Your search keyword '"I. Huber"' showing total 28 results

1. 'You May Guess'

Author

I. Huber

Subjects

General Medicine

Published

2022

2. CCAT-prime: RFSoC based readout for frequency multiplexed kinetic inductance detectors

Author

Adrian K. Sinclair, Ryan C. Stephenson, Cody Roberson, Eric L. Weeks, James Burgoyne, Anthony I. Huber, Philip D. Mauskopf, Scott C. Chapman, Jason E. Austermann, Steve K. Choi, Cody J. Duell, Michel Fich, Christopher E. Groppi, Zachary Huber, Michael D. Niemack, Thomas Nikola, Kayla M. Rossi, Adhitya Sriram, Gordon J. Stacey, Erik Szakiel, Joel Tsuchitori, Eve M. Vavagiakis, and Jordan D. Wheeler

Published

2022

3. Development of a cryogenic far-infrared post-dispersed polarizing Fourier transform spectrometer

Author

David A. Naylor, Brad G. Gom, Alicia M. Anderson, Anthony I. Huber, Adam J. Christiansen, Matthew A. Buchan, Alain Cournoyer, Frédéric J. Grandmont, Ben Louwerse, Peter A. R. Ade, Willem Jellema, Bram N. R. Lap, and Stafford Withington

Published

2022

4. CCAT-prime: the 850GHz camera for prime-cam on FYST

Author

Scott C. Chapman, Anthony I. Huber, Adrian K. Sinclair, Jordan D. Wheeler, Jason E. Austermann, James A. Beall, James Burgoyne, Steve K. Choi, Abigail T. Crites, Cody J. Duell, Jesslyn Devina, Jiansong Gao, Michel Fich, Doug W. Henke, Terry L. Herter, Douglas I. Johnstone, Lewis B. Knee, Mike Niemack, Kayla M. Rossi, Gordon J. Stacey, Joel Tsuchitori, Joel N. Ullom, Jeff Van Lanen, Eve M. Vavagiakis, and Michael R. Vissers

Published

2022

5. Biological, dielectric and nonlinear optical properties of chelated bimetallic 1-D coordination polymer

Author

M.R. Sabitha Mohan, Rani Pavithran, I. Hubert Joe, and P. Aswathy

Subjects

Coordination polymer, Gel diffusion, Biological studies, Dielectric studies, Third order nonlinear optical studies, Optical limiting property, Chemistry, QD1-999

Abstract

Single crystals of bimetallic 1-D coordination polymer, NiZnEDTA were grown by the single gel diffusion method. The agar-well diffusion technique and MTT assay test were done to examine the antimicrobial and anticancer activity of NiZnEDTA. The test outcomes of the MTT assay give a preliminary indication of the anticancer potential of the sample on MDA-MB-231 cells and its nontoxic nature to normal L929 cells. The third-order nonlinear optical characterization of NiZnEDTA was studied by Z-scan technique.

Published

2024

6. Enhanced NLO response and switching self-focussing in benzodiazepine derivative with –NO2 and -Br substitution

Author

Aswathy P, I. Hubert Joe, B. Narayana, B.K. Sarojini, K.R. Harshitha, and J. Clemy Monicka

Subjects

DFT, NCA, NBO, MEP, Tauc's plot, Z-scan, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Optoelectronic and the cubic nonlinear optical properties of 4-(4-Bromophenyl)-2-(4-nitrophenyl)-2, 3-dihydro-1H-1, 5-benzodiazepine have been studied. Z-scan technique was used for the third-order nonlinear optical measurements namely, nonlinear absorption, nonlinear refraction, and optical power limiting behaviour employing an Nd: YAG laser of 532 nm wavelength having 5 ns Gaussian pulses. B3LYP/6–311 ++ G (d, p) level of theory was employed for structural optimization, vibrational wavenumber, frontier molecular orbitals, natural bond orbital and population analysis. The MOLVIB programme was used to perform unambiguous vibrational assignments based on potential energy distribution values acquired from normal coordinate analysis. B3LYP and CAM-B3LYP hybrid functions have been employed at the DFT level to calculate the theoretical second-order hyperpolarizability. The substitution of –NO2 and -Br in this benzodiazepine compound enhances the second-order hyperpolarizability (γ) to the order of 10−34 esu and, switching of self-defocussing to self-focussing phenomenon. The HOMO-LUMO and optical band gap analysis illustrates that polarizing nature of the molecule vary with substituents. The obtained results indicate that this compound has potential applications in optoelectronics and photonics.

Published

2023

7. Experimental and theoretical analyses and investigation of intermolecular interactions and antibacterial activity of a novel proton transfer compound:8-hydroxyquinolinium oxalate monohydrate

Author

Binimol Mary Mathew, S. Suma, M.R. Sudarsanakumar, I. Hubert Joe, L. Anitha, Suganya Suresh, and S. Anusree

Subjects

Solid state grinding, Hirshfeld surface analysis, NBO, MESP, ADMET, Antibacterial study, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

A novel proton transfer compound, 8-hydroxyquinolinium oxalate monohydrate was synthesised by solid state grinding of 8-hydroxyquinoline and oxalic acid. The resulting compound is characterised by single crystal X-ray diffraction (SXRD), FT-IR, UV–Visible, TG/DTG, DTA and DSC analyses. The compound crystallizes in monoclinic crystal system with space group P21/n. The carboxylate oxygen O2 which acts as a tetrafurcated acceptor of four hydrogen bonds is the main feature of the crystal structure. The molecules are linked together by O–H⋯O, N–H⋯O and C–H⋯O hydrogen bonds. Carbonyl-carbonyl interactions play a crucial role in stabilising the crystal packing. Hirshfeld surface analysis and the associated finger print plots facilitates the comparison of intermolecular interactions. The nature of charge density distribution and topological parameters of the proton transfer region N1–H1A⋯O2 hydrogen bond reveals that the bond has considerable covalent character. Natural Bond Orbital (NBO) has been extended to analyse the nature and strength of intermolecular interactions. Topology analysis using ELF and LOL reveals electron localisation and depletion regions. ADMET analysis reveals that the compound satisfies Lipinski’s rule of five and drug likeness. Antibacterial activity was screened against 3 g positive - Bacillus subtilis, Enterococcus faecalis, Staphylococcus aureus and 2 g negative strains- Klebsiella pneumonia and Salmonella typhi by employing disc diffusion method.

Published

2023

8. Chemical reactivity, molecular electrostatic potential and in-silico analysis on benzimidazole fungicide benomyl

Author

G.P. Sheeja Mol, D. Aruldhas, and I. Hubert Joe

Subjects

Benomyl, