimate of kidney volume. The results of the validation study indicated that planimetry and Stereology allow using an importantly lower number of patients to detect changes in kidney volume induced by drug treatment as compared to other methods. CONCLUSIONS:Planimetry should be preferred over fast and simplified methods for accurately monitoring ADPKD progression and assessing drug treatment effects. Expert operators, especially on MR images, are required for performing reliable estimation of kidney volume. The use of efficient TKV quantification methods considerably reduces the number of patients to enrol in clinical investigations, making them more feasible and significant.

Published

2017

5. Urinary biomarkers at early ADPKD disease stage.

Author

Katja Petzold, Diane Poster, Fabienne Krauer, Katharina Spanaus, Gustav Andreisek, Thi Dan Linh Nguyen-Kim, Ivana Pavik, Thien Anh Ho, Andreas L Serra, and Laura Rotar

Subjects

Medicine, Science

Abstract

BACKGROUND:Autosomal dominant polycystic kidney disease (ADPKD) is characterized by a decline in renal function at late disease stage when the majority of functional renal parenchyma is replaced by cystic tissue. Thus, kidney function, assessed by estimated glomerular filtration rate (eGFR) does not well represent disease burden in early disease. Here, we investigated various urinary markers for tubular injury and their association with disease burden in ADPKD patients at early disease course. METHODS:ADPKD patients between 18 and 40 years with an eGFR greater or equal to 70 ml per min per 1.73m2 were eligible for this cross-sectional study. Urinary Neutrophil Gelatinase-Associated Lipocalin (NGAL), Kidney Injury Molecule-1 (KIM-1), and Uromodulin (UMOD) were investigated by Enzyme-Linked Immunosorbent Assay. Clara Cell Protein 16 (CC16) was investigated by Latex Immuno Assay. Cryoscopy was performed to assess urine osmolality and Urinary Albumin-to-Creatinine Ratio (UACR) was calculated. The association and the predictive properties of the markers on eGFR and height adjusted total kidney volume (htTKV) was evaluated using multiple regression analysis, incorporating different control variables for adjustment. Internal bootstrapping validated the obtained results. RESULTS:In 139 ADPKD patients (age 31 ±7 years, mean eGFR of 93 ± 19 ml per min per 1.73 m2) the total kidney volume was negatively correlated with eGFR and UMOD and positive associated with age, UACR, KIM-1 and urine osmolality after adjustment for possible confounders. Urine osmolality and htTKV were also associated with eGFR, whereas no association of CC16, NGAL and UMOD with eGFR or htTKV was found. CONCLUSION:UACR and urinary KIM-1 are independently associated with kidney size but not with renal function in our study population. Urine osmolality was associated with eGFR and kidney volume following adjustment for multiple confounders. Despite statistical significance, the clinical value of our results is not yet conceivable. Further studies are needed to evaluate the property of the aforementioned biomarkers to assess disease state at early ADPKD stage.

Published

2015

6. RNA:RNA interaction in ternary complexes resolved by chemical probing

Author

Elnaz Banijamali, Lorenzo Baronti, Walter Becker, Joanna J. Sajkowska-Kozielewicz, Ting Huang, Christina Palka, David Kosek, Lara Sweetapple, Juliane Müller, Michael D. Stone, Emma R. Andersson, and Katja Petzold

Subjects

Molecular Biology

Abstract

RNA regulation can be performed by a second targeting RNA molecule, such as in the microRNA regulation mechanism. Selective 2′-hydroxyl acylation analyzed by primer extension (SHAPE) probes the structure of RNA molecules and can resolve RNA:protein interactions, but RNA:RNA interactions have not yet been addressed with this technique. Here, we apply SHAPE to investigate RNA-mediated binding processes in RNA:RNA and RNA:RNA-RBP complexes. We useRNA:RNAbinding bySHAPE (RABS) to investigatemicroRNA-34a(miR-34a) binding its mRNA target, thesilent information regulator 1(mSIRT1), both with and without the Argonaute protein, constituting the RNA-induced silencing complex (RISC). We show that the seed of the mRNA target must be bound to the microRNA loaded into RISC to enable further binding of the compensatory region by RISC, while the nakedmiR-34ais able to bind the compensatory region without seed interaction. The method presented here provides complementary structural evidence for the commonly performed luciferase-assay-based evaluation of microRNA binding-site efficiency and specificity on the mRNA target site and could therefore be used in conjunction with it. The method can be applied to any nucleic acid-mediated RNA- or RBP-binding process, such as splicing, antisense RNA binding, or regulation by RISC, providing important insight into the targeted RNA structure.

Published

2022

7. <scp>NanoBiT</scp> ‐ and <scp>NanoBiT/BRET</scp> ‐based assays allow the analysis of binding kinetics of Wnt‐3a to endogenous <scp>Frizzled 7</scp> in a colorectal cancer model

Author

Lukas Grätz, Joanna J. Sajkowska‐Kozielewicz, Janine Wesslowski, Julia Kinsolving, Lloyd J. Bridge, Katja Petzold, Gary Davidson, Gunnar Schulte, and Paweł Kozielewicz

Subjects

Pharmacology

Published

2023

8. Mutate-and-chemical-shift-fingerprint (MCSF) to characterize excited states in RNA using NMR spectroscopy

Author

Lorenzo Baronti, Judith Schlagnitweit, Katja Petzold, Hampus Karlsson, Noah Hopkins, and Magdalena Riad

Subjects

Physics, Magnetic Resonance Spectroscopy, Chemical physics, MicroRNA 34a, Excited state, Chemical shift, Relaxation (NMR), RNA, Nuclear magnetic resonance spectroscopy, Ground state, Protein secondary structure, General Biochemistry, Genetics and Molecular Biology

Abstract

It is important to understand the dynamics and higher energy structures of RNA, called excited states, to achieve better understanding of RNA function. R1ρ relaxation dispersion NMR spectroscopy (RD) determines chemical shift differences between the most stable, ground state and the short-lived, low-populated excited states. We describe a procedure for deducing the excited state structure from these chemical shift differences using the mutate-and-chemical-shift-fingerprint (MCSF) method, which requires ~2-6 weeks and moderate understanding of NMR and RNA structure. We recently applied the MCSF methodology to elucidate the excited state of microRNA 34a targeting the SIRT1 mRNA and use this example to demonstrate the analysis. The protocol comprises the following steps: (i) determination of the secondary structure of the excited state from RD chemical shift data, (ii) design of trapped excited state RNA, (iii) validation of the excited state structure by NMR, and (iv) MCSF analysis comparing the chemical shifts of the trapped excited state with the RD-derived chemical shift differences. MCSF enables observation of the short-lived RNA structures, which can be functionally and structurally characterized by entrapment.

Published

2021

9. Mass spectrometry of RNA-binding proteins during liquid-liquid phase separation reveals distinct assembly mechanisms and droplet architectures

Author

Cagla Sahin, Aikaterini Motso, Xinyu Gu, Hannes Feyrer, Dilraj Lama, Tina Arndt, Anna Rising, Genis Valentin Gese, B. Martin Hällberg, Erik. G. Marklund, Nicholas P. Schafer, Katja Petzold, Kaare Teilum, Peter G. Wolynes, and Michael Landreh

Subjects

PRION-LIKE DOMAINS, Colloid and Surface Chemistry, TDP-43, FIBRILS, General Chemistry, Biochemistry, Catalysis

Abstract

Liquid–liquid phase separation (LLPS) of heterogeneous ribonucleoproteins (hnRNPs) drives the formation of membraneless organelles, but structural information about their assembled states is still lacking. Here, we address this challenge through a combination of protein engineering, native ion mobility mass spectrometry, and molecular dynamics simulations. We used an LLPS-compatible spider silk domain and pH changes to control the self-assembly of the hnRNPs FUS, TDP-43, and hCPEB3, which are implicated in neurodegeneration, cancer, and memory storage. By releasing the proteins inside the mass spectrometer from their native assemblies, we could monitor conformational changes associated with liquid–liquid phase separation. We find that FUS monomers undergo an unfolded-to-globular transition, whereas TDP-43 oligomerizes into partially disordered dimers and trimers. hCPEB3, on the other hand, remains fully disordered with a preference for fibrillar aggregation over LLPS. The divergent assembly mechanisms revealed by ion mobility mass spectrometry of soluble protein species that exist under LLPS conditions suggest structurally distinct complexes inside liquid droplets that may impact RNA processing and translation depending on biological context. Liquid-liquid phase separation (LLPS) of hetero-geneous ribonucleoproteins (hnRNPs) drives the formation of membraneless organelles, but structural information about their assembled states is still lacking. Here, we address this challenge through a combination of protein engineering, native ion mobility mass spectrometry, and molecular dynamics simulations. We used an LLPS-compatible spider silk domain and pH changes to control the self-assembly of the hnRNPs FUS, TDP-43, and hCPEB3, which are implicated in neurodegeneration, cancer, and memory storage. By releasing the proteins inside the mass spectrometer from their native assemblies, we could monitor conformational changes associated with liquid-liquid phase separation. We find that FUS monomers undergo an unfolded-to-globular transition, whereas TDP-43 oligomerizes into partially disordered dimers and trimers. hCPEB3, on the other hand, remains fully disordered with a preference for fibrillar aggregation over LLPS. The divergent assembly mechanisms revealed by ion mobility mass spectrometry of soluble protein species that exist under LLPS conditions suggest structurally distinct complexes inside liquid droplets that may impact RNA processing and translation depending on biological context.

Published

2022

10. Receptor levels determine binding affinity of WNT-3A to Frizzled 7 in a colorectal cancer model

Author

Lukas Grätz, Joanna J. Sajkowska-Kozielewicz, Janine Wesslowski, Katja Petzold, Gary Davidson, Gunnar Schulte, and Paweł Kozielewicz

Abstract

WNT binding to Frizzleds (FZD) is a crucial step that leads to the initiation of signalling cascades governing multiple processes during embryonic development, stem cell regulation and adult tissue homeostasis. Recent efforts have enabled us to shed light on WNT-FZD pharmacology in overexpressed HEK293 cell systems. However, it is important to assess ligand binding at endogenous receptor levels as there might be differential binding behaviour in a native environment. Here, we focus on one FZD paralogue: FZD7, and study its interactions with WNT-3A in a CRISPR-Cas9-edited SW480 colorectal cancer model. SW480 cells were CRISPR-Cas9-edited to insert a HiBiT-tag on the N-terminus of FZD7, preserving the native signal peptide. Subsequently, these cells were used to study eGFP-WNT-3A association to endogenous and overexpressed HiBiT-FZD7 using NanoBiT/BRET to measure ligand binding and quantification of NanoBiT-emitted luminescence to assess receptor internalization. eGFP-WNT-3A bound to endogenous HiBiT-FZD7 with significantly higher kon and with lower Kd than to overexpressed receptors. Importantly, as the fluorescent probe is an agonist, experiments performed in cell lysates demonstrated that eGFP-WNT-3A/HiBiT-FZD7 binding assessment is not altered by receptor internalization. In conclusion, binding affinities of eGFP-WNT-3A to HiBiT-FZD7 decreased with increasing receptor concentrations suggesting that HiBiT-FZD7 overexpression fails to recapitulate ligand binding behaviour in a (patho-)physiologically relevant context where endogenous receptor expression levels are lower.

Published

2022

11. Base-pair conformational switch modulates miR-34a targeting of Sirt1 mRNA

Author

Ileana Guzzetti, Bastian Fromm, Emilie Steiner, Lorenzo Baronti, Parisa Ebrahimi, Carolina Fontana, Alan A. Chen, Luis Silva, Katja Petzold, Sarah Friebe Sandoz, and Judith Schlagnitweit

Subjects

0303 health sciences, Messenger RNA, Multidisciplinary, Chemistry, Base pair, HEK 293 cells, RNA, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Cell biology, 03 medical and health sciences, RNA interference, microRNA, Binding site, Psychological repression, 030304 developmental biology

Abstract

MicroRNAs (miRNAs) regulate the levels of translation of messenger RNAs (mRNAs). At present, the major parameter that can explain the selection of the target mRNA and the efficiency of translation repression is the base pairing between the ‘seed’ region of the miRNA and its counterpart mRNA1. Here we use R1ρ relaxation-dispersion nuclear magnetic resonance2 and molecular simulations3 to reveal a dynamic switch—based on the rearrangement of a single base pair in the miRNA–mRNA duplex—that elongates a weak five-base-pair seed to a complete seven-base-pair seed. This switch also causes coaxial stacking of the seed and supplementary helix fitting into human Argonaute 2 protein (Ago2), reminiscent of an active state in prokaryotic Ago4,5. Stabilizing this transient state leads to enhanced repression of the target mRNA in cells, revealing the importance of this miRNA–mRNA structure. Our observations tie together previous findings regarding the stepwise miRNA targeting process from an initial ‘screening’ state to an ‘active’ state, and unveil the role of the RNA duplex beyond the seed in Ago2. Repression of a messenger RNA by a cognate microRNA depends not only on complementary base pairing, but also on the rearrangement of a single base pair, producing a conformation that fits better within the human Ago2 protein.

Published

2020

12. Purely enzymatic incorporation of an isotope-labeled adenine into RNA for the study of conformational dynamics by NMR

Author

Hannes Feyrer, Cenk Onur Gurdap, Maja Marušič, Judith Schlagnitweit, and Katja Petzold

Abstract

Solution NMR spectroscopy is a well-established tool with unique advantages for structural studies of RNA molecules. However, for large RNA sequences, the NMR resonances often overlap severely. A reliable way to perform resonance assignment and allow further analysis despite spectral crowding is the use of site-specific isotope labeling in sample preparation. While solid-phase oligonucleotide synthesis has several advantages, RNA length and availability of isotope-labeled building blocks are persistent issues. Purely enzymatic methods pose as an alternative and have been presented in the literature. In this study, we report on a method in which we exploit the preference of T7 RNA polymerase for nucleotide monophosphates over triphosphates for the 5’ position, which allows 5’-labeling of RNA. Successive ligation to an unlabeled RNA strand generates a site-specifically labeled RNA. We show the successful production of such an RNA sample for NMR studies, report on experimental details and expected yields, and present the surprising finding of a previously hidden set of peaks which reveals conformational exchange in the RNA structure. This study highlights the feasibility of site-specific isotope-labeling of RNA with enzymatic methods.

Published

2022

13. RNA excited states by NMR and their impact on function

Author

Katja Petzold

Subjects

Biophysics

Published

2023

14. RNA Dynamics by NMR Spectroscopy

Author

Maja Marušič, Judith Schlagnitweit, and Katja Petzold

Subjects

Models, Molecular, Magnetic Resonance Spectroscopy, Reviews, Review, 010402 general chemistry, 01 natural sciences, Biochemistry, Broad spectrum, NMR spectroscopy, relaxation, Very Important Paper, Atomic resolution, motion, Nuclear Magnetic Resonance, Biomolecular, Molecular Biology, Physics, Base Sequence, 010405 organic chemistry, Organic Chemistry, Dynamics (mechanics), RNA, dynamics, Nuclear magnetic resonance spectroscopy, 0104 chemical sciences, Kinetics, Models, Chemical, Nucleic Acid Conformation, Molecular Medicine, Biological system, Algorithms

Abstract

An ever‐increasing number of functional RNAs require a mechanistic understanding. RNA function relies on changes in its structure, so‐called dynamics. To reveal dynamic processes and higher energy structures, new NMR methods have been developed to elucidate these dynamics in RNA with atomic resolution. In this Review, we provide an introduction to dynamics novices and an overview of methods that access most dynamic timescales, from picoseconds to hours. Examples are provided as well as insight into theory, data acquisition and analysis for these different methods. Using this broad spectrum of methodology, unprecedented detail and invisible structures have been obtained and are reviewed here. RNA, though often more complicated and therefore neglected, also provides a great system to study structural changes, as these RNA structural changes are more easily defined—Lego like—than in proteins, hence the numerous revelations of RNA excited states., RNA is a flexible molecule: This is what makes it functional, but also difficult to study, especially when the goal is to access those dynamic, often low‐populated and short‐lived conformers. Here the NMR methods and the structural insights, which have so far been obtained for RNAs and their picosecond‐to‐hour timescales are reviewed.

Published

2019

15. Practical Aspects of Sample Preparation and Setup of 1H R1ρ Relaxation Dispersion Experiments of RNA

Author

Hannes, Feyrer, Judith, Schlagnitweit, and Katja, Petzold

Subjects

Proteins, RNA, Hydrogen Bonding, Base Pairing, Nuclear Magnetic Resonance, Biomolecular

Abstract

RNA is a highly flexible biomolecule, wherein changes in structures play crucial roles in the functions that RNA molecules execute as cellular messengers and modulators. While these dynamic states remain hidden to most structural methods, R1ρ relaxation dispersion (RD) spectroscopy allows the study of conformational dynamics in the micro- to millisecond regime at atomic resolution. The use of

Published

2021

16. Practical Aspects of Sample Preparation and Setup of 1H R1ρ Relaxation Dispersion Experiments of RNA

Author

Judith Schlagnitweit, Katja Petzold, and Hannes Feyrer

Subjects

chemistry.chemical_classification, Millisecond, education.field_of_study, Materials science, General Immunology and Microbiology, Base pair, General Chemical Engineering, General Neuroscience, Biomolecule, Population, Relaxation (NMR), RNA, General Biochemistry, Genetics and Molecular Biology, chemistry, Sample preparation, Biological system, education, Protein secondary structure

Abstract

RNA is a highly flexible biomolecule, wherein changes in structures play crucial roles in the functions that RNA molecules execute as cellular messengers and modulators. While these dynamic states remain hidden to most structural methods, R1ρ relaxation dispersion (RD) spectroscopy allows the study of conformational dynamics in the micro- to millisecond regime at atomic resolution. The use of 1H as the observed nucleus further expands the time regime covered and gives direct access to hydrogen bonds and base pairing. The challenging steps in such a study are high-purity and high-yield sample preparation, potentially 13C- and 15N-labeled, as well as setup of experiments and fitting of data to extract population, exchange rate, and secondary structure of the previously invisible state. This protocol provides crucial hands-on steps in sample preparation to ensure the preparation of a suitable RNA sample and setup of 1H R1ρ experiments with both isotopically labeled and unlabeled RNA samples.

Published

2021

17. Production of Structured RNA Fragments by In Vitro Transcription and HPLC Purification

Author

Hampus Karlsson, Hannes Feyrer, Lorenzo Baronti, and Katja Petzold

Subjects

chemistry.chemical_classification, Magnetic Resonance Spectroscopy, Transcription, Genetic, General Immunology and Microbiology, biology, Chemistry, General Neuroscience, RNA, Health Informatics, General Biochemistry, Genetics and Molecular Biology, Medical Laboratory Technology, Tandem repeat, Structural biology, Biochemistry, Transcription (biology), Yield (chemistry), biology.protein, Nucleotide, General Pharmacology, Toxicology and Pharmaceutics, RNase H, Protein secondary structure, Chromatography, High Pressure Liquid, Chromatography, Liquid

Abstract

The understanding of the functional importance of RNA has increased enormously in the last decades. This has required research on the RNA molecules themselves, with the concomitant need for obtaining purified RNA samples, such as for structural studies by NMR or other methods. The main method to create labeled and unlabeled RNA, T7 in vitro transcription, suffers from sequence-dependent yield and often low homogeneity for short constructs (

Published

2021

18. A robust and versatile method for production and purification of large-scale RNA samples for structural biology

Author

Hampus Karlsson, Lorenzo Baronti, and Katja Petzold

Subjects

0303 health sciences, Ion exchange hplc, Magnetic Resonance Spectroscopy, Transcription, Genetic, Scale (chemistry), Ion pairing, 030302 biochemistry & molecular biology, RNA, Computational biology, Biology, In vitro transcription, In vitro, Article, 03 medical and health sciences, Structural biology, Molecular Biology, Function (biology), Chromatography, High Pressure Liquid, 030304 developmental biology

Abstract

Recent findings in genome-wide transcriptomics revealed that RNAs are involved in almost every biological process, across all domains of life. The characterization of native RNAs of unknown function and structure is particularly challenging due to their typical low abundance in the cell and the inherent sensitivity toward ubiquitous RNA degrading enzymes. Therefore, robust in vitro synthesis and extensive work-up methods are often needed to obtain samples amenable for biochemical, biophysical, and structural studies. Here, we present a protocol that combines the most recent advances in T7 in vitro transcription methodology with reverse phase ion pairing and ion exchange HPLC purification of RNAs for the production of yield-optimized large-scale samples. The method is easy to follow, robust and suitable for users with little or no experience within the field of biochemistry or chromatography. The complete execution of this method, for example, for production of isotopically labeled NMR samples, can be performed in less than a week.

Published

2020

19. Correction to ‘Secondary structure determination of conserved SARS-CoV-2 RNA elements by NMR spectroscopy’

Author

Anna Wacker, Julia E Weigand, Sabine R Akabayov, Nadide Altincekic, Jasleen Kaur Bains, Elnaz Banijamali, Oliver Binas, Jesus Castillo-Martinez, Erhan Cetiner, Betül Ceylan, Liang-Yuan Chiu, Jesse Davila-Calderon, Karthikeyan Dhamotharan, Elke Duchardt-Ferner, Jan Ferner, Lucio Frydman, Boris Fürtig, José Gallego, J Tassilo Grün, Carolin Hacker, Christina Haddad, Martin Hähnke, Martin Hengesbach, Fabian Hiller, Katharina F Hohmann, Daniel Hymon, Vanessa de Jesus, Henry Jonker, Heiko Keller, Bozana Knezic, Tom Landgraf, Frank Löhr, Le Luo, Klara R Mertinkus, Christina Muhs, Mihajlo Novakovic, Andreas Oxenfarth, Martina Palomino-Schätzlein, Katja Petzold, Stephen A Peter, Dennis J Pyper, Nusrat S Qureshi, Magdalena Riad, Christian Richter, Krishna Saxena, Tatjana Schamber, Tali Scherf, Judith Schlagnitweit, Andreas Schlundt, Robbin Schnieders, Harald Schwalbe, Alvaro Simba-Lahuasi, Sridhar Sreeramulu, Elke Stirnal, Alexey Sudakov, Jan-Niklas Tants, Blanton S Tolbert, Jennifer Vögele, Lena Weiß, Julia Wirmer-Bartoschek, Maria A Wirtz Martin, Jens Wöhnert, and Heidi Zetzsche

Subjects

Models, Molecular, 2019-20 coronavirus outbreak, Magnetic Resonance Spectroscopy, Coronavirus disease 2019 (COVID-19), AcademicSubjects/SCI00010, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Genome, Viral, Biology, 03 medical and health sciences, Genetics, Humans, 3' Untranslated Regions, Pandemics, Protein secondary structure, 030304 developmental biology, 0303 health sciences, Base Sequence, SARS-CoV-2, 030302 biochemistry & molecular biology, COVID-19, Frameshifting, Ribosomal, RNA, Nuclear magnetic resonance spectroscopy, Virology, Nucleic Acid Conformation, RNA, Viral, Corrigendum

Abstract

The current pandemic situation caused by the Betacoronavirus SARS-CoV-2 (SCoV2) highlights the need for coordinated research to combat COVID-19. A particularly important aspect is the development of medication. In addition to viral proteins, structured RNA elements represent a potent alternative as drug targets. The search for drugs that target RNA requires their high-resolution structural characterization. Using nuclear magnetic resonance (NMR) spectroscopy, a worldwide consortium of NMR researchers aims to characterize potential RNA drug targets of SCoV2. Here, we report the characterization of 15 conserved RNA elements located at the 5' end, the ribosomal frameshift segment and the 3'-untranslated region (3'-UTR) of the SCoV2 genome, their large-scale production and NMR-based secondary structure determination. The NMR data are corroborated with secondary structure probing by DMS footprinting experiments. The close agreement of NMR secondary structure determination of isolated RNA elements with DMS footprinting and NMR performed on larger RNA regions shows that the secondary structure elements fold independently. The NMR data reported here provide the basis for NMR investigations of RNA function, RNA interactions with viral and host proteins and screening campaigns to identify potential RNA binders for pharmaceutical intervention.

Published

2021

20. Efficient Detection of Structure and Dynamics in Unlabeled RNAs: The SELOPE Approach

Author

Katja Petzold, Emilie Steiner, Judith Schlagnitweit, and Hampus Karlsson

Subjects

0301 basic medicine, unlabeled, Biochemistry, Catalysis, Ion, 03 medical and health sciences, NMR spectroscopy, Sensitivity (control systems), Nuclear Magnetic Resonance, Biomolecular, Throughput (business), chemistry.chemical_classification, Chemistry, Communication, Biomolecule, Organic Chemistry, RNA, General Chemistry, Nuclear magnetic resonance spectroscopy, Communications, 030104 developmental biology, Excited state, relaxation dispersion, Nucleic acid, Biological system, biomolecular dynamics

Abstract

The knowledge of structure and dynamics is crucial to explain the function of RNAs. While nuclear magnetic resonance (NMR) is well suited to probe these for complex biomolecules, it requires expensive, isotopically labeled samples, and long measurement times. Here we present SELOPE, a new robust, proton‐only NMR method that allows us to obtain site‐specific overview of structure and dynamics in an entire RNA molecule using an unlabeled sample. SELOPE simplifies assignment and allows for cost‐effective screening of the response of nucleic acids to physiological changes (e.g. ion concentration) or screening of drugs in a high throughput fashion. This single technique allows us to probe an unprecedented range of exchange time scales (the whole μs to ms motion range) with increased sensitivity, surpassing all current experiments to detect chemical exchange. For the first time we could describe an RNA excited state using an unlabeled RNA.

Published

2018

21. A guide to large-scale RNA sample preparation

Author

Katja Petzold, Hampus Karlsson, Maja Marušič, and Lorenzo Baronti

Subjects

0301 basic medicine, Transcription, Genetic, Computer science, Sample preparation, Review, Computational biology, 010402 general chemistry, 01 natural sciences, Biochemistry, Chromatography, Affinity, Analytical Chemistry, 03 medical and health sciences, In vitro transcription, Animals, Humans, Chemical synthesis, Chromatography, High Pressure Liquid, Chromatography, Reverse-Phase, Scale (chemistry), RNA, Chromatography, Ion Exchange, 0104 chemical sciences, 030104 developmental biology, Structural biology, Chromatography, Gel, Preparative high-performance liquid chromatography

Abstract

RNA is becoming more important as an increasing number of functions, both regulatory and enzymatic, are being discovered on a daily basis. As the RNA boom has just begun, most techniques are still in development and changes occur frequently. To understand RNA functions, revealing the structure of RNA is of utmost importance, which requires sample preparation. We review the latest methods to produce and purify a variation of RNA molecules for different purposes with the main focus on structural biology and biophysics. We present a guide aimed at identifying the most suitable method for your RNA and your biological question and highlighting the advantages of different methods. Graphical abstract In this review we present different methods for large-scale production and purification of RNAs for structural and biophysical studies.

Published

2018

22. Single Base-Pair Conformational Switch Modulates miR-34a Targeting of Sirt1 mRNA

Author

Katja Petzold

Subjects

Messenger RNA, Chemistry, Base pair, Biophysics, Cell biology

Published

2021

23. Observing an antisense drug complex in intact human cells by in-cell NMR

Author

Ileana Guzzetti, Judith Schlagnitweit, Katja Petzold, Sarah Friebe Sandoz, Andrew J. Pell, Elisabetta Chiarparin, Rodrigo J. Carbajo, Fabien Aussenac, and Aleksander Jaworski

Subjects

Drug, 0303 health sciences, biology, Chemistry, media_common.quotation_subject, HEK 293 cells, Target engagement, Transfection, 010402 general chemistry, biology.organism_classification, 01 natural sciences, Fluorescence, 0104 chemical sciences, HeLa, 03 medical and health sciences, Downregulation and upregulation, Biophysics, Intracellular, 030304 developmental biology, media_common

Abstract

Gaining insight into the uptake of drugs into cells, trafficking and their target engagement enhances understanding of the drug’s function and efficiency. Here we study an antisense oligonucleotide drug (ASO) delivered into HEK293T and HeLa cells, by Nuclear Magnetic Resonance (NMR). Using a combination of transfection, cryoprotection and dynamic nuclear polarization (DNP), we were able to detect the drug directly in intact frozen cells. Activity of the drug was confirmed by qRT-PCR, measuring downregulation of its target mSTAT3. Applying DNP NMR to frozen cells, we overcome limitations of traditional solution-state in-cell NMR (e.g. size, stability and sensitivity) as well as of visualization techniques, where (e.g. fluorescent) tagging of the ASO decreases its activity. The possibility to study an untagged, active drug, interacting in its natural environment, will increase insights into molecular mechanisms of delivery, intracellular trafficking and target engagement in intact cells.

Published

2019

24. A two-dimensional replica-exchange molecular dynamics method for simulating RNA folding using sparse experimental restraints

Author

Katja Petzold, Simi Kaur, Parisa Ebrahimi, Lorenzo Baronti, and Alan A. Chen

Subjects

0303 health sciences, RNA Folding, Chemistry, Replica, 030302 biochemistry & molecular biology, RNA, Computational Biology, Molecular Dynamics Simulation, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Exchange protocol, Molecular dynamics, RNA, Bacterial, Rna structure prediction, RNA, Viral, Thermodynamics, Rna folding, Biological system, Molecular Biology, Protein secondary structure, Base Pairing, 030304 developmental biology

Abstract

We present a 2D replica exchange protocol incorporating secondary structure information to dramatically improve 3D RNA folding using molecular dynamics simulations. We show that incorporating base-pairing restraints into all-atom, explicit solvent simulations enables the accurate recapitulation of the global tertiary fold for 4 representative RNAs ranging in length from 24 to 68 nt. This method can potentially utilize base-pairing information from a wide variety of experimental inputs to predict complex RNA tertiary folds including pseudoknots, multi-loop junctions, and non-canonical interactions.

Published

2019

25. Observing an antisense drug complex in intact human cells by in‐cell NMR

Author

Judith Schlagnitweit, Sarah Friebe Sandoz, Aleksander Jaworski, Ileana Guzzetti, Fabien Aussenac, Rodrigo J. Carbajo, Elisabetta Chiarparin, Andrew J. Pell, and Katja Petzold

Published

2019

26. Base-pair conformational switch modulates miR-34a targeting of Sirt1 mRNA

Author

Lorenzo, Baronti, Ileana, Guzzetti, Parisa, Ebrahimi, Sarah, Friebe Sandoz, Emilie, Steiner, Judith, Schlagnitweit, Bastian, Fromm, Luis, Silva, Carolina, Fontana, Alan A, Chen, and Katja, Petzold

Subjects

Models, Molecular, MicroRNAs, Binding Sites, HEK293 Cells, Sirtuin 1, Argonaute Proteins, Humans, RNA-Induced Silencing Complex, RNA, Messenger, Base Pairing

Abstract

MicroRNAs (miRNAs) regulate the levels of translation of messenger RNAs (mRNAs). At present, the major parameter that can explain the selection of the target mRNA and the efficiency of translation repression is the base pairing between the 'seed' region of the miRNA and its counterpart mRNA

Published

2018

27. Secreted Klotho and FGF23 in chronic kidney disease Stage 1 to 5: a sequence suggested from a cross-sectional study

Author

Stefan Russmann, Ivana Pavik, Philippe Jaeger, Diane Poster, Lena Ebner, Katja Petzold, Andreas L. Serra, Daniela Spichtig, Rudolf P. Wüthrich, Carsten A. Wagner, University of Zurich, and Serra, Andreas L

Subjects

Male, Fibroblast growth factor 23, 2747 Transplantation, 030232 urology & nephrology, Parathyroid hormone, urologic and male genital diseases, Severity of Illness Index, 10052 Institute of Physiology, 0302 clinical medicine, 10035 Clinic for Nephrology, Vitamin D, Klotho, Glucuronidase, Minerals, 0303 health sciences, 2727 Nephrology, Middle Aged, female genital diseases and pregnancy complications, Parathyroid Hormone, Nephrology, 10076 Center for Integrative Human Physiology, Disease Progression, Female, Glomerular Filtration Rate, medicine.drug, Adult, medicine.medical_specialty, Calcitriol, Renal function, 610 Medicine & health, Phosphates, 03 medical and health sciences, Internal medicine, medicine, Vitamin D and neurology, Humans, Renal Insufficiency, Chronic, Klotho Proteins, Aged, 030304 developmental biology, Transplantation, business.industry, Case-control study, medicine.disease, Fibroblast Growth Factors, Fibroblast Growth Factor-23, Cross-Sectional Studies, Endocrinology, 10199 Clinic for Clinical Pharmacology and Toxicology, Case-Control Studies, 570 Life sciences, biology, Calcium, business, Biomarkers, Kidney disease

Abstract

BackgroundKlotho and fibroblast growth factor 23 (FGF23) are key regulators of mineral metabolism in renal insufficiency. FGF23 levels have been shown to increase early in chronic kidney disease (CKD); however, the corresponding soluble Klotho levels at the different CKD stages are not known.MethodsSoluble Klotho, FGF23, parathyroid hormone (PTH), 1,25-dihydroxy vitamin D(3) (1,25D) and other parameters of mineral metabolism were measured in an observational cross-sectional study in 87 patients. Locally weighted scatter plot smoothing function of these parameters were plotted versus estimated glomerular filtration rate (eGFR) to illustrate the pattern of the relationship. Linear and non-linear regression analyses were performed to estimate changes in mineral metabolism parameters per 1mL/min/1.73 m(2) decline.ResultsIn CKD 1-5, Klotho and 1,25D linearly decreased, whereas both FGF23 and PTH showed a baseline at early CKD stages and then a curvilinear increase. Crude mean Klotho level declined by 4.8 pg/mL (95% CI 3.5-6.2 pg/mL, P < 0.0001) and 1,25D levels by 0.30 ng/L (95% CI 0.18-0.41 ng/L, P < 0.0001) as GFR declined by 1 mL/min/1.73 m(2). After adjustment for age, gender, serum 25-hydroxyvitamin D levels and concomitant medications (calcium, supplemental vitamin D and calcitriol), we estimated that the mean Klotho change was 3.2 pg/mL (95% CI 1.2-5.2 pg/mL, P = 0.0019) for each 1 mL/min/1.73 m(2) GFR change. FGF23 departed from the baseline at an eGFR of 47 mL/min/1.73 m(2) (95% CI 39-56 mL/min/1.73 m(2)), whereas PTH departed at an eGFR of 34 mL/min/1.73 m(2) (95% CI 19-50 mL/min/1.73 m(2)).ConclusionsSoluble Klotho and 1,25D levels decrease and FGF23 levels increase at early CKD stages, whereas PTH levels increase at more advanced CKD stages.

Published

2017

28. Front Cover: RNA Dynamics by NMR Spectroscopy (ChemBioChem 21/2019)

Author

Katja Petzold, Judith Schlagnitweit, and Maja Marušič

Subjects

Front cover, Materials science, Chemical physics, Organic Chemistry, Dynamics (mechanics), Molecular Medicine, Relaxation (physics), RNA, Nuclear magnetic resonance spectroscopy, Molecular Biology, Biochemistry

Published

2019

29. Interaction of cyclic mechanical stretch and toll-like receptor 4-mediated innate immunity in rat alveolar type II cells

Author

Hartmut Kuhn, Katja Petzold, Hubert Wirtz, and Stefan Hammerschmidt

Subjects

Pulmonary and Respiratory Medicine, Toll-like receptor, Innate immune system, Monocyte, Inflammation, Lung injury, Biology, Cell biology, Proinflammatory cytokine, Immune system, medicine.anatomical_structure, Immunology, TLR4, medicine, medicine.symptom

Abstract

Background and objective In cases of infection-induced acute lung injury, mechanical ventilation might be necessary to maintain oxygenation. Although low tidal volume ventilation is applied, alveolar over-distension may occur and result in ventilator-induced lung injury. In this study, we investigate (i) the influence of lipopolysaccharide (LPS) stimulation on high-amplitude stretching; and (ii) the effect of stretching on LPS-mediated immune response in isolated rat alveolar type II cells. Methods Type II cells were incubated with LPS and stretched for 24 h on elastic membranes. Initially we examined apoptosis and lactic acid dehydrogenase release in LPS-treated stretched cells. Furthermore we determined toll-like receptor (TLR) 4 expression, TLR4 signalling by analysis of nuclear factor κB (NF-κB) activation and the secretion of inflammatory cytokines (monocyte chemoattractant protein-1, macrophage inflammatory protein-2, interleukin-1 beta, tumour necrosis factor alpha). Results Our results show that LPS increases apoptosis and cytotoxicity in high amplitude stretched cells. Stretching and LPS activate NF-κB. The LPS influence is the prevailing one while no synergistic effects were observed by additional stretching. LPS stimulates an increased secretion of the inflammatory mediators only. Stretching had no influence on cytokines secretion. Conclusions We conclude that activation of TLR4 mediated immunity intensifies cell damage caused by stretching whereas in return stretching had no influence on TLR4 mediated innate immunity.

Published

2013

30. Comprehensive analysis of NMR data using advanced line shape fitting

Author

Renee Otten, Katja Petzold, Alexandra Ahlner, Markus Niklasson, Cecilia Andrésen, Patrik Lundström, and Judith Schlagnitweit

Subjects

0301 basic medicine, Relaxation, Magnetic Resonance Spectroscopy, Analytical chemistry, Spectral analysis, Web Browser, 010402 general chemistry, 01 natural sciences, Biochemistry, Article, 03 medical and health sciences, User-Computer Interface, Software, Peak integration, Line shape fitting, Protocol (object-oriented programming), Spectroscopy, Graphical user interface, Chemistry, business.industry, Process (computing), Biochemistry and Molecular Biology, Reproducibility of Results, Kemi, 0104 chemical sciences, Visualization, Dynamics, 030104 developmental biology, Data Interpretation, Statistical, Line (geometry), Chemical Sciences, Benchmark (computing), Relaxation (approximation), business, Algorithm, Biokemi och molekylärbiologi

Abstract

NMR spectroscopy is uniquely suited for atomic resolution studies of biomolecules such as proteins, nucleic acids and metabolites, since detailed information on structure and dynamics are encoded in positions and line shapes of peaks in NMR spectra. Unfortunately, accurate determination of these parameters is often complicated and time consuming, in part due to the need for different software at the various analysis steps and for validating the results. Here, we present an integrated, cross-platform and open-source software that is significantly more versatile than the typical line shape fitting application. The software is a completely redesigned version of PINT (https://pint-nmr.github.io/PINT/). It features a graphical user interface and includes functionality for peak picking, editing of peak lists and line shape fitting. In addition, the obtained peak intensities can be used directly to extract, for instance, relaxation rates, heteronuclear NOE values and exchange parameters. In contrast to most available software the entire process from spectral visualization to preparation of publication-ready figures is done solely using PINT and often within minutes, thereby, increasing productivity for users of all experience levels. Unique to the software are also the outstanding tools for evaluating the quality of the fitting results and extensive, but easy-to-use, customization of the fitting protocol and graphical output. In this communication, we describe the features of the new version of PINT and benchmark its performance. Electronic supplementary material The online version of this article (doi:10.1007/s10858-017-0141-6) contains supplementary material, which is available to authorized users.

Published

2017

31. Capturing Excited States in the Fast-Intermediate Exchange Limit in Biological Systems Using 1 H NMR Spectroscopy

Author

Katja Petzold, Judith Schlagnitweit, Patrik Lundström, Emilie Steiner, Karolinska Institutet [Stockholm], and Linköping University (LIU)

Subjects

0301 basic medicine, [SDV]Life Sciences [q-bio], 010402 general chemistry, 01 natural sciences, Catalysis, 03 medical and health sciences, Computational chemistry, Teoretisk kemi, Theoretical chemistry, Molecule, [CHIM]Chemical Sciences, Spectroscopy, Theoretical Chemistry, chemistry.chemical_classification, Chemistry, Chemical shift, Biomolecule, biomolecular dynamics, excited states, H-1 NMR spectroscopy, nucleic acids, relaxation dispersion, General Chemistry, General Medicine, Characterization (materials science), 0104 chemical sciences, 030104 developmental biology, Chemical physics, Excited state, Proton NMR

Abstract

Changes in molecular structure are essential for the function of biomolecules. Characterization of these structural fluctuations can illuminate alternative states and help in correlating structure to function. NMR relaxation dispersion (RD) is currently the only method for detecting these alternative, high-energy states. In this study, we present a versatile H-1 R-1 RD experiment that not only extends the exchange timescales at least three times beyond the rate limits of C-13/N-15 R-1 and ten times for CPMG experiments, but also makes use of easily accessible probes, thus allowing a general description of biologically important excited states. This technique can be used to extract chemical shifts for the structural characterization of excited states and to elucidate complex excited states. Funding Agencies|Swedish Research Council [2012-5136]; Tryggers foundation [CTS14-383, CTS15-388]; Karolinska Institutet; Swedish Foundation for Strategic Research [ICA 14-0023]; Ragnar Soderberg foundation [M91/14]; Karolinska Institute; MBB Department

Published

2016

32. Capturing Excited States in the Fast-Intermediate Exchange Limit in Biological Systems Using

Author

Emilie, Steiner, Judith, Schlagnitweit, Patrik, Lundström, and Katja, Petzold

Abstract

Changes in molecular structure are essential for the function of biomolecules. Characterization of these structural fluctuations can illuminate alternative states and help in correlating structure to function. NMR relaxation dispersion (RD) is currently the only method for detecting these alternative, high-energy states. In this study, we present a versatile

Published

2016

33. Visualizing Transient Low-Populated Structures of RNA

Author

Anette Casiano-Negroni, Elizabeth A. Dethoff, Katja Petzold, Hashim M. Al-Hashimi, and Jeetender Chugh

Subjects

Base pair, Biology, 010402 general chemistry, 01 natural sciences, Ribosome, Article, 03 medical and health sciences, Structure-Activity Relationship, Viral genetics, Base sequence, Base Pairing, Nuclear Magnetic Resonance, Biomolecular, 030304 developmental biology, HIV Long Terminal Repeat, Genetics, 0303 health sciences, Multidisciplinary, Base Sequence, Extramural, RNA, 0104 chemical sciences, Biophysics, HIV-1, Nucleic Acid Conformation, RNA, Viral, Ribosomes, Function (biology)

Abstract

The visualization of RNA conformational changes has provided fundamental insights into how regulatory RNAs carry out their biological functions. The RNA structural transitions that have been characterized to date involve long-lived species that can be captured by structure characterization techniques. Here, we report the Nuclear Magnetic Resonance visualization of RNA transitions towards invisible ‘excited states’ (ES), which exist in too little abundance (2–13%) and for too short periods of time (45–250 μs) to allow structural characterization by conventional techniques. Transitions towards ESs result in localized rearrangements in base-pairing that alter building block elements of RNA architecture, including helix-junction-helix motifs and apical loops. The ES can inhibit function by sequestering residues involved in recognition and signaling or promote ATP-independent strand exchange. Thus, RNAs do not adopt a single conformation, but rather exist in rapid equilibrium with alternative ESs, which can be stabilized by cellular cues to affect functional outcomes.

Published

2012

34. Pentacycloundecane-diol-Based HIV-1 Protease Inhibitors: Biological Screening, 2<scp>D </scp>NMR, and Molecular Simulation Studies

Author

Sachin A. Pawar, Katja Petzold, Glenn E. M. Maguire, Yasien Sayed, Thavendran Govender, Bahareh Honarparvar, Mahmoud E. S. Soliman, Hendrik G. Kruger, Per I. Arvidsson, and Maya M. Makatini

Subjects

Stereochemistry, medicine.medical_treatment, Diol, Molecular simulation, Molecular Dynamics Simulation, Biochemistry, chemistry.chemical_compound, HIV Protease, HIV-1 protease, Alkanes, Drug Discovery, medicine, Humans, Moiety, Protease Inhibitors, General Pharmacology, Toxicology and Pharmaceutics, Pharmacology, Binding Sites, Protease, biology, Organic Chemistry, Combinatorial chemistry, Protein Structure, Tertiary, Enzyme Activation, chemistry, Drug Design, HIV-1, biology.protein, Molecular Medicine, Peptides, Two-dimensional nuclear magnetic resonance spectroscopy

Abstract

Novel compounds incorporating a pentacycloundecane (PCU) diol moiety were designed, synthesized, and evaluated as inhibitors of the wild-type C-South African (C-SA) HIV-1 protease. Seven compounds are reported herein, three of which displayed IC(50) values in the 0.5-0.6 μM range. The cytotoxicity of PCU cage peptides toward human MT-4 cells appears to be several orders of magnitude less toxic than the current antiviral medications ritonavir and lopinavir. NMR studies based on the observed through-space (1)H,(1)H distances/contacts in the EASY-ROESY spectra of three of the considered PCU peptide inhibitors enabled us to describe their secondary solution structure. Conserved hydrogen bonding interactions were observed between the hydroxy group of the PCU diol inhibitors and the catalytic triad (Asp25, Ile26, Gly27) of HIV protease in docking and molecular dynamics simulations. The biological significance and possible mode of inhibition by PCU-based HIV protease inhibitors discussed herein facilitates a deeper understanding of this family of inhibitors and their potential application to a vast number of alternative diseases related to proteases.

