Your search keyword '"Wendt KL"' showing total 29 results

1. Development of High Resolution Resonance Ionization Mass Spectrometry for Neutron Dosimetry Technique with93Nb(n,n')93mNb Reaction

Author

Tomita Hideki, Takatsuka Takaaki, Takamatsu Takahide, Adachi Yoshitaka, Furuta Yujin, Noto Takuma, Iguchi Tetsuo, Sonnenschein Volker, Wendt Klaus, Ito Chikara, and Maeda Shigetaka

Subjects

Physics, QC1-999

Abstract

We have proposed an advanced technique to measure the 93mNb yield precisely by Resonance Ionization Mass Spectrometry, instead of conventional characteristic X-ray spectroscopy. 93mNb-selective resonance ionization is achievable by distinguishing the hyperfine splitting of the atomic energy levels between 93Nb and 93mNb at high resolution. In advance of 93mNb detection, we could successfully demonstrate high resolution resonant ionization spectroscopy of stable 93Nb using an all solid-state, narrow-band and tunable Ti:Sapphire laser system operated at 1 kHz repetition rate.

Published

2016

2. Hemiarthroplasty versus angle-stable locking compression plate osteosynthesis in the treatment of three- and four-part fractures of the proximal humerus in the elderly: design of a randomized controlled trial

Author

Verbeek Paul A, van den Akker-Scheek Inge, Wendt Klaus W, and Diercks Ron L

Subjects

Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background The optimal surgical management of dislocated three- and four-part fractures of the proximal humerus in elderly patients remains unclear. Most used techniques are hemiarthroplasty and angle-stable locking compression plate osteosynthesis. In the current literature there is no evidence available presenting superior results between hemiarthroplasty and angle-stable locking compression plate osteosynthesis in terms of speed of recovery, pain, patient satisfaction, functional outcome, quality of life or complications. Methods/Design A randomized controlled multicenter trial will be conducted. Patients older than 60 years of age with a dislocated three- or four-part fracture of the proximal humerus as diagnosed by X-rays and CT-scans will be included. Exclusion criteria are a fracture older than 14 days, multiple comorbidity, multitrauma, a pathological fracture, previous surgery on the injured shoulder, severely deranged function caused by a previous disease, "head-split" proximal humerus fracture and unwillingness or inability to follow instructions. Participants will be randomized between surgical treatment with hemiarthroplasty and angle-stable locking compression plate osteosynthesis. Measurements will take place preoperatively and 3 months, 6 months, 9 months, 12 months and 24 months postoperatively. Primary outcome measure is speed of recovery of functional capacity of the affected upper limb using the Disabilities of Arm, Shoulder and Hand score (DASH). Secondary outcome measures are pain, patient satisfaction, shoulder function, quality of life, radiological evaluation and complications. Data will be analyzed on an intention-to-treat basis, using univariate and multivariate analyses. Discussion Both hemiarthroplasty and angle-stable locking compression plate osteosynthesis are used in the current treatment of dislocated three-and four-part fractures of the proximal humerus. There is a lack of level-1 studies comparing these two most-used surgical treatment options. This randomized controlled multicenter trial has been designed to determine which surgical treatment option provides the fastest recovery of functional capacity of the affected upper limb, and will provide better outcomes in pain, satisfaction, shoulder function, quality of life, radiological evaluation and complications. Trial registration number The trial is registered in the Netherlands Trial Registry (NTR2461)

Published

2012

3. Rationally minimizing natural product libraries using mass spectrometry.

Author

Ness M, Peramuna T, Wendt KL, Collins JE, King JB, Paes R, Santos NM, Okeke C, Miller CR, Chakrabarti D, Cichewicz RH, and McCall L-I

Abstract

Natural products are a critical source of novel chemotypes for drug discovery. However, the implementation of natural product extract libraries in high throughput screening is hampered by natural product structural redundancy and potential for bioactive re-discovery. This challenge and large library sizes drastically increase the time and cost during initial high throughput screens. To address these limitations, we developed a method that leverages liquid chromatography-tandem mass spectrometry spectral similarity to dramatically reduce natural product library size, with minimal bioactive loss, and applied this to a collection of fungal extracts. Importantly, this method also afforded increased bioassay hit rates against microbial targets, with broad applicability across assays and natural product sources. Thus, this method offers a broadly applicable strategy for accelerated and cost-effective natural product drug discovery., Importance: Natural product libraries are large collections of extracts derived from fungi, plants, bacteria, or any other natural sources. These libraries play an important role in the initial phases of drug discovery, providing the basis for bioassays against a target of interest. However, these collections often comprise thousands of extracts with sometimes overlapping chemical structures, which can result in a bottleneck in both time and costs for the initial phases of drug discovery. Here, we have developed a method that uses mass spectrometry to dramatically reduce the size of these libraries, with minimal tradeoffs and improved success rates in bioassays. Ultimately, this will speed up the process of bioactive candidate identification and isolation, and drug development overall.

Published

2025

4. Semisynthetic Tetramate-Containing Fungal Metabolites with Activity against Trichomonas vaginalis and Mycoplasma genitalium .

Author

Peramuna T, Wood GE, Hu Z, Wendt KL, Aguila LKT, Kim CM, Duerfeldt AS, and Cichewicz RH

Abstract

Tetramic acid-containing natural products are well known for their promising biological activity against various diseases. In our previous study, we reported fungal-derived tetramic acid-containing natural products with activity against Trichomonas vaginalis . Here, we demonstrate that Mycoplasma genitalium is also highly susceptible to this chemotype and we uncovered the initial structure activity relationships on disparate tetramate chemotypes in phomasetin ( 6 ) and pyrrolocin A ( 10 ). Further, 6 and 10 were modified using "click" chemistry to re-engineer bioactivity. Compounds 6 and 10 hold promise as a pipeline-diversifying chemotype for promising leads against T . vaginalis and M . genitalium ., Competing Interests: The authors declare no competing financial interest., (© 2024 American Chemical Society.)

Published

2024

5. The fungal natural product fusidic acid demonstrates potent activity against Mycoplasma genitalium .

Author

Wood GE, Lee JW, Peramuna T, Wendt KL, Kim CM, Aguila LKT, Calderon CL, and Cichewicz RH

Subjects

Humans, Drug Resistance, Bacterial drug effects, Drug Resistance, Bacterial genetics, Biological Products pharmacology, Ascomycota drug effects, Female, Mycoplasma Infections drug therapy, Mycoplasma Infections microbiology, Mycoplasma genitalium drug effects, Fusidic Acid pharmacology, Microbial Sensitivity Tests, Anti-Bacterial Agents pharmacology

Abstract

Antimicrobial resistance is extremely common in Mycoplasma genitalium , a frequent cause of urethritis in men and cervicitis, vaginitis, and pelvic inflammatory disease in women. Treatment of M. genitalium infections is difficult due to intrinsic and acquired resistance to many antibiotic classes. We undertook a program to identify novel antimicrobials with activity against M. genitalium from fungal natural products. Extracts of Ramularia coccinea contained a molecule with potent activity that was subsequently identified as fusidic acid, a fusidane-type antibiotic that has been in clinical use for decades outside the United States. We found that minimum inhibitory concentrations of fusidic acid ranged from 0.31 to 4 µg/mL among 17 M . genitalium strains including laboratory-passaged and low-passage clinical isolates. Time-kill data indicate that bactericidal killing occurs when M. genitalium is exposed to ≥10 µg/mL for 48 h, comparing favorably to serum concentrations obtained from typical loading dose regimens. Resistance to fusidic acid was associated with mutations in fusA consistent with the known mechanism of action in which fusidic acid inhibits protein synthesis by binding to elongation factor G. Interestingly, no mutants resistant to >10 µg/mL fusidic acid were obtained and a resistant strain containing a F435Y mutation in FusA was impaired for growth in vitro . These data suggest that fusidic acid may be a promising option for the treatment of M. genitalium infections., Competing Interests: The authors declare no conflict of interest.

Published

2024

6. Iron(III) Binding Properties of PF1140, a Fungal N -Hydroxypyridone, and Activity against Mycoplasma genitalium .

Author

Peramuna T, Kim CM, Aguila LKT, Wendt KL, Wood GE, and Cichewicz RH

Subjects

Molecular Structure, Microbial Sensitivity Tests, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Pyridones pharmacology, Pyridones chemistry, Fungi chemistry, Fungi metabolism, Ferric Compounds chemistry, Hydrogen Peroxide, Siderophores pharmacology, Siderophores chemistry, Mycoplasma genitalium metabolism, Mycoplasma genitalium drug effects, Iron metabolism

Abstract

Mycoplasma genitalium is a sexually transmitted bacterium associated with urogenital disease syndromes in the US and worldwide. The global rise in drug resistance in M. genitalium necessitates the development of novel drugs to treat this pathogen. To address this need, we have screened extracts from a library of fungal isolates assembled through the University of Oklahoma Citizen Science Soil Collection Program. Analysis of one of the bioactive extracts using bioassay-guided fractionation led to the purification of the compound PF1140 ( 1 ) along with a new and several other known pyridones. The N -hydroxy pyridones are generally regarded as siderophores with high binding affinity for iron(III) under physiological conditions. Results from UV-vis absorption spectroscopy-based titration experiments revealed that 1 complexes with Fe 3+ . As M. genitalium does not utilize iron, we propose that the PF1140-iron complex induces cytotoxicity by facilitating the cellular uptake of iron, which reacts with endogenous hydrogen peroxide to produce toxic hydroxyl radicals.

Published

2024

7. Chemoreactive 2,5-Diketopiperazines from a Penicillium sp., Structure Revision of Reported Analogues and Proposed Facile Transformation Pathways.

Author

Khong QT, Smith EA, Wendt KL, Dalilian M, Goncharova EI, Brownell I, Cichewicz RH, Henrich CJ, Beutler JA, O'Keefe BR, and Du L

Subjects

Molecular Structure, Humans, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents isolation & purification, Drug Screening Assays, Antitumor, Penicillium chemistry, Diketopiperazines pharmacology, Diketopiperazines chemistry

Abstract

Merkel cell carcinoma (MCC) is a rare and aggressive cutaneous cancer. Two new prenylated indole 2,5-diketopiperazine alkaloids, brevianamides E1 ( 1 ) and E2 ( 2 ), were isolated from a Penicillium fungus. Both compounds showed moderate cytotoxic activity against select MCC cell lines (i.e., MCC13, MKL-1, UISO, and WaGa) in the low micromolar range. The relative and absolute configurations of 1 and 2 were determined by combined approaches, including NOESY spectroscopy, DFT ECD and DP4 plus calculations, and Marfey's reaction. Literature research and the comparison of NMR and ECD data led to the structure revision of three previously reported natural analogues, notoamides K and P and asperversiamide L. The structurally unstable 1 and 2 underwent steady interconversion under neutral aqueous conditions. Investigation of the degradation of 2 in acidic methanol solutions led to the identification of a new methoxylated derivative ( 6 ) and two new ring-opened products ( 7 and 8 ) with the rearranged, elongated, 4-methylpent-3-ene side chain. The facile transformation of 2 to 7 and 8 was promoted by the intrinsic impurity (i.e., formaldehyde) of HPLC-grade methanol through the aza-Cope rearrangement.

Published

2024

8. Inhibitor of Chromosome Segregation in Pseudomonas aeruginosa from Fungal Extracts.

Author

Zhao H, Peramuna T, Ajmal S, Wendt KL, Petrushenko ZM, Premachandra K, Cichewicz RH, and Rybenkov VV

Subjects

Bacterial Proteins metabolism, Bacterial Proteins antagonists & inhibitors, Bacterial Proteins genetics, Microbial Sensitivity Tests, Pseudomonas aeruginosa drug effects, Chromosome Segregation drug effects, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry

Abstract

Chromosome segregation is an essential cellular process that has the potential to yield numerous targets for drug development. This pathway is presently underutilized partially due to the difficulties in the development of robust reporter assays suitable for high throughput screening. In bacteria, chromosome segregation is mediated by two partially redundant systems, condensins and ParABS. Based on the synthetic lethality of the two systems, we developed an assay suitable for screening and then screened a library of fungal extracts for potential inhibitors of the ParABS pathway, as judged by their enhanced activity on condensin-deficient cells. We found such activity in extracts of Humicola sp. Fractionation of the extract led to the discovery of four new analogues of sterigmatocystin, one of which, 4-hydroxy-sterigmatocystin (4HS), displayed antibacterial activity. 4HS induced the phenotype typical for parAB mutants including defects in chromosome segregation and cell division. Specifically, bacteria exposed to 4HS produced anucleate cells and were impaired in the assembly of the FtsZ ring. Moreover, 4HS binds to purified ParB in a ParS-modulated manner and inhibits its ParS-dependent CTPase activity. The data describe a small molecule inhibitor of ParB and expand the known spectrum of activities of sterigmatocystin to include bacterial chromosome segregation.

Published

2024

9. Rationally Minimizing Natural Product Libraries Using Mass Spectrometry.

Author

Ness M, Peramuna T, Wendt KL, Collins JE, King JB, Paes R, Santos NM, Okeke C, Miller CR, Chakrabarti D, Cichewicz RH, and McCall LI

Abstract

Natural product libraries are crucial to drug development, but large libraries drastically increase the time and cost during initial high throughput screens. Here, we developed a method that leverages liquid chromatography-tandem mass spectrometry spectral similarity to dramatically reduce library size, with minimal bioactive loss. This method offers a broadly applicable strategy for accelerated drug discovery with cost reductions, which enable implementation in resource-limited settings.

Published

2024

10. Genomic and metabolomic diversity within a familial population of Aspergillus flavus.

Author

Moore GG, Mack BM, Wendt KL, Castano-Duque L, Anderson VM, and Cichewicz RH

Subjects

Genome, Fungal genetics, Recombination, Genetic, Genomics, Metabolomics, Genotype, Phenotype, Multigene Family, Genetic Variation, Indoles metabolism, Meiosis genetics, Aspergillus flavus genetics, Aspergillus flavus metabolism, Aflatoxins metabolism, Aflatoxins genetics

Abstract

Aspergillus flavus is an agriculturally significant micro-fungus having potential to contaminate food and feed crops with toxic secondary metabolites such as aflatoxin (AF) and cyclopiazonic acid (CPA). Research has shown A. flavus strains can overcome heterokaryon incompatibility and undergo meiotic recombination as teleomorphs. Although evidence of recombination in the AF gene cluster has been reported, the impacts of recombination on genotype and metabolomic phenotype in a single generation are lacking. In previous studies, we paired an aflatoxigenic MAT1-1 A. flavus strain with a non-aflatoxigenic MAT1-2 A. flavus strain that had been tagged with green fluorescent protein and then 10 F1 progenies (a mix of fluorescent and non-fluorescent) were randomly selected from single-ascospore colonies and broadly examined for evidence of recombination. In this study, we determined four of those 10 F1 progenies were recombinants because they were not vegetatively compatible with either parent or their siblings, and they exhibited other distinctive traits that could only result from meiotic recombination. The other six progenies examined shared genomic identity with the non-aflatoxigenic, fluorescent, and MAT1-2 parent, but were metabolically distinct. This study highlights phenotypic and genomic changes that may occur in a single generation from the outcrossing of sexually compatible strains of A. flavus., (© 2024 John Wiley & Sons Ltd. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published

2024

11. Identification of fungal natural products with potent inhibition in Toxoplasma gondii .

Author

Jiang T, Godinez-Macias KP, Collins JE, Lee JW, Wendt KL, Carolino K, Chakrabarti D, Cichewicz RH, and Winzeler EA

Subjects

Humans, Toxoplasma, Antiprotozoal Agents pharmacology, Biological Products pharmacology, Toxoplasmosis, Malaria, Artemisinins pharmacology

Abstract

In an effort to identify novel compounds with potent inhibition against Toxoplasma gondii, a phenotypic screen was performed utilizing a library of 683 pure compounds derived primarily from terrestrial and marine fungi. An initial screen with a fixed concentration of 5 µM yielded 91 hits with inhibition comparable to an equal concentration of artemisinin. These compounds were then triaged based on known biological and chemical concerns and liabilities. From these, 49 prioritized compounds were tested in a dose response format with T. gondii and human foreskin fibroblasts (HFFs) for cytotoxicity. Ten compounds were identified with an IC 50 less than 150 nM and a selectivity index (SI) greater than 100. An additional eight compounds demonstrated submicromolar IC 50 and SI values equal to or greater than 35. While the majority of these scaffolds have been previously implicated against apicomplexan parasites, their activities in T. gondii were largely unknown. Herein, we report the T. gondii activity of these compounds with chemotypes including xanthoquinodins, peptaibols, heptelidic acid analogs, and fumagillin analogs, with multiple compounds demonstrating exceptional potency in T. gondii and limited toxicity to HFFs at the highest concentrations tested., Importance: Current therapeutics for treating toxoplasmosis remain insufficient, demonstrating high cytotoxicity, poor bioavailability, limited efficacy, and drug resistance. Additional research is needed to develop novel compounds with high efficacy and low cytotoxicity. The success of artemisinin and other natural products in treating malaria highlights the potential of natural products as anti-protozoan therapeutics. However, the exploration of natural products in T. gondii drug discovery has been less comprehensive, leaving untapped potential. By leveraging the resources available for the malaria drug discovery campaign, we conducted a phenotypic screen utilizing a set of natural products previously screened against Plasmodium falciparum . Our study revealed 18 compounds with high potency and low cytotoxicity in T. gondii , including four novel scaffolds with no previously reported activity in T. gondii . These new scaffolds may serve as starting points for the development of toxoplasmosis therapeutics but could also serve as tool compounds for target identification studies using chemogenomic approach., Competing Interests: The authors declare no conflict of interest.

