Your search keyword '"peptide nucleic acids"' showing total 4,841 results

201. Potentiating the Anti-Tuberculosis Efficacy of Peptide Nucleic Acids through Combinations with Permeabilizing Drugs

Author

Karishma Berta Cotta, Saptarshi Ghosh, and Sarika Mehra

Subjects

ethambutol, peptide nucleic acids, permeability, tuberculosis, intramacrophage, Microbiology, QR1-502

Abstract

ABSTRACT The emergence of antimicrobial resistance warrants for the development of improved treatment approaches. In this regard, peptide nucleic acids (PNAs) have shown great promise, exhibiting antibiotic properties through the targeting of cellular nucleic acids. We aimed to study the efficacy of PNA as an anti-tuberculosis agent. Since the efficacy of PNA is limited by its low penetration into the cell, we also investigated combinatorial treatments using permeabilizing drugs to improve PNA efficacy. Various concentrations of anti-inhA PNA, permeabilizing drugs, and their combinations were screened against extracellular and intracellular mycobacteria.0.625 to 5 μM anti-inhA PNA was observed to merely inhibit the growth of extracellular M. smegmatis, while low intracellular bacterial load was reduced by 2 or 2.5 log-fold when treated with 2.5 or 5 μM PNA, respectively. Anti-inhA PNA against M. tuberculosis H37Ra exhibited bactericidal properties at 2.5 and 5 μM and enabled a slight reduction in intracellular M. tuberculosis at concentrations from 2.5 to 20 μM. Of the permeabilizing drugs tested, ethambutol showed the most permeabilizing potential and ultimately potentiated anti-inhA PNA to the greatest extent, reducing its efficacious concentration to 1.25 μM against both M. smegmatis and M. tuberculosis. Furthermore, an enhanced clearance of 1.3 log-fold was observed for ethambutol-anti-inhA PNA combinations against intracellular M. tuberculosis. Thus, permeabilizing drug-PNA combinations indeed exhibit improved efficacies. We therefore propose that anti-inhA PNA could improve therapy even when applied in minute doses as an addition to the current anti-tuberculosis drug regimen. IMPORTANCE Peptide nucleic acids have great potential in therapeutics as anti-gene/anti-sense agents. However, their limited uptake in cells has curtailed their widespread application. Through this study, we explore a PNA-drug combinatorial strategy to improve the efficacy of PNAs and reduce their effective concentrations. This work also focuses on improving tuberculosis treatment, which is hindered by the emergence of antimicrobial-resistant strains of Mycobacterium tuberculosis. It is observed that the antibacterial efficacy of anti-inhA PNA is enhanced when it is combined with permeabilizing drugs, particularly ethambutol. This indicates that the addition of even small concentrations of anti-inhA PNA to the current TB regimen could potentiate their therapeutic efficiency. We hypothesize that this system would also overcome isoniazid resistance, since the resistance mutations lie outside the designed anti-inhA PNA target site.

Published

2022

202. Next generation triplex-forming PNAs for site-specific genome editing of the F508del CFTR mutation.

Author

Gupta A, Barone C, Quijano E, Piotrowski-Daspit AS, Perera JD, Riccardi A, Jamali H, Turchick A, Zao W, Saltzman WM, Glazer PM, and Egan ME

Abstract

Background: Cystic Fibrosis (CF) is an autosomal recessive genetic disease caused by mutations in the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR) protein for which there is no cure. One approach to cure CF is to correct the underlying mutations in the CFTR gene. We have used triplex-forming peptide nucleic acids (PNAs) loaded into biodegradable nanoparticles (NPs) in combination with donor DNAs as reagents for correcting mutations associated with genetic diseases including CF. Previously, we demonstrated that PNAs induce recombination between a donor DNA and the CFTR gene, correcting the F508del CFTR mutation in human cystic fibrosis bronchial epithelial cells (CFBE cells) and in a CF murine model leading to improved CFTR function with low off-target effects, however the level of correction was still below the threshold for therapeutic cure., Methods: Here, we report the use of next generation, chemically modified gamma PNAs (γPNAs) containing a diethylene glycol substitution at the gamma position for enhanced DNA binding. These modified γPNAs yield enhanced gene correction of F508del mutation in human bronchial epithelial cells (CFBE cells) and in primary nasal epithelial cells from CF mice (NECF cells)., Results: Treatment of CFBE cells and NECF cells grown at air-liquid interface (ALI) by NPs containing γtcPNAs and donor DNA resulted in increased CFTR function measured by short circuit current and improved gene editing (up to 32 %) on analysis of genomic DNA., Conclusions: These findings provide the basis for further development of PNA and NP technology for editing of the CFTR gene., Competing Interests: Declaration of competing interest During the time of writing this manuscript, ASP, AR, EQ, PMG, WMS, and MEE were consultants to Trucode Gene Repair Inc. ASP, AR, EQ, PMG, WMS, and MEE are inventors on patents assigned to Yale University that are related to the work described., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

203. K-ras mutation detected by peptide nucleic acid-clamping polymerase chain reaction, Ki-67, S100P, and SMAD4 expression can improve the diagnostic accuracy of inconclusive pancreatic EUS-FNB specimens.

Author

Kim BH, Kwon M, Lee D, Park SW, and Shin E

Subjects

Humans, Female, Male, Middle Aged, Aged, Polymerase Chain Reaction methods, Adult, Proto-Oncogene Proteins p21(ras) genetics, Peptide Nucleic Acids, Immunohistochemistry, Aged, 80 and over, Biomarkers, Tumor genetics, Smad4 Protein genetics, Pancreatic Neoplasms genetics, Pancreatic Neoplasms diagnosis, Ki-67 Antigen genetics, Mutation, Endoscopic Ultrasound-Guided Fine Needle Aspiration

Abstract

Objectives: We aimed to assess the diagnostic utility of an immunohistochemical panel including calcium-binding protein P, p53, Ki-67, and SMAD family member 4 and K-ras mutation for diagnosing pancreatic solid lesion specimens obtained by endoscopic ultrasound-guided fine-needle biopsy and to confirm their usefulness in histologically inconclusive cases., Methods: Immunohistochemistry and peptide nucleic acid-clamping polymerase chain reaction for K-ras mutation were performed on 96 endoscopic ultrasound-guided fine-needle biopsy specimens. The diagnostic efficacy of each marker and the combination of markers was calculated. The diagnostic performances of these markers were evaluated in 27 endoscopic ultrasound-guided fine-needle biopsy specimens with histologically inconclusive diagnoses. A classification tree was constructed., Results: K-ras mutation showed the highest accuracy and consistency. Positivity in more than two or three of the five markers showed high diagnostic accuracy (94.6 % and 93.6 %, respectively), and positivity for more than three markers showed the highest accuracy for inconclusive cases (92.0 %). A classification tree using K-ras mutation, Ki-67, S100P, and SMAD4 showed high diagnostic performance, with only two misclassifications in inconclusive cases., Conclusions: K-ras mutation detection via peptide nucleic acid-clamping polymerase chain reaction is a stable and accurate method for distinguishing between pancreatic ductal adenocarcinoma and non-pancreatic ductal adenocarcinoma lesions. A classification tree using K-ras mutation, Ki-67, S100P, and SMAD4 helps increase the diagnostic accuracy of cases that are histologically difficult to diagnose., Competing Interests: Declaration of competing interest The authors declare no potential conflicts of interest., (Copyright © 2024 IAP and EPC. Published by Elsevier B.V. All rights reserved.)

Published

2024

204. Dynamic folding and accessibility of telomeric overhang.

Author

Yildiz, Ahmet

Subjects

*PEPTIDE nucleic acids, *SINGLE-stranded DNA, *DNA-binding proteins, *DNA structure, *CARRIER proteins

Published

2022

205. Peptide nucleic acid as a template for Taq DNA polymerase.

Author

Kuwayama, Hidekazu

Subjects

*PEPTIDE nucleic acids, *DNA polymerases, *COMPLEMENTARY DNA, *DNA primers, *GENETIC transcription, *GENETIC code

Abstract

Peptide nucleic acid (PNA), an artificial DNA analog, comprises a purine or pyrimidine base and a pseudo-peptide backbone instead of deoxyribose-phosphate. PNA has been found to have stronger adhesion and higher stability in binding to its complementary DNA than deoxyribose-phosphate. Thus, it could serve as an agent for gene modulation, demonstrating potential in antisense therapy, molecular diagnostics, and nanotechnology. However, the applications of PNA remain limited because its biological activities are not fully known. Here, I demonstrate that a thermostable DNA polymerase, Thermus aquaticus (Taq) polymerase, exhibits transcriptase activity when a PNA oligomer is used as a template and that genetic information of the oligomer can be amplified by PCR using DNA primers. Furthermore, the insertion of a glutamine peptide stretch in the middle part of the PNA template did not interfere with transcription; it was transcribed into a guanosine or adenosine stretch. Intriguingly, this amino acid-to-DNA transcription did not occur when glycine residues were inserted. A synthetic PNA oligomer can, therefore, function as a template for a DNA polymerase, and polyglutamine peptides can be transcribed into guanosine or adenosine. These findings provide a cornerstone to reveal all amino acid genetic codes and transcription activity in the future. • Peptide nucleic acid (PNA) binds strongly and stably to its cDNA. • PNA oligomers can be directly transcribed into cDNA in vitro as template by Taq polymerase. • A glutamine peptide can be transcribed into a guanine or adenine nucleobase. • Amino acids can be "transcribed" into DNA under certain conditions. • Transcription using non-conventional templates will have diverse applications. [ABSTRACT FROM AUTHOR]

Published

2021

206. A New PNA-FISH Probe Targeting Fannyhessea vaginae.

Author

Sousa, Lúcia G. V., Castro, Joana, França, Angela, Almeida, Carina, Muzny, Christina A., and Cerca, Nuno

Subjects

PEPTIDE nucleic acids, VAGINA, CHILDBEARING age, BACTERIAL vaginitis, SENSITIVITY & specificity (Statistics), FUSARIUM oxysporum

Abstract

Bacterial vaginosis (BV) is the most common vaginal infection in women of reproductive age and has been associated with serious health complications, mainly in pregnant women. It is characterized by a decrease in the number of Lactobacillus species in the healthy vaginal microbiota and an overgrowth of strict and facultative anaerobic bacteria that develop a polymicrobial biofilm. Despite over 60 years of research investigating BV, its etiology is not fully understood. Gardnerella spp. is a crucial microorganism that contributes to the formation of the biofilm and the development of BV, but the role of other BV-associated bacteria is not clear. Nevertheless, Fannyhessea vaginae (previously known as Atopobium vaginae) is a highly specific species for BV, and co-colonization with Gardnerella is thought to be a very specific diagnostic marker. The diagnosis of BV still presents some limitations, since currently used methods often fail to accurately detect BV. This work aims to develop a novel peptide nucleic acid (PNA) probe targeting F. vaginae. This probe was further validated in a multiplex assay, which included a Gardnerella- specific PNA probe, as a possible method for diagnosis of BV, and was compared with quantification by qPCR. The new PNA probe showed excellent sensitivity and specificity and could discriminate F. vaginae - Gardnerella biofilms, confirming the potential to be used for the detection of BV-associated pathogens. [ABSTRACT FROM AUTHOR]

Published

2021

207. Peptide nucleic acid–dependent artifact can lead to false-positive triplex gene editing signals.

Author

Pui Yan Ho, Zhen Zhang, Hayes, Mark E., Curd, Andrew, Dib, Carla, Rayburn, Maire, Tam, Sze Nok, Srivastava, Tumul, Hriniak, Brandon, Xiao-Jun Li, Leonard, Scott, Lan Wang, Tarighat, Somayeh, Sim, Derek S., Fiandaca, Mark, Coull, James M., Ebens, Allen, Fordyce, Marshall, and Czechowicz, Agnieszka

Subjects

*GENOME editing, *PEPTIDE nucleic acids, *SEVERE combined immunodeficiency, *SICKLE cell anemia, *DNA structure

Abstract

Triplex gene editing relies on binding a stable peptide nucleic acid (PNA) sequence to a chromosomal target, which alters the helical structure of DNA to stimulate site-specific recombination with a single-strand DNA (ssDNA) donor template and elicits gene correction. Here, we assessed whether the codelivery of PNA and donor template encapsulated in Poly Lactic-co-Glycolic Acid (PLGA)-based nanoparticles can correct sickle cell disease and x-linked severe combined immunodeficiency. However, through this process we have identified a false-positive PCR artifact due to the intrinsic capability of PNAs to aggregate with ssDNA donor templates. Here, we show that the combination of PNA and donor templates but not either agent alone results in different degrees of aggregation that result in varying but highly reproducible levels of false-positive signal. We have identified this phenomenon in vitro and confirmed that the PNA sequences producing the highest supposed correction in vitro are not active in vivo in both disease models, which highlights the importance of interrogating and eliminating carryover of ssDNA donor templates in assessing various gene editing technologies such as PNA-mediated gene editing. [ABSTRACT FROM AUTHOR]

Published

2021

208. Potentiating antibiotic efficacy via perturbation of non-essential gene expression.

Author

Otoupal, Peter B., Eller, Kristen A., Erickson, Keesha E., Campos, Jocelyn, Aunins, Thomas R., and Chatterjee, Anushree

Subjects

*GENE expression, *ANTISENSE nucleic acids, *PEPTIDE nucleic acids, *ANTIBIOTICS, *SALMONELLA enterica, *SALMONELLA diseases, *SALMONELLA

Abstract

Proliferation of multidrug-resistant (MDR) bacteria poses a threat to human health, requiring new strategies. Here we propose using fitness neutral gene expression perturbations to potentiate antibiotics. We systematically explored 270 gene knockout-antibiotic combinations in Escherichia coli, identifying 90 synergistic interactions. Identified gene targets were subsequently tested for antibiotic synergy on the transcriptomic level via multiplexed CRISPR-dCas9 and showed successful sensitization of E. coli without a separate fitness cost. These fitness neutral gene perturbations worked as co-therapies in reducing a Salmonella enterica intracellular infection in HeLa. Finally, these results informed the design of four antisense peptide nucleic acid (PNA) co-therapies, csgD, fnr, recA and acrA, against four MDR, clinically isolated bacteria. PNA combined with sub-minimal inhibitory concentrations of trimethoprim against two isolates of Klebsiella pneumoniae and E. coli showed three cases of re-sensitization with minimal fitness impacts. Our results highlight a promising approach for extending the utility of current antibiotics. Otoupal et al. use a systematic approach to investigate the effects of fitness neutral gene perturbations and antibiotic synergy in Escherichia coli. These neutral fitness interactions worked as co-therapies in a Salmonella enterica infection and informed the design of re-sensitization therapies in multi-drug resistant E. coli and Klebisiella pneumoniae clinical isolates. [ABSTRACT FROM AUTHOR]

Published

2021

209. Paper-based sensor from pyrrolidinyl peptide nucleic acid for the efficient detection of Bacillus cereus.

Author

Jirakittiwut, Nuttapon, Patipong, Tanutcha, Cheiwchanchamnangij, Tawinan, Waditee-Sirisattha, Rungaroon, Vilaivan, Tirayut, and Praneenararat, Thanit

Subjects

*PEPTIDE nucleic acids, *BACILLUS cereus, *DNA sequencing, *SPECIES specificity, *FOOD pathogens, *DETECTORS

Abstract

Bacillus cereus is one of the most common foodborne pathogens found in various kinds of staple foods such as rice and wheat. A rapid and accurate detection method for this pathogen is highly desirable for the sustainable production of relevant food products. While several classical and molecular-based detection methods are available for the identification of B. cereus, they suffered one or more limitations such as the requirement for a tedious and time-consuming process, less than ideal specificity, and the lack of portability. Herein, we developed the first paper-based sensing device that exhibits high species specificity with sufficiently low limit of detection for the visual detection of specific DNA sequences of B. cereus. The success is attributed to the strategic planning of fabrication in various dimensions including thorough bioinformatics search for highly specific genes, the use of the pyrrolidinyl peptide nucleic acid (PNA) probe whose selectivity advantage is well documented, and an effective PNA immobilization and DNA-binding visualization method with an internal cross-checking system for validating the results. Testing in rice matrices indicates that the sensor is capable of detecting and distinguishing B. cereus from other bacterial species. Hence, this paper-based sensor has potential to be adopted as a practical means to detect B. cereus in food industries. [ABSTRACT FROM AUTHOR]

Published

2021

210. Antisense inhibition of the Escherichia coli NrdAB aerobic ribonucleotide reductase is bactericidal due to induction of DNA strand breaks.

Author

Campion, Christopher, Charbon, Godefroid, Thomsen, Thomas T, Nielsen, Peter E, and Løbner-Olesen, Anders

Subjects

*RIBONUCLEOSIDE diphosphate reductase, *ANTISENSE nucleic acids, *PEPTIDE nucleic acids, *CHROMOSOME replication, *ESCHERICHIA coli, *DNA replication, *RESEARCH, *DNA, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *RESEARCH funding, *OXIDOREDUCTASES, *NUCLEIC acids, *ANTIBIOTICS, *PHARMACODYNAMICS

Abstract

Background: Antisense peptide nucleic acids (PNAs) constitute an alternative to traditional antibiotics, by their ability to silence essential genes.Objectives: To evaluate the antibacterial effects of antisense PNA-peptide conjugates that target the gene encoding the alpha subunit (NrdA) of the Escherichia coli ribonucleotide reductase (RNR).Methods: Bacterial susceptibility of a series of NrdA-targeting PNAs was studied by MIC determination and time-kill analysis. Western-blot analysis, gene complementation and synergy with hydroxyurea were employed to determine the efficiency of NrdA-PNA antisense treatment. The effect on chromosome replication was addressed by determining the DNA synthesis rate, by flow cytometry analysis, by quantitative PCR and by fluorescence microscopy. The use of DNA repair mutants provided insight into the bactericidal action of NrdA-PNA.Results: Treatment with NrdA-PNA specifically inhibited growth of E. coli, as well as NrdA protein translation at 4 μM. Also, the DNA synthesis rate was reduced, preventing completion of chromosome replication and resulting in formation of double-stranded DNA breaks and cell death.Conclusions: These data present subunits of the NrdAB RNR as a target for future antisense microbial agents and provide insight into the bacterial physiological response to RNR-targeting antimicrobials. [ABSTRACT FROM AUTHOR]

Published

2021

211. Rapid self‐assembly of γPNA nanofibers at constant temperature.

Author

Kumar, Sriram, Dhami, Isha, Thadke, Shivaji A., Ly, Danith H., and Taylor, Rebecca E.

Abstract

Peptide nucleic acids (PNAs) have primarily been used to achieve therapeutic gene modulation through antisense strategies since their design in the 1990s. However, the application of PNAs as a functional nanomaterial has been more recent. We recently reported that γ‐modified peptide nucleic acids (γPNAs) could be used to enable formation of complex, self‐assembling nanofibers in select polar aprotic organic solvent mixtures. Here we demonstrate that distinct γPNA strands, each with a high density of γ‐modifications can form complex nanostructures at constant temperatures within 30 minutes. Additionally, we demonstrate DNA‐assisted isothermal growth of γPNA nanofibers, thereby overcoming a key hurdle for future scale‐up of applications related to nanofiber growth and micropatterning. [ABSTRACT FROM AUTHOR]

Published

2021

212. The RABiT-II DCA in the Rhesus Macaque Model.

Author

Royba, Ekaterina, Repin, Mikhail, Balajee, Adayabalam S., Shuryak, Igor, Pampou, Sergey, Karan, Charles, Brenner, David J., and Garty, Guy

Subjects

MACAQUES, RHESUS monkeys, PEPTIDE nucleic acids, CHROMOSOME analysis, GAMMA rays, EFFECT of temperature on fishes, TELOMERES, CENTROMERE

Abstract

An automated platform for cytogenetic biodosimetry, the "Rapid Automated Biodosimetry Tool II (RABiT-II)," adapts the dicentric chromosome assay (DCA) for high-throughput mass-screening of the population after a large-scale radiological event. To validate this test, the U.S. Federal Drug Administration (FDA) recommends demonstrating that the high-throughput biodosimetric assay in question correctly reports the dose in an in vivo model. Here we describe the use of rhesus macaques (Macaca mulatta) to augment human studies and validate the accuracy of the high-throughput version of the DCA. To perform analysis, we developed the 17/22-mer peptide nucleic acid (PNA) probes that bind to the rhesus macaque's centromeres. To our knowledge, these are the first custom PNA probes with high specificity that can be used for chromosome analysis in M. mulatta. The accuracy of fully-automated chromosome analysis was improved by optimizing a low-temperature telomere PNA FISH staining in multiwell plates and adding the telomere detection feature to our custom chromosome detection software, FluorQuantDic V4. The dicentric frequencies estimated from in vitro irradiated rhesus macaque samples were compared to human blood samples of individuals subjected to the same ex vivo irradiation conditions. The results of the RABiT-II DCA analysis suggest that, in the lymphocyte system, the dose responses to gamma radiation in the rhesus macaques were similar to those in humans, with small but statistically significant differences between these two model systems. [ABSTRACT FROM AUTHOR]

Published

2021

213. Diphenylalanine Motif Drives Self‐Assembling in Hybrid PNA‐Peptide Conjugates.

Author

Diaferia, Carlo, Avitabile, Concetta, Leone, Marilisa, Gallo, Enrico, Saviano, Michele, Accardo, Antonella, and Romanelli, Alessandra

Subjects

*PEPTIDE nucleic acids, *HYDROGEN bonding interactions, *OPTICAL materials, *OPTICAL properties, *NUCLEIC acids

Abstract

Peptides and nucleic acids can self‐assemble to give supramolecular structures that find application in different fields, ranging from the delivery of drugs to the obtainment of materials endowed with optical properties. Forces that stabilize the "suprastructures" typically are hydrogen bonds or aromatic interactions; in case of nucleic acids, Watson‐Crick pairing drives self‐assembly while, in case of peptides, backbone hydrogen bonds and interactions between aromatic side chains trigger the formation of structures, such as nanotubes or ribbons. Molecules containing both aromatic peptides and nucleic acids could in principle exploit different forces to self‐assemble. In this work we meant to investigate the self‐assembly of mixed systems, with the aim to understand which forces play a major role and determine formation/structure of aggregates. We therefore synthesized conjugates of the peptide FF to the peptide nucleic acid dimer "gc" and characterized their aggregates by different spectroscopic techniques, including NMR, CD and fluorescence. [ABSTRACT FROM AUTHOR]

Published

2021

214. Peptide Nucleic Acid (PNA)‐Guided Peptide Engineering of an Aptamer Sensor for Protease‐Triggered Molecular Imaging.

Author

Xiang, Zhichu, Zhao, Jian, Yi, Deyu, Di, Zhenghan, and Li, Lele

Subjects

*PEPTIDE nucleic acids, *APTAMERS, *HYBRID systems

Abstract

Protease‐triggered control of functional DNA has remained unachieved, leaving a significant gap in activatable DNA biotechnology. Herein, we report the design of a protease‐activatable aptamer system that can perform molecular sensing and imaging in a tumor‐specific manner. The system is constructed by locking the structure‐switching activity of an aptamer using a rationally designed PNA–peptide–PNA triblock copolymer. Highly selective protease‐mediated cleavage of the peptide substrate results in reduced binding affinity of PNA to the aptamer module, with the subsequent recovery of its biosensing function. We demonstrated that the DNA/peptide/PNA hybrid system allows for tumor cell‐selective ATP imaging in vitro and also produces a fluorescent signal in vivo with improved tumor specificity. This work illustrates the potential of bridging the gap between functional DNA and peptides for precise biomedical applications. [ABSTRACT FROM AUTHOR]

Published

2021

215. Application strategies of peptide nucleic acids toward electrochemical nucleic acid sensors.

Author

Lai, Qingteng, Chen, Wei, Zhang, Yanke, and Liu, Zhengchun

Subjects

*PEPTIDE nucleic acids, *NUCLEIC acids, *DNA probes, *THERAPEUTIC immobilization, *DETECTORS

Abstract

Peptide nucleic acids (PNAs) have attracted tremendous interest in the fabrication of highly sensitive electrochemical nucleic acid biosensors due to their higher stability and increased sensitivity than common DNA probes. The neutral pseudopeptide backbone of PNAs not only makes the PNA/DNA duplexes more stable but also provides many opportunities to construct ultrasensitive nucleic acid sensors. This review presents the details of various protocols for the construction of PNA-based electrochemical nucleic acid sensors. The crucial factors, origin, and development of PNA, immobilization methods of PNA probes and signal generation mechanisms, are discussed. This review aims to provide a reference for ultrasensitive PNA electrochemical biosensor preparation. [ABSTRACT FROM AUTHOR]

Published

2021

216. Application of molecular techniques in Helicobacter pylori detection: limitations and improvements.

Author

Gong, Lan and El‐Omar, Emad M

Subjects

*HELICOBACTER pylori infections, *HELICOBACTER pylori, *BACTERIAL colonies, *PEPTIDE nucleic acids, *MEDICAL personnel

Abstract

I pylori i strains with certain I vacA i - I cagA i genotypes in gastric biopsies.28 Hence, it would be important to detect and treat this undetected infection to prevent further transmission leading to serious conditions such as peptic ulcer and gastric cancer. The efficacy of laboratory diagnosis of Helicobacter pylori infections in gastric biopsy specimens is related to bacterial density and vacA, cagA, and iceA genotypes. I pylori i in conventionally undiagnosed biopsies by using 16S rRNA sequencing.27 Real-time PCR, dd-PCR, and NGS were also reported to identify low-grade I H i . Droplet Digital PCR Detects Low-Density Infection in a Significant Proportion of Helicobacter Pylori-Negative Gastric Biopsies of Dyspeptic Patients. [Extracted from the article]