Published

2012

35. Synthesis, 2D-NMR and molecular modelling studies of pentacycloundecane lactam-peptides and peptoids as potential HIV-1 wild type C-SA protease inhibitors

Author

Thavendran Govender, Hendrik G. Kruger, Glenn E. M. Maguire, Per I. Arvidsson, Mahmoud E. S. Soliman, Yasien Sayed, Patrick Govender, Bahareh Honarparvar, Katja Petzold, Maya M. Makatini, JerônimoLameira, and Cláudio Nahum Alves

Subjects

Magnetic Resonance Spectroscopy, Lactams, Protein Conformation, Stereochemistry, medicine.medical_treatment, Molecular Dynamics Simulation, Lopinavir, Cell Line, Inhibitory Concentration 50, Peptoids, Structure-Activity Relationship, chemistry.chemical_compound, Protein structure, HIV Protease, Toxicity Tests, Drug Discovery, medicine, Humans, HIV Protease Inhibitor, Structure–activity relationship, Pharmacology, Protease, Chemistry, Wild type, HIV Protease Inhibitors, General Medicine, Nuclear magnetic resonance spectroscopy, Molecular Docking Simulation, Biochemistry, Lactam, Peptides, Two-dimensional nuclear magnetic resonance spectroscopy

Abstract

In this study, eight non-natural peptides and peptoids incorporating the pentacycloundecane (PCU) lactam were designed and synthesized as potential inhibitors of the wild type C-SA HIV-protease. Five of these inhibitors gave IC(50) values ranging from 0.5 up to 0.75 µM against the resistance-prone wild type C-South African HIV-protease. NMR EASY-ROESY studies enabled us to describe the secondary structure of three of these compounds in solution. The 3D structures of the selected cage peptides were also modelled in solution using QM/MM/MD simulations. Satisfactory agreement between the NMR observations and the low energy calculated structures exists. Only one of these inhibitors (11 peptoid), which showed the best IC(50)(0.5 µM), exhibited a definable 3-D structure in solution. Autodock4 and AutodockVina were used to model the potential interaction between these inhibitors and the HIV-PR. It appears that the docking results are too crude to be correlated with the relative narrow range of experimental IC(50) values (0.5-10 µM). The PCU-peptides and peptoides were several orders less toxic (145 μM for 11 and 102 μM for 11 peptoid) to human MT-4 cells than lopinavir (0.025 μM). This is the first example of a polycyclic cage framework to be employed as an HIV-PR transition state analogue inhibitor and can potentially be utilized for other diseases related proteases. [Figure: see text].

Published

2012

36. Synthesis and structural studies of pentacycloundecane-based HIV-1 PR inhibitors: A hybrid 2D NMR and docking/QM/MM/MD approach

Author

Nombuso I. Ndlovu, Thavendran Govender, Shimoga N. Sriharsha, Raveen Parboosing, Mahmoud E. S. Soliman, Patrick Govender, Glenn E. M. Maguire, Per I. Arvidsson, Katja Petzold, Yasien Sayed, Bahareh Honarparvar, Maya M. Makatini, Hendrik G. Kruger, and Anneta Naidoo

Subjects

Bridged-Ring Compounds, Models, Molecular, Magnetic Resonance Spectroscopy, Stereochemistry, medicine.medical_treatment, Peptide, QM/MM, Drug Discovery, medicine, HIV Protease Inhibitor, Computer Simulation, Nuclear Magnetic Resonance, Biomolecular, Pharmacology, chemistry.chemical_classification, Protease, biology, Organic Chemistry, Active site, Stereoisomerism, HIV Protease Inhibitors, General Medicine, Enzyme, chemistry, Docking (molecular), HIV-1, biology.protein, Quantum Theory, Two-dimensional nuclear magnetic resonance spectroscopy

Abstract

Pentacycloundecane (PCU) lactam-peptide based HIV protease inhibitors were synthesized and nanomolar activity against the resistance-prone wild type C-South African HIV protease is reported. NMR investigations indicated that the activity is related to the chirality of the PCU moiety and its ability to induce conformations of the coupled peptide side chain. EASY-ROESY NMR experiments gave information about the 3D structure of the cage peptides and 3D solution structure could be linked to the experimental IC(50) activity profile of the considered inhibitors. QM/MM/MD simulations of the inhibitors in solution confirmed the NMR observed conformations. Docking experiments and QM/MM/MD simulations of the inhibitor-HIV PR complexes were also performed. These computational results complimented the experimental inhibition activities and enabled us to report a unique binding mode for PCU-based inhibitors at the active site of HIV-protease enzyme. A conserved hydrogen bonding pattern between the norstatine type functional group of the PCU hydroxylactam and active site residues, ASP25/ASP25', was observed in all active compounds. The biological significance and possible mode of inhibition by PCU-based HIV PR inhibitors discussed herein provide us with a deeper understanding of the mode of action of these novel inhibitors. The PCU-peptides are between 6000 and 8500 time less toxic to human MT-4 cells than Lopinavir. This potentially creates new application avenues for these putative inhibitors to be investigated against a vast number of other disease-related proteases.

Published

2011

37. Synthesis and NMR elucidation of homoisoflavanone analogues

Author

Katja Petzold, Mahidansha M. Shaikh, Karen du Toit, and Hendrik G. Kruger

Subjects

Antifungal, Chemistry, Stereochemistry, medicine.drug_class, medicine, Physical and Theoretical Chemistry, Condensed Matter Physics, Two-dimensional nuclear magnetic resonance spectroscopy, Combinatorial chemistry, Heteronuclear single quantum coherence spectroscopy

Abstract

A series of five homoisoflavanone analogues have been synthesized from the corresponding 3,5-methoxy phenols via chroman-4-one in three steps. The complete NMR elucidation of these homoisoflavanone analogues is reported. The use of 2D NMR techniques (COSY, NOESY, HSQC and HMBC) proved to be very useful tools in the elucidation of homoisoflavanone analogues. The homoisoflavanone analogues exhibit an AA′BB′ spin pattern in the ring B of the homoisoflavanone. These homoisoflavanone analogues are potential antifungal and anti-inflammatory agents.

Published

2010

38. Novel tetrahydroisoquinoline based organocatalysts for asymmetric Diels–Alder reactions: insight into the catalytic mode using ROESY NMR and DFT studies

Author

Per I. Arvidsson, Hendrik G. Kruger, Tricia Naicker, Katja Petzold, Thishana Singh, Glenn E. M. Maguire, and Thavendran Govender

Subjects

Cyclohexane, Tetrahydroisoquinoline, Organic Chemistry, Iminium, Catalysis, Cinnamaldehyde, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Computational chemistry, Organic chemistry, Density functional theory, Physical and Theoretical Chemistry, Triflic acid, Two-dimensional nuclear magnetic resonance spectroscopy

Abstract

For the first time an organocatalyst bearing a secondary nitrogen within a cyclohexane ring has been evaluated in the asymmetric Diels–Alder reaction. This organocatalyst is also the first of its kind based on a (1R,3S)-6,7-dimethoxy-1-phenyl-1,2,3,4-tetrahydroisoquinoline backbone. These catalysts were tested over a range of dienes and dienophiles and displayed promising chemical conversions of up to 100% with up to 64% ee with triflic acid as the cocatalyst. Density functional theory computational studies and 2D NMR spectroscopy were used to determine the structure of the intermediate iminium ion formed between the most efficient catalyst and cinnamaldehyde. The reaction profile for each of the four possibilities in this reaction were calculated and it was found that the iminium intermediate leading to the major product is higher in energy but kinetically preferred. The activation energies of all possible reaction paths were calculated and the results correlated with the observed products. These experiments revealed that the presence of both (E)- and (Z)-isomers of the cinnamaldehyde were contributing factors for the low enantioselectivity of the reaction products.

Published

2010

39. Biochemical and functional characterization of Helicobacter pylori vesicles

Author

Katja Petzold, Steffen Backert, Nicole Tegtmeyer, Gerhard Gröbner, Jürgen Schleucher, Sven R. Carlsson, Anna Vallström, Rainer Haas, Anna Arnqvist, Sun Nyunt Wai, and Annelie Olofsson

Subjects

Vesicle, Virulence, Pathogenic bacteria, Biology, Helicobacter pylori, biology.organism_classification, medicine.disease_cause, Microbiology, Bacterial adhesin, medicine.anatomical_structure, Gastric mucosa, medicine, CagA, Molecular Biology, Bacteria

Abstract

Helicobacter pylori can cause peptic ulcer disease and/or gastric cancer. Adhesion of bacteria to the stomach mucosa is an important contributor to the vigour of infection and resulting virulence. H. pylori adheres primarily via binding of BabA adhesins to ABO/Lewis b (Leb) blood group antigens and the binding of SabA adhesins to sialyl-Lewis x/a (sLex/a) antigens. Similar to most Gram-negative bacteria, H. pylori continuously buds off vesicles and vesicles derived from pathogenic bacteria often include virulence-associated factors. Here we biochemically characterized highly purified H. pylori vesicles. Major protein and phospholipid components associated with the vesicles were identified with mass spectroscopy and nuclear magnetic resonance. A subset of virulence factors present was confirmed by immunoblots. Additional functional and biochemical analysis focused on the vesicle BabA and SabA adhesins and their respective interactions to human gastric epithelium. Vesicles exhibit heterogeneity in their protein composition, which were specifically studied in respect to the BabA adhesin. We also demonstrate that the oncoprotein, CagA, is associated with the surface of H. pylori vesicles. Thus, we have explored mechanisms for intimate H. pylori vesicle-host interactions and found that the vesicles carry effector-promoting properties that are important to disease development.