Published

2024

12. Antiplasmodial peptaibols act through membrane directed mechanisms.

Author

Collins JE, Lee JW, Rocamora F, Saggu GS, Wendt KL, Pasaje CFA, Smick S, Santos NM, Paes R, Jiang T, Mittal N, Luth MR, Chin T, Chang H, McLellan JL, Morales-Hernandez B, Hanson KK, Niles JC, Desai SA, Winzeler EA, Cichewicz RH, and Chakrabarti D

Subjects

Humans, Peptaibols metabolism, Peptaibols pharmacology, Membrane Transport Proteins, Cell Membrane Permeability, Antimalarials pharmacology, Malaria, Falciparum

Abstract

Our previous study identified 52 antiplasmodial peptaibols isolated from fungi. To understand their antiplasmodial mechanism of action, we conducted phenotypic assays, assessed the in vitro evolution of resistance, and performed a transcriptome analysis of the most potent peptaibol, HZ NPDG-I. HZ NPDG-I and 2 additional peptaibols were compared for their killing action and stage dependency, each showing a loss of digestive vacuole (DV) content via ultrastructural analysis. HZ NPDG-I demonstrated a stepwise increase in DV pH, impaired DV membrane permeability, and the ability to form ion channels upon reconstitution in planar membranes. This compound showed no signs of cross resistance to targets of current clinical candidates, and 3 independent lines evolved to resist HZ NPDG-I acquired nonsynonymous changes in the P. falciparum multidrug resistance transporter, pfmdr1. Conditional knockdown of PfMDR1 showed varying effects to other peptaibol analogs, suggesting differing sensitivity., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

13. Persephacin Is a Broad-Spectrum Antifungal Aureobasidin Metabolite That Overcomes Intrinsic Resistance in Aspergillus fumigatus .

Author

Du L, Haldar S, King JB, Mattes AO, Srivastava S, Wendt KL, You J, Cunningham C, and Cichewicz RH

Subjects

Animals, Humans, Aspergillus fumigatus, Microbial Sensitivity Tests, Candida albicans, Antifungal Agents pharmacology, Fluconazole pharmacology

Abstract

Fungi pose a persistent threat to humankind with worrying indications that emerging and re-emerging pathogens (e.g., Candida auris , Coccidioides spp., drug-resistant Aspergilli, and more) exhibit resistance to the limited number of approved antifungals. To address this problem, our team is exploring endophytic fungi as a resource for the discovery of new antifungal natural products. The rationale behind this decision is based on evidence that endophytes engage with plants in mutualistic relationships wherein some fungi actively participate by producing chemical defense measures that suppress pathogenic microorganisms. To improve the odds of bioactive metabolite discovery, we developed a new hands-free laser-cutting system capable of generating >50 plant samples per minute that, in turn, enabled our team to prepare and screen large numbers of endophytic fungi. One of the fungal isolates obtained in this way was identified as an Elsinoë sp. that produced a unique aureobasidin analogue, persephacin ( 1 ). Some distinctive features of 1 are the absence of both phenylalanine residues combined with the incorporation of a novel amino acid residue, persephanine ( 9 ). Compound 1 exhibits potent antifungal effects against a large number of pathogenic yeast (including several clinical C. auris strains), as well as phylogenetically diverse filamentous fungi (e.g., Aspergillus fumigatus ). In an ex vivo eye infection model, compound 1 outperformed standard-of-care treatments demonstrating the ability to suppress fluconazole-resistant Candida albicans and A. fumigatus at a concentration (0.1% solution) well below the clinically recommended levels used for fluconazole and natamycin (2% and 5% solutions, respectively). In 3D tissue models for acute dermal and ocular safety, 1 was found to be nontoxic and nonirritating at concentrations required to elicit antifungal activity. Natural product 1 appears to be a promising candidate for further investigation as a broad-spectrum antifungal capable of controlling a range of pathogens that negatively impact human, animal, and plant health.

Published

2023

14. Resolving a Natural Product Cold Case: Elucidation of Fusapyrone Structure and Absolute Configuration and Demonstration of Their Fungal Biofilm Disrupting Properties.

Author

Kil YS, You J, Wendt KL, King JB, and Cichewicz RH

Subjects

Humans, Pyrones pharmacology, Biofilms, Candida albicans, Antifungal Agents pharmacology, Antifungal Agents chemistry

Abstract

Fusapyrones are fungal metabolites, which have been reported to have broad-spectrum antibacterial and antifungal properties. Despite the first members of this chemical class being described three decades prior, many aspects of their structures have remained unresolved, thereby constraining efforts to fully understand structure-activity relationships within this metabolite family and impeding the design of streamlined syntheses. Among the main challenges posed by fusapyrones is the incorporation of several single and groups of stereocenters separated by atoms with freely rotating bonds, which have proven unyielding to spectroscopic analyses. In this study, we obtained a series of new ( 2 - 5 and 7 - 9 ) and previously reported fusapyrones ( 1 and 6 ), which were subjected to a combination of spectroscopic, chemical, and computational techniques enabling us to offer proposals for their full structures, as well as provide a pathway to reinterpreting the absolute configurations of other published fusapyrone metabolites. Biological testing of the fusapyrones revealed their abilities to inhibit and disrupt biofilms made by the human fungal pathogen, Candida albicans . These results show that fusapyrones reduce hyphae formation in C. albicans , as well as decrease the surface adherence capabilities of planktonic cells and cells transitioning into early-stage biofilm formation.

Published

2023

15. Appraisal of Fungus-Derived Xanthoquinodins as Broad-Spectrum Anti-Infectives Targeting Phylogenetically Diverse Human Pathogens.