Published

2021

217. Synthesis and Characterization of Optically Pure Gamma‐PNA Backbones by SIBX‐Mediated Reductive Amination.

Author

Periyalagan, Alagarsamy, Kim, Yong‐Tae, and Hong, In Seok

Subjects

*PEPTIDE nucleic acids, *AMINATION, *HIGH performance liquid chromatography, *LITHIUM aluminum hydride, *SPINE, *ENANTIOMERIC purity

Abstract

Chiral peptide nucleic acid (PNA) is a derivative of regular PNA by introducing a chiral center to its backbone, and is known to bind more strongly to DNA or RNA than regular PNA. In particular, in the case of a γ‐backbone, the L isomer stabilizes the PNA/DNA duplex, and the D‐isomer has the opposite effect. Therefore, the synthesis of an optically pure γ‐backbone is very important. Here, we report a novel synthetic strategy for the suppression of epimerization during the synthesis of the γ‐PNA backbone. A stabilized form of 2‐iodoxybenzoic acid (SIBX) was used as an oxidative reagent in the key intermediate of the N‐Boc‐amino acetaldehyde synthesis. This paper reports (1) the synthesis and comparison of three different γ‐PNA backbones (lysine, alanine, and glutamate) by three different synthetic routes (SIBX, lithium aluminum hydride, and Red‐Al) and (2) the determination of chiral purity from their derivative compounds. The enantiomeric excess purity of SIBX‐mediated γ‐PNA backbones was determined to be more than 99.4%, as ascertained by the high‐performance liquid chromatography (HPLC) chromatogram on a standard RP‐C18 column. It is comparatively higher than that of the other methods examined in this work. [ABSTRACT FROM AUTHOR]

Published

2021

218. Acid-base and lipophilic properties of peptide nucleic acid derivatives.

Author

Thakare, Pramod, Vasile, Francesca, Vallaro, Maura, Visentin, Sonja, Caron, Giulia, Licandro, Emanuela, and Cauteruccio, Silvia

Subjects

PEPTIDE nucleic acids, ACID derivatives, OLIGOMERS, POTENTIOMETRY, ARTIFICIAL membranes, MONOMERS

Abstract

The first combined experimental and theoretical study on the ionization and lipophilic properties of peptide nucleic acid (PNA) derivatives, including eleven PNA monomers and two PNA decamers, is described. The acidity constants (pK a) of individual acidic and basic centers of PNA monomers were measured by automated potentiometric pH titrations in water/methanol solution, and these values were found to be in agreement with those obtained by MoKa software. These results indicate that single nucleobases do not change their pK a values when included in PNA monomers and oligomers. In addition, immobilized artificial membrane chromatography was employed to evaluate the lipophilic properties of PNA monomers and oligomers, which showed the PNA derivatives had poor affinity towards membrane phospholipids, and confirmed their scarce cell penetrating ability. Overall, our study not only is of potential relevance to evaluate the pharmacokinetic properties of PNA, but also constitutes a reliable basis to properly modify PNA to obtain mimics with enhanced cell penetration properties. [Display omitted] • The first study on acid-base and lipophilic properties of peptide nucleic acids (PNA). • pK a of acid-base centers of PNA evaluated by potentiometric method and MoKa prediction. • NMR experiments provide additional information on the protonation of PNA monomers. • Lipophilicity of PNA monomers and oligomers is investigated by IAM chromatography. • This study can lay the basis of evaluating the pharmacokinetic properties of PNA. [ABSTRACT FROM AUTHOR]

Published

2021

219. Novel peptide (RATH) mediated delivery of peptide nucleic acids for antiviral interventions.

Author

Joshi, Vinay G., Chindera, Kantaraja, Bais, Manish V., Sajjanar, Basavaraj, Tiwari, Ashok K., and Kumar, Satish

Subjects

*PEPTIDE nucleic acids, *ANTISENSE nucleic acids, *PEPTIDE bonds, *MOLECULAR interactions, *VIRAL genes, *NUCLEIC acids

Abstract

The peptide nucleic acid (PNA) is a chimeric molecule with the nucleobases connected by peptide bonds. This chimeric nature gives the PNA certain therapeutic advantages over natural antisense nucleic acid molecules. The PNA probes are known for its better and stronger complementation with target nucleic acids. However, cellular delivery of PNA is a major hurdle due to the charge-neutral nature of the PNA. For cellular delivery of PNA, peptide-PNA conjugates are used. This approach may face some practical limitation in terms of PNA antisense activity. In this study, we propose a novel RATH-2 peptide-based non-covalent PNA delivery mechanism. We observed RATH-2 shows a favorable molecular interaction with PNA at 16:1 (peptide:PNA) molar ratio resulting in co-centric nanoparticle formation. With this combination, we could achieve as high as 93% cellular delivery of the PNA. The proposed non-covalent RATH:PNA delivery model showed endocytic entrapment free delivery of PNA. The study further demonstrated the therapeutic application of PNA with in vitro antiviral intervention model. Using RATH-2 non-covalent PNA delivery system, we could inhibit 69.5% viral load. The present study demonstrates a cell-penetrating peptide:PNA interaction can lead to nanoparticle formations that facilitated cellular delivery of PNA. Key points • A novel cell-penetrating peptide (RATH-2) was identified for non-covalent delivery of PNA. • RATH-2 and PNA formed co-centric nanoparticles at appropriate molar combination. • PNA delivered through the RATH-2 inhibited the viral gene expression and reduced the viral load. [ABSTRACT FROM AUTHOR]

Published

2021

220. Researchers Submit Patent Application, "Compositions And Methods For Modulating Secreted Frizzled Receptor Protein 1 (Sfrp1) Gene Expression", for Approval (USPTO 20240254462).

Subjects

SECRETED frizzled-related proteins, PEPTIDE nucleic acids, AMINO acid sequence, NUCLEOTIDE sequence, GENE expression, ALOPECIA areata, BEGOMOVIRUSES

Abstract

Omega Therapeutics Inc. has submitted a patent application for a method of modulating the expression of the SFRP1 gene, which is associated with hair loss conditions like alopecia. The invention involves using specific agents and compositions to target the SFRP1 expression control region. The patent application describes different ways to disrupt SFRP1 expression, including the use of polymeric molecules, nucleotide sequences, fusion proteins, pharmaceutical compositions, lipid formulations, and viral expression vectors. The application provides detailed information on the specific embodiments and claims of the invention. [Extracted from the article]

Published

2024

221. "Antisense Oligomers For Treatment Of Non-Sense Mediated Rna Decay Based Conditions And Diseases" in Patent Application Approval Process (USPTO 20240254488).

Subjects

PEPTIDE nucleic acids, ALTERNATIVE RNA splicing, PROTEIN expression, AMINO acid sequence, GENE expression, OLIGOMERS

Abstract

A patent application has been filed for a method of treating conditions caused by non-productive mRNA transcripts. The method involves modulating the expression of a target protein by contacting a cell with an agent that modulates splicing of the non-productive mRNA. The target gene in this case is the PHIP gene, which is associated with a rare condition called PHIP-related disorder. Currently, there is no approved treatment for this disorder, so this method could potentially provide a disease-modifying treatment option. The patent application discusses a method for modulating the expression of a target protein in cells, specifically the PHIP gene, to increase the expression of the target protein. It also includes various compositions and methods for treating or reducing the likelihood of developing diseases or conditions by modulating the expression of the target protein. [Extracted from the article]

Published

2024

222. Data on Gene Therapy Described by Researchers at Yale University School of Medicine (Peptide Nucleic Acid-mediated Regulation of Crispr-cas9 Specificity).

Subjects

PEPTIDE nucleic acids, GENE therapy, PHARMACEUTICAL biotechnology, NUCLEIC acids, BASE pairs

Abstract

Researchers at Yale University School of Medicine have conducted a study on gene therapy using CRISPR-Cas9 technology. While CRISPR-Cas9 has shown promise in various applications, there is a need to improve its specificity. The researchers used synthetic peptide nucleic acids (PNAs) to enhance Cas9 specificity, particularly in scenarios involving on-target/off-target and allele-specific situations. These findings have the potential to address current limitations and expand the therapeutic possibilities of CRISPR technology. The research has been peer-reviewed and published in Nucleic Acid Therapeutics. [Extracted from the article]

Published

2024

223. Researcher at Nanjing Agricultural University Releases New Data on HIV/AIDS (Identifying Cell-Penetrating Peptides for Effectively Delivering Antimicrobial Molecules into Streptococcus suis).