Published

2010

40. EASY ROESY: Reliable Cross-Peak Integration in Adiabatic Symmetrized ROESY

Author

Katja Petzold, Jürgen Schleucher, and Christina M. Thiele

Subjects

Distance constraints, Magnetic Resonance Spectroscopy, Chemistry, Organic Chemistry, Molecular Conformation, Proteins, General Chemistry, Nuclear magnetic resonance spectroscopy, Catalysis, Kinetics, Computational chemistry, Chemical physics, Intramolecular force, Organometallic Compounds, Molecule, Adiabatic process

Abstract

Estimates of intramolecular distances are essential for structure determination. For medium-sized molecules, ROESY NMR is the method of choice for obtaining distances. However, the integration of R ...

Published

2009

41. Modulating RNA Alignment Using Directional Dynamic Kinks: Application in Determining an Atomic-Resolution Ensemble for a Hairpin using NMR Residual Dipolar Couplings

Author

David A. Case, Akash Bhattacharya, George M. Giambaşu, Loïc Salmon, Katja Petzold, Hashim M. Al-Hashimi, Evgenia N. Nikolova, Department of Molecular, Cellular and Developmental Biology, University of Michigan [Ann Arbor], University of Michigan System-University of Michigan System, The University of Texas Health Science Center at Houston (UTHealth), Department of Chemistry and Chemical Biology, Rutgers, The State University of New Jersey [New Brunswick] (RU), and Rutgers University System (Rutgers)-Rutgers University System (Rutgers)

Subjects

chemistry.chemical_classification, Quantitative Biology::Biomolecules, [SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Structural Biology [q-bio.BM], Biomolecule, RNA, General Chemistry, Residual, Biochemistry, Catalysis, Force field (chemistry), Article, Crystallography, Dipole, Molecular dynamics, [SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biomolecules [q-bio.BM], Colloid and Surface Chemistry, chemistry, Chemical physics, Helix, Nucleic acid, Nucleic Acid Conformation, Nuclear Magnetic Resonance, Biomolecular

Abstract

International audience; Approaches that combine experimental data and computational molecular dynamics (MD) to determine atomic resolution ensembles of biomolecules require the measurement of abundant experimental data. NMR residual dipolar couplings (RDCs) carry rich dynamics information, however, difficulties in modulating overall alignment of nucleic acids have limited the ability to fully extract this information. We present a strategy for modulating RNA alignment that is based on introducing variable dynamic kinks in terminal helices. With this strategy, we measured seven sets of RDCs in a cUUCGg apical loop and used this rich data set to test the accuracy of an 0.8 μs MD simulation computed using the Amber ff10 force field as well as to determine an atomic resolution ensemble. The MD-generated ensemble quantitatively reproduces the measured RDCs, but selection of a sub-ensemble was required to satisfy the RDCs within error. The largest discrepancies between the RDC-selected and MD-generated ensembles are observed for the most flexible loop residues and backbone angles connecting the loop to the helix, with the RDC-selected ensemble resulting in more uniform dynamics. Comparison of the RDC-selected ensemble with NMR spin relaxation data suggests that the dynamics occurs on the ps-ns time scales as verified by measurements of R1ρ relaxation-dispersion data. The RDC-satisfying ensemble samples many conformations adopted by the hairpin in crystal structures indicating that intrinsic plasticity may play important roles in conformational adaptation. The approach presented here can be applied to test nucleic acid force fields and to characterize dynamics in diverse RNA motifs at atomic resolution.

Published

2015

42. Urinary biomarkers at early ADPKD disease stage

Author

Gustav Andreisek, Diane Poster, Katharina Spanaus, Ivana Pavik, Fabienne Krauer, Thi Dan Linh Nguyen-Kim, Thien Anh Ho, Katja Petzold, Laura Rotar, Andreas L. Serra, University of Zurich, and UCL - (SLuc) Service de néphrologie

Subjects

Male, Pathology, 030232 urology & nephrology, lcsh:Medicine, Disease, 030204 cardiovascular system & hematology, Kidney, urologic and male genital diseases, Cohort Studies, chemistry.chemical_compound, 0302 clinical medicine, Stage (cooking), 10. No inequality, lcsh:Science, 10038 Institute of Clinical Chemistry, Multidisciplinary, 10042 Clinic for Diagnostic and Interventional Radiology, Organ Size, Polycystic Kidney, Autosomal Dominant, female genital diseases and pregnancy complications, 3. Good health, medicine.anatomical_structure, Disease Progression, Regression Analysis, Female, Research Article, Glomerular Filtration Rate, Adult, medicine.medical_specialty, Urinary system, Autosomal dominant polycystic kidney disease, Urology, Renal function, 610 Medicine & health, 1100 General Agricultural and Biological Sciences, Models, Biological, 03 medical and health sciences, 1300 General Biochemistry, Genetics and Molecular Biology, medicine, Humans, Disease burden, Demography, Creatinine, 1000 Multidisciplinary, urogenital system, business.industry, lcsh:R, medicine.disease, chemistry, lcsh:Q, business, Biomarkers

Abstract

Background Autosomal dominant polycystic kidney disease (ADPKD) is characterized by a decline in renal function at late disease stage when the majority of functional renal parenchyma is replaced by cystic tissue. Thus, kidney function, assessed by estimated glomerular filtration rate (eGFR) does not well represent disease burden in early disease. Here, we investigated various urinary markers for tubular injury and their association with disease burden in ADPKD patients at early disease course. Methods ADPKD patients between 18 and 40 years with an eGFR greater or equal to 70 ml per min per 1.73m2 were eligible for this cross-sectional study. Urinary Neutrophil Gelatinase-Associated Lipocalin (NGAL), Kidney Injury Molecule-1 (KIM-1), and Uromodulin (UMOD) were investigated by Enzyme-Linked Immunosorbent Assay. Clara Cell Protein 16 (CC16) was investigated by Latex Immuno Assay. Cryoscopy was performed to assess urine osmolality and Urinary Albumin-to-Creatinine Ratio (UACR) was calculated. The association and the predictive properties of the markers on eGFR and height adjusted total kidney volume (htTKV) was evaluated using multiple regression analysis, incorporating different control variables for adjustment. Internal bootstrapping validated the obtained results. Results In 139 ADPKD patients (age 31 ±7 years, mean eGFRof 93 ± 19 ml per min per 1.73m2) the total kidney volume was negatively correlated with eGFR and UMOD and positive associated with age, UACR, KIM-1 and urine osmolality after adjustment for possible confounders. Urine osmolality and htTKV were also associated with eGFR, whereas no association of CC16, NGAL and UMOD with eGFR or htTKV was found. Conclusion UACR and urinary KIM-1 are independently associated with kidney size but not with renal function in our study population. Urine osmolality was associated with eGFR and kidney volume following adjustment for multiple confounders. Despite statistical significance, the clinical value of our results is not yet conceivable. Further studies are needed to evaluate the property of the aforementioned biomarkers to assess disease state at early ADPKD stage.

Published

2015

43. Adding a second dimension

Author

Hashim M. Al-Hashimi and Katja Petzold

Subjects

chemistry.chemical_classification, chemistry, Dimension (vector space), General Chemical Engineering, RNA, Nucleotide, General Chemistry, Computational biology, Function (mathematics), Nucleic acid structure

Abstract

Mutating RNA one nucleotide at a time and measuring the impact of this on its chemical reactivity provides a strategy for determining its three-dimensional structure, and from there, hopefully, its function.

Published

2011

44. Building a network of ADPKD reference centres across Europe: The EuroCYST initiative

Author

Tevfik Ecder, Andreas L. Serra, Yannick Le Meur, Dominique Chaveau, Ron T. Gansevoort, Olivier Devuyst, Rudolf P. Wüthrich, Kai-Uwe Eckardt, Giuseppe Remuzzi, Anna Köttgen, Richard Sandford, Klemens Budde, Albert C.M. Ong, Katja Petzold, Vladimir Tesar, Laura Rotar, Roser Torra, Yves Pirson, Cardiovascular Centre (CVC), Groningen Kidney Center (GKC), University of Zurich, and Serra, Andreas L

Subjects

Pediatrics, Pathology, 2747 Transplantation, Health Status, medicine.medical_treatment, 030232 urology & nephrology, PROGRESSION, SIROLIMUS, 030204 cardiovascular system & hematology, urologic and male genital diseases, 10052 Institute of Physiology, POLYCYSTIC KIDNEY-DISEASE, 0302 clinical medicine, EVEROLIMUS, DESIGN, Medizinische Fakultät, Surveys and Questionnaires, Epidemiology, Polycystic kidney disease, risk factors, Longitudinal Studies, Referral and Consultation, 2727 Nephrology, Standard of Care, cohort, Health Services, Polycystic Kidney, Autosomal Dominant, Prognosis, DEPRESSION, Magnetic Resonance Imaging, 3. Good health, Europe, EuroCYST, Research Design, Nephrology, 10076 Center for Integrative Human Physiology, Cohort, biomarker, Glomerular Filtration Rate, Cohort study, medicine.medical_specialty, CYST GROWTH, Autosomal dominant polycystic kidney disease, 610 Medicine & health, DIAGNOSIS, Young Adult, 03 medical and health sciences, medicine, Humans, ddc:610, Renal replacement therapy, ADPKD, Transplantation, business.industry, medicine.disease, VOLUME, 570 Life sciences, biology, business, Biomarkers, Kidney disease