Author

Lee JW, Collins JE, Hulverson MA, Aguila LKT, Kim CM, Wendt KL, Chakrabarti D, Ojo KK, Wood GE, Van Voorhis WC, and Cichewicz RH

Subjects

Humans, Anti-Bacterial Agents pharmacology, Molecular Structure, Cryptosporidiosis, Cryptosporidium, Anti-Infective Agents pharmacology, Mitosporic Fungi

Abstract

Xanthoquinodins make up a distinctive class of xanthone-anthraquinone heterodimers reported as secondary metabolites from several fungal species. Through a collaborative multi-institutional screening program, a fungal extract prepared from a Trichocladium sp. was identified that exhibited strong inhibitory effects against several human pathogens ( Mycoplasma genitalium , Plasmodium falciparum , Cryptosporidium parvum , and Trichomonas vaginalis ). This report focuses on one of the unique samples that exhibited a desirable combination of biological effects: namely, it inhibited all four test pathogens and demonstrated low levels of toxicity toward HepG2 (human liver) cells. Fractionation and purification of the bioactive components and their congeners led to the identification of six new compounds [xanthoquinodins NPDG A1-A5 ( 1 - 5 ) and B1 ( 6 )] as well as several previously reported natural products ( 7 - 14 ). The chemical structures of 1 - 14 were determined based on interpretation of their 1D and 2D NMR, HRESIMS, and electronic circular dichroism (ECD) data. Biological testing of the purified metabolites revealed that they possessed widely varying levels of inhibitory activity against a panel of human pathogens. Xanthoquinodins A1 ( 7 ) and A2 ( 8 ) exhibited the most promising broad-spectrum inhibitory effects against M. genitalium (EC 50 values: 0.13 and 0.12 μM, respectively), C. parvum (EC 50 values: 5.2 and 3.5 μM, respectively), T. vaginalis (EC 50 values: 3.9 and 6.8 μM, respectively), and P. falciparum (EC 50 values: 0.29 and 0.50 μM, respectively) with no cytotoxicity detected at the highest concentration tested (HepG2 EC 50 > 25 μM).

Published

2023

16. Identification of Fungus-Derived Natural Products as New Antigiardial Scaffolds.

Author

Hulverson MA, Michaels SA, Lee JW, Wendt KL, Tran LT, Choi R, Van Voorhis WC, Cichewicz RH, and Ojo KK

Subjects

Child, Humans, Metronidazole therapeutic use, Fungi, Giardiasis parasitology, Antiprotozoal Agents pharmacology, Biological Products pharmacology

Abstract

There is an unmet need for effective therapies for treating diseases associated with the intestinal parasite Giardia lamblia. In this study, a library of chemically validated purified natural products and fungal extracts was screened for chemical scaffolds that can inhibit the growth of G. lamblia. The phenotypic screen led to the identification of several previously unreported classes of natural product inhibitors that block the growth of G. lamblia. Hits from phenotypic screens of these naturally derived compounds are likely to possess a variety of mechanisms of action not associated with clinically used nitroimidazole and thiazolide compounds. They may therefore be effective against current drug-resistant parasite strains. IMPORTANCE There is a direct link between widespread prevalence of clinical giardiasis and poverty. This may be one of the reasons why giardiasis is a significant contributor to diarrheal morbidity, stunting, and death of children in resource-limited communities around the world. FDA-approved treatments for giardiasis include metronidazole, related nitroimidazole drugs, and albendazole. However, a substantial number of clinical infections are resistant to these treatments. The depth of the challenge is partly exacerbated by a lack of investment in the discovery and development of novel agents for treatment of giardiasis. Applicable interventions must include new drug development strategies that will result in the identification of effective therapeutics, particularly those that are inexpensive and can be quickly advanced to clinical uses, such as products from nature. This study identified novel chemical scaffolds from fungi that can form the basis of future medicinal chemistry optimization of novel antigiardial agents., Competing Interests: The authors declare no conflict of interest.

Published

2023

17. Tolypocladamides A-G: Cytotoxic Peptaibols from Tolypocladium inflatum .

Author

Senadeera SPD, Wang D, Kim CK, Smith EA, Durrant DE, Alexander PA, Wendt KL, Stephen AG, Morrison DK, Cichewicz RH, Henrich CJ, and Beutler JA

Subjects

Amino Acids chemistry, Cell Line, Tumor, Peptaibols pharmacology, Antineoplastic Agents pharmacology, Hypocreales chemistry

Abstract

Seven new peptaibols named tolypocladamides A-G have been isolated from an extract of the fungus Tolypocladium inflatum , which inhibits the interaction between Raf and oncogenic Ras in a cell-based high-throughput screening assay. Each peptaibol contains 11 amino acid residues, an octanoyl or decanoyl fatty acid chain at the N-terminus, and a leucinol moiety at the C-terminus. The peptaibol sequences were elucidated on the basis of 2D NMR and mass spectral fragmentation analyses. Amino acid configurations were determined by advanced Marfey's analyses. Tolypocladamides A-G caused significant inhibition of Ras/Raf interactions with IC 50 values ranging from 0.5 to 5.0 μM in a nanobioluminescence resonance energy transfer (NanoBRET) assay; however, no interactions were observed in a surface plasmon resonance assay for binding of the compounds to wild type or G12D mutant Ras constructs or to the Ras binding domain of Raf. NCI 60 cell line testing was also conducted, and little panel selectivity was observed.

Published

2022

18. Assessing Microbial Metabolic and Biological Diversity to Inform Natural Product Library Assembly.

Author

Anderson VM, Wendt KL, Caughron JB, Matlock HP, Rangu N, Najar FZ, Miller AN, Luttenton MR, and Cichewicz RH

Subjects

Biodiversity, Chromatography, Liquid, Fungi, Tandem Mass Spectrometry, Ascomycota, Biological Products chemistry, Penicillium chemistry

Abstract

The pressing need for novel chemical matter to support bioactive compound discovery has led natural product researchers to explore a wide range of source organisms and environments. One of the implicit guiding principles behind those efforts is the notion that sampling different environments is critical to accessing unique natural products. This idea was tested by comparing fungi from disparate biomes: aquatic sediments from Lake Michigan (USA) and terrestrial samples taken from the surrounding soils. Matched sets of Penicillium brevicompactum , Penicillium expansum , and Penicillium oxalicum from the two source environments were compared, revealing modest differences in physiological performance and chemical output. Analysis of LC-MS/MS-derived molecular feature data showed no source-dependent differences in chemical richness. High levels of scaffold homogeneity were also observed with 78-83% of scaffolds shared among the terrestrial and aquatic Penicillium spp. isolates. A comparison of the culturable fungi from the two biomes indicated that certain genera were more strongly associated with aquatic sediments (e.g., Trichoderma , Pseudeurotium , Cladosporium , and Preussia ) versus the surrounding terrestrial environment (e.g., Fusarium , Pseudogymnoascus , Humicola , and Acremonium ). Taken together, these results suggest that focusing efforts on sampling the microbial resources that are unique to an environment may have a more pronounced effect on enhancing the sought-after natural product diversity needed for chemical discovery and screening collections.