Subjects

SEXUALLY transmitted diseases, STREPTOCOCCUS suis, GRAM-positive bacterial infections, PEPTIDE nucleic acids, VETERINARY medicine

Abstract

A new report from Nanjing Agricultural University in China discusses the potential use of cell-penetrating peptides (CPPs) to deliver antisense oligonucleotides (ASOs) into bacterial cells to combat multidrug-resistant bacterial infections. The researchers specifically focused on Streptococcus suis, a Gram-positive bacterium that is a major pathogen in pigs and an emerging zoonotic pathogen. Through their study, they identified four CPPs that showed promise in delivering ASOs into S. suis cells, with one specific CPP-conjugated ASO effectively inhibiting the growth of S. suis. The researchers concluded that CPP-ASO conjugates have potential as antimicrobial compounds and that their findings provide a cost-effective approach to identifying suitable CPPs for delivering cargo molecules into bacterial cells. [Extracted from the article]

Published

2024

224. Effective lowering of a-synuclein expression by targeting G-quadruplex structures within the SNCA gene (Updated July 25, 2024).

Subjects

NERVE tissue proteins, PEPTIDE nucleic acids, SMALL molecules, GENE expression, SYNUCLEINS, QUADRUPLEX nucleic acids

Abstract

A recent preprint abstract suggests a new strategy for modulating the expression of the SNCA gene, which encodes the alpha-synuclein protein implicated in synucleinopathies like Parkinson's disease. The researchers propose targeting G-quadruplex structures within the SNCA gene to effectively lower the amount of alpha-synuclein. They identified novel G-quadruplex sequences in the gene and confirmed their stability through experiments. By using G-quadruplex ligands and a peptide nucleic acid conjugate, they were able to modulate SNCA mRNA expression and decrease alpha-synuclein levels. This research has not yet undergone peer review. [Extracted from the article]

Published

2024

225. Researcher at University of Pavia Details Research in Antisense Technology (Structural Unfolding of G-Quadruplexes: From Small Molecules to Antisense Strategies).

Subjects

PEPTIDE nucleic acids, SMALL molecules, NUCLEIC acids, REPORTERS & reporting, RESEARCH personnel, QUADRUPLEX nucleic acids

Abstract

Researchers at the University of Pavia in Italy have conducted a study on G-quadruplexes (G4s), which are non-canonical nucleic acid secondary structures. The study focuses on the destabilization of G4s and explores the potential therapeutic applications of this process. The researchers discuss various methods for destabilizing G4s, including the use of small molecules, metal complexes, and antisense strategies. The review highlights the importance of understanding G4 dynamics and the ongoing efforts to develop selective G4-unfolding strategies for modulating their biological function and therapeutic potential. [Extracted from the article]

Published

2024

226. Researchers Submit Patent Application, "Compositions And Methods For Modulation Of Smn2 Splicing In A Subject", for Approval (USPTO 20240238326).

Subjects

PEPTIDE nucleic acids, DRUG dosage, HUMAN genetics, GENE expression, SPINAL muscular atrophy, INTRONS, OLIGONUCLEOTIDES

Abstract

Researchers from Biogen MA Inc. have submitted a patent application for a method of modulating splicing in a subject's SMN2 gene. This method aims to treat proximal spinal muscular atrophy (SMA), a neurodegenerative disorder caused by the loss of the SMN1 gene. The researchers propose administering an antisense compound into the cerebrospinal fluid of the subject to target intron 7 of the SMN2 gene and increase the inclusion of exon 7 in the mRNA. The patent application discusses various methods of administering the compound, including bolus injection or infusion with a delivery pump, and mentions the possibility of combining the antisense compound with other therapies. [Extracted from the article]

Published

2024

227. Researchers Submit Patent Application, "Assay Methods And Kits", for Approval (USPTO 20240229110).

Subjects

PATENT applications, OLIGONUCLEOTIDES, RESEARCH personnel, PEPTIDE nucleic acids, STREPTAVIDIN, NUCLEIC acid hybridization

Abstract

A patent application has been submitted by inventors John Kenten, Galina Nikolenko, and John Robert Petterson for a method of detecting analytes using immunoassays. The method aims to improve sensitivity, reduce complexity and cost, and simplify analysis methods. It involves contacting a template oligonucleotide with a complex containing the analyte and a detection reagent, extending the primer with a polymerase, binding the extended oligonucleotide to labeled probes, and detecting the label to identify the analyte. The application also includes kits and compositions for conducting these assays, providing detailed descriptions of the components and steps involved. [Extracted from the article]

Published

2024

228. Patent Application Titled "Methods And Compositions Comprising Mhc Class I Peptides" Published Online (USPTO 20240218019).

Subjects

HEREDITARY nonpolyposis colorectal cancer, PATENT applications, PEPTIDES, INTERNET publishing, MONONUCLEAR leukocytes, PEPTIDE nucleic acids

Abstract

A patent application titled "Methods And Compositions Comprising Mhc Class I Peptides" has been published online by the USPTO. The application, filed by inventors from the University of Texas System, focuses on the treatment of cancer, specifically Lynch Syndrome (LS), a common cause of hereditary colorectal cancer. The invention involves the use of newly identified immunogenic neoantigens to treat and vaccinate individuals against cancer. The patent application describes methods and compositions for the development of peptides, polypeptides, pharmaceutical compositions, and engineered T cells for cancer treatment and prevention. The invention has potential applications in cancer treatment and immunotherapy. [Extracted from the article]

Published

2024

229. Researchers Submit Patent Application, "Compositions And Methods For In Utero Delivery", for Approval (USPTO 20240207172).

Subjects

PATENT applications, MYELOMENINGOCELE, RESEARCH personnel, MOLECULAR biology, PEPTIDE nucleic acids, FIBROBLAST growth factors

Abstract

A patent application has been submitted for the approval of "Compositions And Methods For In Utero Delivery" by a group of inventors. The application aims to provide improved compositions and methods for delivering therapeutic and diagnostic molecules to embryos or fetuses in need. The methods involve administering an effective amount of a composition, encapsulated or entrapped in particles, to the cells of the embryo or fetus. The particles can be engineered to attach to specific targets or release their cargo at different rates. The active agents can include small molecules, proteins, nucleic acids, and gene editing compositions. The methods can be used to treat defects in neural tissue, such as myelomeningocele, and other diseases or conditions. The particles used in the compositions are preferably made of biodegradable polymers and can be administered through injection or infusion into veins or arteries, or through intra-amniotic sac injection. A kit is also provided for use in the methods, containing the composition and a needle for delivery. [Extracted from the article]

Published

2024

230. Researchers Submit Patent Application, "Solid Phase Negative Enrichment", for Approval (USPTO 20240209348).

Subjects

PATENT applications, PEPTIDE nucleic acids, RESEARCH personnel, CELL-free DNA, CIRCULATING tumor DNA

Abstract

A patent application has been submitted for a method called "Solid Phase Negative Enrichment" that aims to simplify the preparation of biological samples for genetic analysis. The current methods are time-consuming, expensive, and prone to human error. The new method uses a complex of Cas endonuclease, guide RNA, and a solid surface to directly capture target nucleic acid from the biological sample, eliminating the need for extensive sample preparation. This method is particularly useful for analyzing nucleic acid present in low abundance, such as in blood or other bodily fluids, and can be used to detect or monitor diseases like cancer. The patent application also includes claims for specific aspects of the method, such as using magnetic particles and detecting specific variants. [Extracted from the article]

Published

2024

231. Findings from Nanjing University of Science and Technology in the Area of Biosensors Reported (Organic Small Molecule Catalytic Pet-raft Electrochemical Signal Amplification Strategy for Mirna-21 Detection).

Subjects

SMALL molecules, BIOSENSORS, BIOENGINEERING, METHACRYLATES, PEPTIDE nucleic acids, CHEMICAL engineering

Abstract

A recent study conducted at Nanjing University of Science and Technology in China has developed a biosensor for the detection of miRNA-21, a cancer-associated biomarker. The researchers used a photo-induced electron/energy transfer reversible addition-fragmentation chain transfer polymerization signal amplification electrochemical biosensor. This biosensor demonstrated a low detection limit of 12.4 aM for miRNA-21 and exhibited excellent anti-interference ability in serum samples. The study suggests that this biosensor has potential for practical applications in the early prevention of cancer. [Extracted from the article]

Published

2024

232. Patent Issued for Compositions and methods for detection of SMN protein in a subject and treatment of a subject (USPTO 12013403).