Abstract

Background. Autosomal dominant polycystic kidney disease (ADPKD) is the most common monogenic inherited kidney disease, affecting an estimated 600 000 individuals in Europe. The disease is characterized by age-dependent development of a multiple cysts in the kidneys, ultimately leading to end-stage renal failure and the need of renal replacement therapy in the majority of patients, typically by the fifth or sixth decade of life. The variable disease course, even within the same family, remains largely unexplained. Similarly, assessing disease severity and prognosis in an individual with ADPKD remains difficult. Epidemiological studies are limited due to the fragmentation of ADPKD research in Europe.Methods. The EuroCYST initiative aims: (i) to harmonize and develop common standards for ADPKD research by starting a collaborative effort to build a network of ADPKD reference centres across Europe and (ii) to establish a multicentric observational cohort of ADPKD patients. This cohort will be used to study factors influencing the rate of disease progression, disease modifiers, disease stage-specific morbidity and mortality, health economic issues and to identify predictive disease progression markers. Overall, 1100 patients will be enrolled in 14 study sites across Europe. Patients will be prospectively followed for at least 3 years. Eligible patients will not have participated in a pharmaceutical clinical trial 1 year before enrolment, have clinically proven ADPKD, an estimated glomerular filtration rate (eGFR) of 30 mL/min/1.73 m(2) and above, and be able to provide written informed consent. The baseline visit will include a physical examination and collection of blood, urine and DNA for biomarker and genetic studies. In addition, all participants will be asked to complete questionnaires detailing self-reported health status, quality of life, socioeconomic status, health-care use and reproductive planning. All subjects will undergo annual follow-up. A magnetic resonance imaging (MRI) scan will be carried out at baseline, and patients are encouraged to undergo a second MRI at 3-year follow-up for qualitative and quantitative kidney and liver assessments.Conclusions. The ADPKD reference centre network across Europe and the observational cohort study will enable European ADPKD researchers to gain insights into the natural history, heterogeneity and associated complications of the disease as well as how it affects the lives of patients across Europe.

Published

2014

45. Le tolvaptan pour le traitement de la polykystose rénale autosomique dominante – état actuel des connaissances

Author

Katja Petzold, Andreas L. Serra, and Laura Rotar

Published

2014

46. Tolvaptan zur Therapie der autosomal-dominanten polyzystischen Nierenerkrankung - aktueller Stand

Author

Andreas L. Serra, Laura Rotar, Katja Petzold, and University of Zurich

Subjects

610 Medicine & health, 10035 Clinic for Nephrology

Abstract

Tolvaptan (Samsca®) fordert die renale Ausscheidung von freiem Wasser und wird deshalb als Aquaretikum bezeichnet. Die Wirksamkeit von Tolvaptan bei der autosomal-dominanten polyzystischen Nierenerkrankung wurde in einer multizentrischen Studie untersucht.

Published

2014

47. Predictive Understanding of RNA Dynamic Behavior: Bringing Order to Disorder

Author

Elizabeth A. Dethoff, Charlie Brooks, Tony Mustoe, Katja Petzold, Hashim M. Al-Hashimi, and Jeetender Chugh

Subjects

Computer science, Genetics, RNA, Computational biology, Bioinformatics, Molecular Biology, Biochemistry, Biotechnology

Published

2013

48. Interaction of cyclic mechanical stretch and toll-like receptor 4-mediated innate immunity in rat alveolar type II cells

Author

Hartmut, Kuhn, Katja, Petzold, Stefan, Hammerschmidt, and Hubert, Wirtz

Subjects

Male, Acute Lung Injury, Blotting, Western, Apoptosis, Enzyme-Linked Immunosorbent Assay, Immunohistochemistry, Immunity, Innate, Rats, Rats, Sprague-Dawley, Toll-Like Receptor 4, Disease Models, Animal, Pulmonary Stretch Receptors, Alveolar Epithelial Cells, Animals, Cells, Cultured, Signal Transduction

Abstract

In cases of infection-induced acute lung injury, mechanical ventilation might be necessary to maintain oxygenation. Although low tidal volume ventilation is applied, alveolar over-distension may occur and result in ventilator-induced lung injury. In this study, we investigate (i) the influence of lipopolysaccharide (LPS) stimulation on high-amplitude stretching; and (ii) the effect of stretching on LPS-mediated immune response in isolated rat alveolar type II cells.Type II cells were incubated with LPS and stretched for 24 h on elastic membranes. Initially we examined apoptosis and lactic acid dehydrogenase release in LPS-treated stretched cells. Furthermore we determined toll-like receptor (TLR) 4 expression, TLR4 signalling by analysis of nuclear factor κB (NF-κB) activation and the secretion of inflammatory cytokines (monocyte chemoattractant protein-1, macrophage inflammatory protein-2, interleukin-1 beta, tumour necrosis factor alpha).Our results show that LPS increases apoptosis and cytotoxicity in high amplitude stretched cells. Stretching and LPS activate NF-κB. The LPS influence is the prevailing one while no synergistic effects were observed by additional stretching. LPS stimulates an increased secretion of the inflammatory mediators only. Stretching had no influence on cytokines secretion.We conclude that activation of TLR4 mediated immunity intensifies cell damage caused by stretching whereas in return stretching had no influence on TLR4 mediated innate immunity.

Published

2012

49. Synthesis, screening and computational investigation of pentacycloundecane-peptoids as potent CSA-HIV PR inhibitors

Author

Per I. Arvidsson, Bahareh Honarparvar, Maya M. Makatini, Thavendran Govender, Raveen Parboosing, Katja Petzold, Mahmoud E. S. Soliman, Hendrik G. Kruger, Glenn E. M. Maguire, and Yasien Sayed

Subjects

Magnetic Resonance Spectroscopy, Stereochemistry, medicine.medical_treatment, Molecular Conformation, Nuclear Overhauser effect, chemistry.chemical_compound, Peptoids, South Africa, Structure-Activity Relationship, HIV Protease, Transition state analog, Catalytic Domain, Drug Discovery, medicine, HIV Protease Inhibitor, Structure–activity relationship, Humans, Polycyclic Compounds, Pharmacology, Protease, biology, Organic Chemistry, Active site, Peptoid, General Medicine, HIV Protease Inhibitors, Combinatorial chemistry, Molecular Docking Simulation, chemistry, Docking (molecular), biology.protein, HIV-1, Oligopeptides, Protein Binding

Abstract

Herein, we present the first pentacycloundecane (PCU) diol peptoid derived HIV protease inhibitors with IC(50) values ranging from 6.5 to 0.075 μM. Five derivatives were synthesized in an attempt to understand the structure activity relationship of this class of compounds for HIV protease inhibition. NMR spectroscopy (new Efficient Adiabatic Symmetrized Rotating Overhauser Effect Spectroscopy, EASY-ROESY) was employed to determine the predominant conformation of the active compound. In this study docking studies and MD simulations provided insight into the binding theme of this class of peptoid inhibitors to the CSA-HIV PR active site. Conserved and stable hydrogen bonding between the hydroxyl groups of the inhibitors and the active site Asp25/Asp25' residues were observed from the docking and along the MD trajectories.

Published

2012

50. Pentacycloundecane-based inhibitors of wild-type C-South African HIV-protease

Author

Katja Petzold, Maya M. Makatini, Patrick Govender, Per I. Arvidsson, Bahareh Honarparvar, Yasien Sayed, Hendrik G. Kruger, Glenn E. M. Maguire, Shimoga N. Sriharsha, Thavendran Govender, and Mahmoud E. S. Soliman

Subjects

Genotype, medicine.medical_treatment, Clinical Biochemistry, Pharmaceutical Science, Peptide, Tripeptide, Biochemistry, South Africa, HIV Protease, Catalytic Domain, Drug Discovery, Alkanes, medicine, HIV Protease Inhibitor, Humans, Protease inhibitor (pharmacology), Computer Simulation, Molecular Biology, chemistry.chemical_classification, Protease, Binding Sites, biology, Chemistry, Organic Chemistry, Wild type, virus diseases, HIV, HIV Protease Inhibitors, Virology, Enzyme, Enzyme inhibitor, biology.protein, Molecular Medicine

Abstract

In this study, we present the first account of pentacycloundecane (PCU) peptide based HIV-protease inhibitors. The inhibitor exhibiting the highest activity made use of a natural HIV-protease substrate peptide sequence, that is, attached to the cage (PCU-EAIS). This compound showed nanomolar IC(50) activity against the resistance-prone wild type C-South African HIV-protease (C-SA) catalytic site via a norstatine type functional group of the PCU hydroxy lactam. NMR was employed to determine a logical correlation between the inhibitory concentration (IC(50)) results and the 3D structure of the corresponding inhibitors in solution. NMR investigations indicated that the activity is related to the chirality of the PCU moiety and its ability to induce conformations of the coupled peptide side chain. The results from docking experiments coincided with the experimental observed activities. These findings open up useful applications for this family of cage peptide inhibitors, considering the vast number of alternative disease related proteases that exist.

Published

2011