Published

2022

19. Identification of Leucinostatins from Ophiocordyceps sp. as Antiparasitic Agents against Trypanosoma cruzi .

Author

Bernatchez JA, Kil YS, Barbosa da Silva E, Thomas D, McCall LI, Wendt KL, Souza JM, Ackermann J, McKerrow JH, Cichewicz RH, and Siqueira-Neto JL

Abstract

Safe and effective treatments for Chagas disease, a potentially fatal parasitic infection associated with cardiac and gastrointestinal pathology and caused by the kinetoplastid parasite Trypanosoma cruzi , have yet to be developed. Benznidazole and nifurtimox, which are currently the only available drugs against T. cruzi , are associated with severe adverse effects and questionable efficacy in the late stage of the disease. Natural products have proven to be a rich source of new chemotypes for other infectious agents. We utilized a microscopy-based high-throughput phenotypic screen to identify inhibitors of T. cruzi from a library of natural product samples obtained from fungi procured through a Citizen Science Soil Collection Program (https://whatsinyourbackyard.org/) and the Great Lakes (USA) benthic environment. We identified five leucinostatins (A, B, F, NPDG C, and NPDG D) as potent inhibitors of the intracellular amastigote form of T. cruzi . Leucinostatin B also showed in vivo suppression of T. cruzi in a mouse model of Chagas disease. Given prior reports that leucinostatins A and B have antiparasitic activity against the related kinetoplastid Trypanosoma brucei , our findings suggest a potential cross-trypanocidal compound class and provide a platform for the further chemical derivatization of a potent chemical scaffold against T. cruzi ., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published

2022

20. Correction for Anderson et al., "Building Natural Product Libraries Using Quantitative Clade-Based and Chemical Clustering Strategies".

Author

Anderson VM, Wendt KL, Najar FZ, McCall LI, and Cichewicz RH

Published

2021

21. Building Natural Product Libraries Using Quantitative Clade-Based and Chemical Clustering Strategies.

Author

Anderson VM, Wendt KL, Najar FZ, McCall LI, and Cichewicz RH

Abstract

The success of natural product-based drug discovery is predicated on having chemical collections that offer broad coverage of metabolite diversity. We propose a simple set of tools combining genetic barcoding and metabolomics to help investigators build natural product libraries aimed at achieving predetermined levels of chemical coverage. It was found that such tools aided in identifying overlooked pockets of chemical diversity within taxa, which could be useful for refocusing collection strategies. We have used fungal isolates identified as Alternaria from a citizen-science-based soil collection to demonstrate the application of these tools for assessing and carrying out predictive measurements of chemical diversity in a natural product collection. Within Alternaria , different subclades were found to contain nonequivalent levels of chemical diversity. It was also determined that a surprisingly modest number of isolates (195 isolates) was sufficient to afford nearly 99% of Alternaria chemical features in the data set. However, this result must be considered in the context that 17.9% of chemical features appeared in single isolates, suggesting that fungi like Alternaria might be engaged in an ongoing process of actively exploring nature's metabolic landscape. Our results demonstrate that combining modest investments in securing internal transcribed spacer (ITS)-based sequence information (i.e., establishing gene-based clades) with data from liquid chromatography-mass spectrometry (i.e., generating feature accumulation curves) offers a useful route to obtaining actionable insights into chemical diversity coverage trends in a natural product library. It is anticipated that these outcomes could be used to improve opportunities for accessing bioactive molecules that serve as the cornerstone of natural product-based drug discovery. IMPORTANCE Natural product drug discovery efforts rely on libraries of organisms to provide access to diverse pools of compounds. Actionable strategies to rationally maximize chemical diversity, rather than relying on serendipity, can add value to such efforts. Readily implementable biological (i.e., ITS sequence analysis) and chemical (i.e., mass spectrometry-based feature and scaffold measurements) diversity assessment tools can be employed to monitor and adjust library development tactics in real time. In summary, metabolomics-driven technologies and simple gene-based specimen barcoding approaches have broad applicability to building chemically diverse natural product libraries.

Published

2021

22. Identification of natural product modulators of Merkel cell carcinoma cell growth and survival.

Author

Smith EA, Hill NT, Gelb T, Garman KA, Goncharova EI, Bokesch HR, Kim CK, Wendt KL, Cichewicz RH, Gustafson KR, Brownell I, and Henrich CJ

Subjects

Cell Line, Tumor, Drug Screening Assays, Antitumor, Humans, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Biological Products chemistry, Biological Products pharmacology, Carcinoma, Merkel Cell drug therapy, Carcinoma, Merkel Cell metabolism, Carcinoma, Merkel Cell pathology, Skin Neoplasms drug therapy, Skin Neoplasms metabolism, Skin Neoplasms pathology

Abstract

Merkel cell carcinoma (MCC) is a rare, but aggressive skin cancer the incidence of which has increased significantly in recent years. The majority of MCCs have incorporated Merkel cell polyomavirus (VP-MCC) while the remainder are virus-negative (VN-MCC). Although a variety of therapeutic options have shown promise in treating MCC, there remains a need for additional therapeutics as well as probes for better understanding MCC. A high-throughput screening campaign was used to assess the ability of > 25,000 synthetic and natural product compounds as well as > 20,000 natural product extracts to affect growth and survival of VN-MCC and VP-MCC cell lines. Sixteen active compounds were identified that have mechanisms of action reported in the literature along with a number of compounds with unknown mechanisms. Screening results with pure compounds suggest a range of potential targets for MCC including DNA damage, inhibition of DNA or protein synthesis, reactive oxygen species, and proteasome inhibition as well as NFκB inhibition while also suggesting the importance of zinc and/or copper binding. Many of the active compounds, particularly some of the natural products, have multiple reported targets suggesting that this strategy might be a particularly fruitful approach. Processing of several active natural product extracts resulted in the identification of additional MCC-active compounds. Based on these results, further investigations focused on natural products sources, particularly of fungal origin, are expected to yield further potentially useful modulators of MCC.