Subjects

PEPTIDE nucleic acids, PROTEINS, SPINAL muscular atrophy, BLOOD proteins, ALTERNATIVE RNA splicing, OLIGONUCLEOTIDES, INTRONS

Abstract

Biogen MA Inc. has been issued a patent for compositions and methods related to the detection and treatment of SMN protein in individuals with spinal muscular atrophy (SMA). The patent discusses the use of antisense oligonucleotides to target mutations affecting pre-mRNA processing and modulate gene expression. It also explains the molecular basis of SMA and the role of SMN protein in the disease. The inventors propose methods for measuring the amount of SMN protein in the cerebrospinal fluid of SMA patients and adjusting the dosage and frequency of a pharmaceutical composition called ISIS 396443 accordingly. The patent provides specific dosing schedules based on age and time since the first dose, involving intrathecal bolus injection using a spinal anesthesia needle. Information about the concentration and injection volume of the antisense oligonucleotide is also included. [Extracted from the article]

Published

2024

233. Researchers Submit Patent Application, "Bodily Fluid Target Enrichment", for Approval (USPTO 20240200122).

Subjects

PATENT applications, PEPTIDE nucleic acids, RESEARCH personnel, NUCLEIC acid probes, CELL-free DNA

Abstract

A patent application has been submitted for a method called "Bodily Fluid Target Enrichment" that aims to simplify the analysis of liquid and tissue biopsies for diseases like cancer. The method involves using Cas endonuclease, along with guide RNAs, to bind to target nucleic acid sequences in bodily fluid samples, such as blood or plasma, without the need for extensive sample preparation. This method could be particularly useful for detecting rare mutations in cell-free DNA, such as tumor mutations in circulating tumor DNA. The patent application provides detailed information on the method and its potential applications. [Extracted from the article]

Published

2024

234. Endosomolytic Peptides Enable the Cellular Delivery of Peptide Nucleic Acids.

Subjects

PEPTIDE nucleic acids, PEPTIDES, PEPTIDOMIMETICS, NUCLEIC acids

Abstract

According to a preprint abstract from biorxiv.org, researchers have found that endosomolytic peptides L17E and L17ER4 are effective in delivering functional peptide nucleic acids (PNAs) into human cells. This discovery enhances the potential of PNAs as research tools and therapeutic agents for precision genetic medicine. The study has not yet undergone peer review. [Extracted from the article]

Published

2024

235. Patent Application Titled "Methods Of Identifying Multiple Epitopes In Cells" Published Online (USPTO 20240182949).

Subjects

PATENT applications, PEPTIDE nucleic acids, INTERNET publishing, EPITOPES, SINGLE molecules

Abstract

The patent application titled "Methods Of Identifying Multiple Epitopes In Cells" describes a new invention that allows for the accurate detection and identification of target molecules in individual cells of a complex cell population. The methods involve attaching tags to the targets, which contain codes representing the target identity and the identity of the cell. These tags can be made up of different building blocks or subunits. The invention also includes compositions that can be used to differentiate target molecules in a population of particles. This invention provides a way to label and detect specific targets in cells without the need for individual cell separation or isolation. [Extracted from the article]

Published

2024

236. "An Artificial Protein-Cage Comprising Encapsulated Therein A Guest Cargo" in Patent Application Approval Process (USPTO 20240181077).

Subjects

PATENT applications, NON-communicable diseases, FREIGHT & freightage, MOIETIES (Chemistry), SYNTHETIC proteins, PEPTIDE nucleic acids

Abstract

A patent application has been filed for an artificial protein-cage called TRAP-cage that can encapsulate a variety of substances, including proteins, enzymes, antigens, antibodies, nucleic acids, drugs, peptides, metals, toxins, and nanoparticles. The cage can be loaded with these substances in a controlled manner and can also be decorated with external agents to aid in intracellular delivery. The number of rings in the cage can vary, and the opening of the cage can be programmed based on specific conditions. The TRAP-cage has potential applications as a delivery vehicle for intracellular delivery, a vaccine, or for the treatment of diseases such as cancer, vascular disease, diabetes, infection, neurodegenerative disease, and respiratory disease. The patent also includes methods for manufacturing the TRAP-cage and administering it as a medicine for therapeutic purposes. [Extracted from the article]

Published

2024

237. Researchers Submit Patent Application, "Msp Nanopores And Uses Thereof", for Approval (USPTO 20240174721).

Subjects

PATENT applications, RESEARCH personnel, NANOPORES, PEPTIDE nucleic acids, NUCLEOTIDE sequence

Abstract

A patent application has been submitted by inventors Michael Niederweis and Mikhail Pavlenok for a method of detecting and analyzing nucleic acids, proteins, and other analytes. The application describes a mutant single-chain Mycobacterium smegmatis porin (Msp) and its nucleic acid sequences, as well as methods for detecting analytes using this mutant Msp. The invention involves applying an electric field to translocate an analyte from one conductive medium to another, and measuring the ion current to determine the presence of the analyte. This technology has the potential to provide more efficient and cost-effective methods for identifying and characterizing analytes. The patent application was filed on November 21, 2023, and made available online on May 30, 2024. The patent's assignee is the UAB Research Foundation. [Extracted from the article]

Published

2024

238. Investigators at Wenzhou University Report Findings in Nanowires (Pna-functionalized, Silica Nanowires-filled Glass Microtube for Ultrasensitive and Label-free Detection of Mirna-21).

Subjects

FUSED silica, NANOWIRES, SILICON nanowires, PEPTIDE nucleic acids, TECHNOLOGICAL innovations

Abstract

Researchers at Wenzhou University in Zhejiang, China have developed a new method for detecting microRNAs (miRNAs), which play a crucial role in early cancer screening. The researchers modified glass microtubes with silica nanowires to create a label-free sensing platform for miRNA-21 detection. The sensor demonstrated high sensitivity and specificity, with a detection limit as low as 1 aM and the ability to detect miRNA-21 in complex solutions containing interference from other miRNAs. The researchers believe that this sensor has potential for early breast cancer screening. [Extracted from the article]

Published

2024

239. "Branched Peptides For Enzymatic Assembly And Mitochondria Drug Delivery" in Patent Application Approval Process (USPTO 20240158441).

Subjects

MITOCHONDRIA formation, PATENT applications, PEPTIDES, AMINO acid residues, PEPTIDE nucleic acids

Abstract

The patent application titled "Branched Peptides For Enzymatic Assembly And Mitochondria Drug Delivery" discusses the development of therapeutics that target mitochondria, a crucial component of cells. The application describes a branched peptide that forms micelle structures in water and can deliver therapeutic agents to the mitochondria. The invention also includes methods for treating cancer, cardiovascular diseases, and radiation-induced damage using this pharmaceutical composition. The method involves using a nucleic acid construct or viral vector associated with the branched peptide to deliver the therapeutic agents into the mitochondria of cancer cells. The patent application provides specific amino acid sequences for the peptide chains and describes the use of an aromatic group and specific covalent bonds. [Extracted from the article]

Published

2024

240. Patent Application Titled "Methods And Compositions For Sequencing Complementary Polynucleotides" Published Online (USPTO 20240158845).

Subjects

NUCLEIC acids, PATENT applications, PEPTIDE nucleic acids, NUCLEOTIDE sequencing, DNA-binding proteins

Abstract

A patent application titled "Methods And Compositions For Sequencing Complementary Polynucleotides" has been published online by the US Patent and Trademark Office. The inventors of the application are Eli N. Glezer, Allen Lipson, and Daan Witters. The application describes innovative approaches to address issues with existing DNA sequencing technologies, aiming to increase the fidelity and accuracy of high throughput sequencing methods. The methods and compositions disclosed in the application reduce the amount of nucleic acid manipulation and duplication required by traditional next generation sequencing techniques, potentially reducing time, reagents, expense, and the risk of polymerase errors. [Extracted from the article]

Published

2024

241. Chemical binding of pyrrolidinyl peptide nucleic acid (acpcPNA‐T9) probe with AuNPs toward label‐free monitoring of miRNA‐21: A novel biosensing platform for biomedical analysis and POC diagnostics.

Author

Fathi, Nazanin, Saadati, Arezoo, Hasanzadeh, Mohammad, and Samiei, Mohammad

Subjects

*PEPTIDE nucleic acids, *FIELD emission electron microscopes, *GOLD nanoparticles, *GOLD electrodes, *SENSITIVITY & specificity (Statistics)

Abstract

miRNAs are attractive factors in cancer research studies due to their important roles for regulating of gene expression. Because of miRNA‐21 expression surplus in many types of cancers, so accurate identification is important. Increasing efforts have caused different methods to improve the sensitivity and specificity of detection. Present study is an attempt to report a new electrochemical label‐free PNA‐based bioassay for detection of miRNA‐21. In this study, gold electrode was modified by gold nanoparticles to improve a functional PNA‐based biosensor. The EDS and field emission scanning electron microscope (FE‐SEM) were used to detect fabrication of biosensor. The electrochemical behavior of sensor was evaluated after inserting of acpcPNA probes and miRNA‐21 on the stucture of electrode and analyzed essential parameters such as various concentration of target miRNA, hybridization time, reproducibility, stability, and applicability. The results of study demonstrated that engineered biosensor was successfully fabricated. The findings showed the highest amount of current in 5 minutes hybridization time, with suitable reproducibility and stability. This innovative miRNA‐based biosensor presents a sensitive and specific method in fast and may be lab‐on chip assay in future. [ABSTRACT FROM AUTHOR]

Published

2021

242. Novel method of real-time PCR-based screening for common fetal trisomies.

Author

Kim, So Yeon, Lee, Seung Mi, Kim, Sun Min, Kim, Byoung Jae, Koo, Ja Nam, Oh, Ig Hwan, Oh, Sohee, Park, Chan-Wook, Jun, Jong Kwan, Lim, Ji Hyae, Ryu, Hyun Mee, and Park, Joong Shin

Subjects

*TRISOMY, *PEPTIDE nucleic acids, *SENSITIVITY & specificity (Statistics), *POLYMERASE chain reaction, *CHROMOSOMES, *PREGNANT women, *REVERSE transcriptase polymerase chain reaction, *FALSE positive error

Abstract

Background: The non-invasive prenatal test (NIPT) is based on next generation sequencing (NGS) and is used for screening for fetal trisomy. However, it is time-consuming and technically difficult. Recently, peptide nucleic acid (PNA) probe-based real-time polymerase chain reaction (RT-PCR) was developed. This study aimed to examine the performance of the RT-PCR-based NIPT for screening of common fetal trisomies Methods: From stored maternal plasma, RT-PCR was performed using Patio™ NIPT Detection Kit. In melting curve analysis, the height of melting peaks of target chromosome and reference chromosome was calculated as a peak ratio. The adjusted peak ratio of 8 markers with correction factors in each target chromosome was summated and calculated to z-score. The cut-off value for each target chromosome was established for classification (low risk vs. high risk for trisomy) whose performance was obtained in the validation phase. Results: 330 plasma samples from pregnant women with normal fetus and 22 trisomy cell-line samples were used to establish the optimal cut-off values for z-score of each target chromosome. In the validation phase, 1023 samples from pregnant women including 22 cases with fetal trisomy and 1001 cases of normal control were used. The RT-PCR-based NIPT showed 95.45% sensitivity [95% confidence interval (CI) 77.16–99.88%], 98.60% specificity (95% CI 97.66–99.23%), and 98.53% accuracy (95% CI 97.59–99.18%) for the identification of trisomy 21, 18, or 13. Of 1023 samples, fifteen cases were mismatched for classification [one case as a false negative (false negative rate: 4.5%) and 14 cases as false positives (false positive rate: 1.4%)]. Conclusion: The RT-PCR-based NIPT showed high sensitivity and specificity for the detection of common fetal trisomies and it could be a feasible alternative to NGS-based NIPT. [ABSTRACT FROM AUTHOR]

Published

2021

243. Regulation of telomere homeostasis and genomic stability in cancer by N6-adenosine methylation (m6A).

Author

Ji Hoon Lee, Juyeong Hong, Zhao Zhang, de la Peña Avalos, Bárbara, Proietti, Cecilia J., Deamicis, Agustina Roldán, G., Pablo Guzmán, Hung-Ming Lam, Garcia, Jose, Roudier, Martine P., Sisk, Anthony E., De La Rosa, Richard, Vu, Kevin, Mei Yang, Yiji Liao, Scheirer, Jessica, Pechacek, Douglas, Yadav, Pooja, Rao, Manjeet K., and Siyuan Zheng

Subjects

*ADENOSINES, *TELOMERASE, *TELOMERES, *HOMEOSTASIS, *PEPTIDE nucleic acids, *CELL anatomy, *SISTER chromatid exchange, *GREEN fluorescent protein

Published

2021

244. Inchworm-type PNA-PEG conjugate regulates gene expression based on single nucleotide recognition.

Author

Hamashita, Yusuke, Shibata, Takahiro, Takeuchi, Akiko, Okuno, Takashi, Kise, Naoki, and Sakurai, Toshihiko

Subjects

*PEPTIDE nucleic acids, *GENE expression, *SINGLE nucleotide polymorphisms, *LUCIFERASES, *POLYETHYLENE glycol, *NUCLEIC acids, *PROTEIN stability

Abstract

In order to detect single nucleotide mutations and suppress gene expression, we synthesized an artificial nucleic acid, an inchworm-type PNA-PEG conjugate (i-PPc), that possessed a chemical structure in which 8 residues of peptide nucleic acid (PNA) were linked to both ends of a polyethylene glycol molecule. I-PPc_T7 FM , which forms a complementary strand with the T7 promoter region of luciferase-expressing mRNA, failed to suppress the amount of luciferase produced via gene expression. However, 10 μM of i-PPc_ATG FM , targeting the start codon of luciferase (Luc+), suppressed approximately 85% of Luc+ production compared to that of the control in the cell-free protein synthesis system. Moreover, i-PPc_ATG MM (i-PPc_ATG FM with a single base mutation) only suppressed the amount of luciferase produced by approximately 15%, and such suppression of luciferase expression has not been achieved with block-type PPc or PNA oligos. The thermodynamic parameters suggested that the difference in stability of each PNA segment of the i-PPc contributed to single nucleotide recognition. These results indicate that the i-PPc could be used in antisense therapy to target single nucleotide polymorphisms (SNP). • Inchworm-type PNA-PEG conjugate acts as antisense mRNA to suppress gene expression. • In vivo, gene expression is regulated by recognizing single nucleotide polymorphism. • This mechanism depends on the T m value of the peptide nucleic acid part. [ABSTRACT FROM AUTHOR]

Published

2021

245. Iron robbery by intracellular pathogen via bacterial effector-induced ferritinophagy.

Author

Qi Yan, Wenqing Zhang, Mingqun Lin, Omid Teymournejad, Khemraj Budachetri, Jeffrey Lakritz, and Yasuko Rikihisa

Subjects

*ANTISENSE nucleic acids, *INTRACELLULAR pathogens, *PEPTIDE nucleic acids, *COMMERCIAL products, *BACTERIAL proteins, *REACTIVE oxygen species, *JEWELRY stores

Abstract

Iron is essential for survival and proliferation of Ehrlichia chaffeensis, an obligatory intracellular bacterium that causes an emerging zoonosis, human monocytic ehrlichiosis. However, how Ehrlichia acquires iron in the host cells is poorly understood. Here, we found that native and recombinant (cloned into the Ehrlichia genome) Ehrlichia translocated factor-3 (Etf-3), a previously predicted effector of the Ehrlichia type IV secretion system (T4SS), is secreted into the host cell cytoplasm. Secreted Etf-3 directly bound ferritin light chain with high affinity and induced ferritinophagy by recruiting NCOA4, a cargo receptor that mediates ferritinophagy, a selective form of autophagy, and LC3, an autophagosome biogenesis protein. Etf-3-induced ferritinophagy caused ferritin degradation and significantly increased the labile cellular iron pool, which feeds Ehrlichia. Indeed, an increase in cellular ferritin by ferric ammonium citrate or overexpression of Etf-3 or NCOA4 enhanced Ehrlichia proliferation, whereas knockdown of Etf-3 in Ehrlichia via transfection with a plasmid encoding an Etf-3 antisense peptide nucleic acid inhibited Ehrlichia proliferation. Excessive ferritinophagy induces the generation of toxic reactive oxygen species (ROS), which could presumably kill both Ehrlichia and host cells. However, during Ehrlichia proliferation, we observed concomitant upregulation of Ehrlichia Fe-superoxide dismutase, which is an integral component of Ehrlichia T4SS operon, and increased mitochondrial Mn-superoxide dismutase by cosecreted T4SS effector Etf-1. Consequently, despite enhanced ferritinophagy, cellular ROS levels were reduced in Ehrlichia-infected cells compared with uninfected cells. Thus, Ehrlichia safely robs host cell iron sequestered in ferritin. Etf-3 is a unique example of a bacterial protein that induces ferritinophagy to facilitate pathogen iron capture. [ABSTRACT FROM AUTHOR]

Published

2021

246. Therapeutic effects, immunogenicity and cytotoxicity of a cell penetrating peptide-peptide nucleic acid conjugate against cagA of Helicobacter pylori in cell culture and animal model.