Published

2021

23. Roseabol A, a New Peptaibol from the Fungus Clonostachys rosea .

Author

Kim CK, Krumpe LRH, Smith E, Henrich CJ, Brownell I, Wendt KL, Cichewicz RH, O'Keefe BR, and Gustafson KR

Subjects

Amino Acid Sequence, Antineoplastic Agents chemistry, Carcinoma, Merkel Cell chemistry, Carcinoma, Merkel Cell metabolism, Cell Line, Tumor, Humans, Magnetic Resonance Spectroscopy methods, Molecular Structure, Skin Neoplasms chemistry, Skin Neoplasms metabolism, Antineoplastic Agents pharmacology, Carcinoma, Merkel Cell drug therapy, Hypocreales chemistry, Peptaibols chemistry, Peptaibols pharmacology, Skin Neoplasms drug therapy

Abstract

A new 11 amino acid linear peptide named roseabol A ( 1 ) and the known compound 13-oxo- trans -9,10-epoxy-11( E )-octadecenoic acid ( 2 ) were isolated from the fungus Clonostachys rosea . Combined NMR and MS analysis revealed that roseabol A ( 1 ) contained amino acid residues characteristic of the peptaibol family of peptides such as isovaline, α -aminoisobutyric acid, hydroxyproline, leucinol, and an N -terminal isovaleric acid moiety. The amino acid sequence was established by a combination of NMR studies and tandem MS fragmentation analyses, and the absolute configurations of the constituent amino acids of 1 were determined by the advanced Marfey's method. Compound 2 showed inhibitory activity against Merkel cell carcinoma, a rare and difficult-to-treat type of skin cancer, with an IC 50 value of 16.5 μM.

Published

2021

24. Leveraging Peptaibol Biosynthetic Promiscuity for Next-Generation Antiplasmodial Therapeutics.

Author

Lee JW, Collins JE, Wendt KL, Chakrabarti D, and Cichewicz RH

Subjects

Biological Products pharmacology, Drug Resistance, Hep G2 Cells, Humans, Molecular Structure, Pennsylvania, Peptaibols pharmacology, Plasmodium falciparum drug effects, Soil Microbiology, Texas, Antimalarials pharmacology, Hypocrea chemistry, Peptaibols biosynthesis, Trichoderma chemistry

Abstract

Malaria remains a worldwide threat, afflicting over 200 million people each year. The emergence of drug resistance against existing therapeutics threatens to destabilize global efforts aimed at controlling Plasmodium spp. parasites, which is expected to leave vast portions of humanity unprotected against the disease. To address this need, systematic testing of a fungal natural product extract library assembled through the University of Oklahoma Citizen Science Soil Collection Program has generated an initial set of bioactive extracts that exhibit potent antiplasmodial activity (EC 50 < 0.30 μg/mL) and low levels of toxicity against human cells (less than 50% reduction in HepG2 growth at 25 μg/mL). Analysis of the two top-performing extracts from Trichoderma sp. and Hypocrea sp. isolates revealed both contained chemically diverse assemblages of putative peptaibol-like compounds that were responsible for their antiplasmodial actions. Purification and structure determination efforts yielded 30 new peptaibols and lipopeptaibols ( 1 - 14 and 28 - 43 ), along with 22 known metabolites ( 15 - 27 and 44 - 52 ). While several compounds displayed promising activity profiles, one of the new metabolites, harzianin NPDG I ( 14 ), stood out from the others due to its noteworthy potency (EC 50 = 0.10 μM against multi-drug-resistant P. falciparum line Dd2) and absence of gross toxicity toward HepG2 at the highest concentrations tested (HepG2 EC 50 > 25 μM, selectivity index > 250). The unique chemodiversity afforded by these fungal isolates serves to unlock new opportunities for translating peptaibols into a bioactive scaffold worthy of further development.

Published

2021

25. Structure elucidation and absolute configuration of metabolites from the soil-derived fungus Dictyosporium digitatum using spectroscopic and computational methods.

Author

Tran TD, Wilson BAP, Henrich CJ, Wendt KL, King J, Cichewicz RH, Stchigel AM, Miller AN, O'Keefe BR, and Gustafson KR

Subjects

Magnetic Resonance Spectroscopy, Molecular Structure, Soil, Ascomycota, Sesquiterpenes

Abstract

Following the discovery of a new class of compounds that inhibit the mucosa-associated lymphoid tissue lymphoma translocation 1 (MALT1) protease in a prior study, further chemical investigation of the Dictyosporium digitatum fungus resulted in the identification of 16 additional metabolites, including 12 undescribed compounds (1-12). The constitution and relative configuration of these new molecules were established by comprehensive NMR and HRMS analyses. Their absolute configurations were determined by employing Mosher's ester analysis and TDDFT ECD calculations. Two sesquiterpenes, dictyosporins A (1) and B (2), possess an undescribed eudesmen-type of structural scaffold. The ability of the isolated compounds to inhibit MALT1 proteolytic activity was evaluated, but none of them exhibited significant inhibition., Competing Interests: Declaration of competing interest The authors declare no conflicts of interest., (Published by Elsevier Ltd.)

Published

2020

26. In Situ Ring Contraction and Transformation of the Rhizoxin Macrocycle through an Abiotic Pathway.

Author

Carter AC, Petersen CL, Wendt KL, Helff SK, Risinger AL, Mooberry SL, and Cichewicz RH

Subjects

Burkholderia chemistry, Cell Line, Tumor, Drug Screening Assays, Antitumor, Humans, Molecular Structure, Rhizopus chemistry, Sarcoma, Ewing pathology, Structure-Activity Relationship, Symbiosis, Macrocyclic Compounds chemistry, Macrocyclic Compounds pharmacokinetics, Macrolides chemistry, Macrolides pharmacokinetics, Stress, Physiological

Abstract

A Rhizopus sp. culture containing an endosymbiont partner ( Burkholderia sp.) was obtained through a citizen-science-based soil-collection program. An extract prepared from the pair of organisms exhibited strong inhibition of Ewing sarcoma cells and was selected for bioassay-guided fractionation. This led to the purification of rhizoxin (1), a potent antimitotic agent that inhibited microtubule polymerization, along with several new (2-5) and known (6) analogues of 1. The structures of 2-6 were established using a combination of NMR data analysis, while the configurations of the new stereocenters were determined using ROESY spectroscopy and comparison of GIAO-derived and experimental data for NMR chemical shift and 3 J HH coupling values. Whereas compound 1 showed modest selectivity for Ewing sarcoma cell lines carrying the EWSR1/ FLI1 fusion gene, the other compounds were determined to be inactive. Chemically, compound 2 stands out from other rhizoxin analogues because it is the first member of this class that is reported to contain a one-carbon-smaller 15-membered macrolactone system. Through a combination of experimental and computational tests, we determined that 2 is likely formed via an acid-catalyzed Meinwald rearrangement from 1 because of the mild acidic culture environment created by the Rhizopus sp. isolate and its symbiont.