Author

Farahani, Narges Nodeh, Kalani, Behrooz Sadeghi, Monavari, Seyed Hamidreza, Mirkalantari, Shiva, Montazer, Fatemeh, Sholeh, Mohammad, Javanmard, Zahra, and Irajian, Gholamreza

Subjects

*ANIMAL culture, *MUCOSA-associated lymphoid tissue lymphoma, *HELICOBACTER pylori, *CLARITHROMYCIN, *PEPTIDE nucleic acids, *CELL culture

Abstract

Background and Objectives: Helicobacter pylori causes several gastrointestinal diseases, including asymptomatic gastritis, chronic peptic ulcer, duodenal ulcer, lymphoma of the mucosa-associated lymphoid tissue (MALT), and gastric adenocarcinoma. In recent years, failure to eradicate H. pylori infections has become an alarming problem for physicians. It is now clear that the current treatment strategies may become ineffective, necessitating the development of innovative antimicrobial compounds as alternative treatments. Materials and Methods: In this experimental study, a cell-penetrating peptide-conjugated peptide nucleic acid (CPP-PNA) was used to target the cagA expression. cagA expression was evaluated using RT-qPCR assay after treatment by the CPP-PNA in cell culture and animal model. Additionally, immunogenicity and toxicity of the CPP-PNA were assessed in both cell culture and animal models. Results: Our analysis showed that cagA mRNA levels reduced in H. pylori-infected HT29 cells after treatment with CPP- PNA in a dose-dependent manner. Also, cagA expression in bacterial RNA extracted from stomach tissue of mice treated with PNA was reduced compared to that of untreated mice. The expression of inflammatory cytokines also decreased in cells and tissue of H. pylori-infected mice after PNA treatment. The tested CPP-PNA showed no significant adverse effects on cell proliferation of cultured cells and no detectable toxicity and immunogenicity were observed in mice. Conclusion: These results suggest the effectiveness of CPP-PNA in targeting CagA for various research and therapeutic purposes, offering a potential antisense therapy against H. pylori infections. [ABSTRACT FROM AUTHOR]

Published

2021

247. Approaches for Systemic Delivery of Dystrophin Antisense Peptide Nucleic Acid in the mdx Mouse Model.

Author

Brolin, Camilla, Lim, Ernest Wee Kiat, Grizot, Sylvestre, Olsen, Caroline Holkmann, Yavari, Niloofar, Krag, Thomas O., and Nielsen, Peter E.

Subjects

*ANTISENSE nucleic acids, *PEPTIDE nucleic acids, *LABORATORY mice, *DYSTROPHIN, *OLIGONUCLEOTIDES, *ANIMAL disease models

Abstract

Antisense-mediated exon skipping constitutes a promising new modality for treatment of Duchenne Muscular Dystrophy (DMD), which is caused by gene mutations that typically introduce a translation stop codon in the dystrophin gene, thereby abolishing production of functional dystrophin protein. The exon removal can restore translation to produce a shortened, but still partially functional dystrophin protein. Peptide nucleic acid (PNA) as a potential antisense drug has previously been shown to restore the expression of functional dystrophin by splice modulation in the mdx mouse model of DMD. In this study, we compare systemic administration of a 20-mer splice switching antisense PNA oligomer through intravenous (i.v.) and subcutaneous (s.c.) routes in the mdx mice. Furthermore, the effect of in situ forming depot technology (BEPO®) and PNA-oligonucleotide formulation was studied. In vivo fluorescence imaging analysis showed fast renal/bladder excretion of the PNA (t½ ∼ 20 min) for i.v. administration, while s.c. administration showed a two to three times slower excretion. The release from the BEPO depot exhibited biphasic kinetics with a slow release (t½ ∼ 10 days) of 50% of the dose. In all cases, some accumulation in kidneys and liver could be detected. Formulation of PNA as a duplex hybridization complex with a complementary phosphorothioate oligonucleotide increased the solubility of the PNA. However, none of these alternative administration methods resulted in significantly improved antisense activity. Therefore, either more sophisticated formulations such as designed nanoparticles or conjugation to delivery ligands must be utilized to improve both pharmacokinetics as well as tissue targeting and availability. On the other hand, the results show that s.c. and BEPO depot administration of PNA are feasible and allow easier, higher, and less frequent dosing, as well as more controlled release, which can be exploited both for animal model studies as well as eventually in the clinic in terms of dosing optimization. [ABSTRACT FROM AUTHOR]

Published

2021

248. Using peptide nucleic acid fluorescence in situ hybridization (PNA-FISH) to detect Campylobacter spp. in food samples.

Author

Oliveira, Ricardo, Barbosa, Ana, Sousa, Mário, Azevedo, Nuno Filipe, Cerqueira, Laura, and Almeida, Carina

Subjects

*PEPTIDE nucleic acids, *FLUORESCENCE in situ hybridization, *NUCLEIC acid hybridization, *CAMPYLOBACTER, *FOODBORNE diseases, *RAW foods

Abstract

Foodborne diseases have a considerable negative impact on socioeconomic development globally and are an important cause of morbidity and mortality. Among the foodborne bacterial pathogens, Campylobacter spp. is recognized as the leading cause of foodborne illness. Fluorescent in situ hybridization using nucleic acid mimics (NAM-FISH) as probes, in particular peptide nucleic acid (PNA) probes, is a molecular technique that has emerged as an essential and resourceful tool for bacterial detection. Here, we applied a PNA-FISH methodology, including pre-enrichment culture, for the specific detection of Campylobacter spp. in food matrices, more specifically fresh raw broiler meat and fresh raw pork. New PNA probes, including a blocker probe, have been designed for a 23S rRNA sequence. The PNA-FISH technique presented sensitivity and specificity values of 92.0% and 96.9%, respectively. In food matrcies, the best detection condition was achieved with a pre-enrichment of 48 h in Bolton broth, allowing a detection limit of 1 CFU/25 g. Compared to the ISO 10272-1:2017 reference method, this methodology showed similar performance in food matrices. The present study revealed that the developed PNA-FISH method is a promising alternative for detecting Campylobacter spp. in food samples. • A new peptide nucleic acid in situ hybridization (PNA-FISH) method has been developed to detect Campylobacter spp. • The best condition for detection in food matrices was achieved at 48 h of enrichment in Bolton broth. • The PNA-FISH method showed sensitivity and specificity values of 92.0% and 96.9%, respectively. • Robustness testing has shown that temperature and hybridization time are key factors and should be controlled. • The PNA-FISH method consists of 4 short and easy steps, providing results in less than 3 h after a 48 h enrichment. [ABSTRACT FROM AUTHOR]

Published

2024

249. Linked PDF of Table of Contents.

Subjects

*PEPTIDE nucleic acids, *URACIL derivatives, *PYRIMIDINE nucleosides, *INDUSTRIAL chemistry, *NUCLEOSIDE derivatives, *SCIENCE education

Published

2024

250. A systematic review of peptide nucleic acids (PNAs) with antibacterial activities: Efficacy, potential and challenges.

Author

El-Fateh, Mohamed, Chatterjee, Anushree, and Zhao, Xin

Subjects

*PEPTIDE nucleic acids, *ANTIBACTERIAL agents, *DRUG resistance in bacteria, *GRAM-positive bacteria, *GRAM-negative bacteria

Abstract

• PNAs exhibited antibacterial efficiency at a micromolar dose. • Efficiency of PNAs is influenced by several design factors. • Optimisation of the delivery system and infection testing models is required. • PNAs have potential as target-based antibacterial agents. Peptide nucleic acids (PNAs) are synthetic molecules that are like DNA/RNA, but with different building blocks. PNAs target and bind to mRNAs and disrupt the function of a targeted gene, hence they have been studied as potential antibacterials. The aim of this systematic review was to provide an in-depth analysis of the current status of PNAs as antibacterial agents, define the characteristics of the effective PNA constructs, and address the gap in advancing PNAs to become clinically competent agents. Following the PRISMA model, four electronic databases were searched: Web of Science, PubMed, SciFinder and Scopus. A total of 627 articles published between 1994 and 2023 were found. After screening and a rigorous selection process using explicit inclusion and exclusion criteria, 65 scientific articles were selected, containing 656 minimum inhibitory concentration (MIC) data. The antibacterial activity of PNAs was assessed against 20 bacterial species. The most studied Gram-negative and Gram-positive bacteria were Escherichia coli (n=266) and Staphylococcus aureus (n=53), respectively. In addition, the effect of PNA design, including construct length, binding location, and carrier agents, on antibacterial activity was shown. Finally, antibacterial test models to assess the inhibitory effects of PNAs were examined, emphasising gaps and prospects. This systematic review provides a comprehensive assessment of the potential of PNAs as antibacterial agents and offers valuable insights for researchers and clinicians seeking novel therapeutic strategies in the context of increasing rates of antibiotic-resistant bacteria. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024