Published

2019

27. Secondary Metabolites from the Fungus Dictyosporium sp. and Their MALT1 Inhibitory Activities.

Author

Tran TD, Wilson BAP, Henrich CJ, Staudt LM, Krumpe LRH, Smith EA, King J, Wendt KL, Stchigel AM, Miller AN, Cichewicz RH, O'Keefe BR, and Gustafson KR

Subjects

Enzyme Inhibitors chemistry, Enzyme Inhibitors pharmacology, Enzyme Inhibitors isolation & purification, Fungi metabolism, Mucosa-Associated Lymphoid Tissue Lymphoma Translocation 1 Protein antagonists & inhibitors

Abstract

Bioassay-guided separation of an extract from a Dictyosporium sp. isolate led to the identification of six new compounds, 1-6, together with five known compounds, 7-11. The structures of the new compounds were primarily established by extensive 1D and 2D NMR experiments. The absolute configurations of compounds 3-6 were determined by comparison of their experimental electronic circular dichroism (ECD) spectra with DFT quantum mechanical calculated ECD spectra. Compounds 3-5 possess novel structural scaffolds, and biochemical studies revealed that oxepinochromenones 1 and 7 inhibited the activity of MALT1 protease.

Published

2019

28. BRCA1 regulation of epidermal growth factor receptor (EGFR) expression in human breast cancer cells involves microRNA-146a and is critical for its tumor suppressor function.

Author

Kumaraswamy E, Wendt KL, Augustine LA, Stecklein SR, Sibala EC, Li D, Gunewardena S, and Jensen RA

Subjects

Cell Line, Tumor, Cell Proliferation genetics, Cell Transformation, Neoplastic genetics, Cell Transformation, Neoplastic pathology, Female, Humans, Lymph Nodes pathology, Promoter Regions, Genetic genetics, RNA Processing, Post-Transcriptional genetics, Transcriptional Activation genetics, Triple Negative Breast Neoplasms pathology, Tumor Suppressor Proteins genetics, BRCA1 Protein genetics, ErbB Receptors genetics, MicroRNAs genetics, Triple Negative Breast Neoplasms genetics

Abstract

Breast cancer 1 (BRCA1)-associated breast cancers are mostly basal-like high-grade ductal carcinomas that frequently overexpress epidermal growth factor receptor (EGFR). Aberrant EGFR expression is correlated with disease progression, resistance to radiation and chemotherapy, and poor clinical prognosis. Although BRCA1 is involved in multiple cellular processes, its functional role in EGFR regulation remains enigmatic. Here, we report a previously unrecognized posttranscriptional mechanism by which BRCA1 regulates EGFR expression through the induction of miR-146a. We demonstrate that EGFR expression correlates negatively with BRCA1, whereas miR-146a levels increase with BRCA1. We show that BRCA1 binds to MIR146A promoter and activates transcription, which in turn attenuates EGFR expression. Knockdown of miR-146a in BRCA1-overexpressing cells negated this effect and suppressed its ability to inhibit proliferation and transformation. In archived triple-negative breast cancer samples, we show a strong positive correlation between BRCA1 and miR-146a expression. We also show that low expression of miR-146a strongly predicts positive lymph node status and is associated with distinctively poor overall survival of patients. Together, these observations provide an insight into a novel BRCA1miR-146aEGFR paradigm by which BRCA1 carries out an aspect of tumor suppressor function that is potentially amenable to therapeutic intervention.

Published

2015

29. DNA polymerases ζ and Rev1 mediate error-prone bypass of non-B DNA structures.

Author

Northam MR, Moore EA, Mertz TM, Binz SK, Stith CM, Stepchenkova EI, Wendt KL, Burgers PM, and Shcherbakova PV

Subjects

DNA Replication, Mutation, Nucleic Acid Conformation, Nucleotidyltransferases chemistry, Repetitive Sequences, Nucleic Acid, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae Proteins chemistry, DNA biosynthesis, DNA chemistry, DNA-Directed DNA Polymerase metabolism, Mutagenesis, Nucleotidyltransferases metabolism, Saccharomyces cerevisiae Proteins metabolism

Abstract

DNA polymerase ζ (Pol ζ) and Rev1 are key players in translesion DNA synthesis. The error-prone Pol ζ can also participate in replication of undamaged DNA when the normal replisome is impaired. Here we define the nature of the replication disturbances that trigger the recruitment of error-prone polymerases in the absence of DNA damage and describe the specific roles of Rev1 and Pol ζ in handling these disturbances. We show that Pol ζ/Rev1-dependent mutations occur at sites of replication stalling at short repeated sequences capable of forming hairpin structures. The Rev1 deoxycytidyl transferase can take over the stalled replicative polymerase and incorporate an additional 'C' at the hairpin base. Full hairpin bypass often involves template-switching DNA synthesis, subsequent realignment generating multiply mismatched primer termini and extension of these termini by Pol ζ. The postreplicative pathway dependent on polyubiquitylation of proliferating cell nuclear antigen provides a backup mechanism for accurate bypass of these sequences that is primarily used when the Pol ζ/Rev1-dependent pathway is inactive. The results emphasize the pivotal role of noncanonical DNA structures in mutagenesis and reveal the long-sought-after mechanism of complex mutations that represent a unique signature of Pol ζ.

Published

2014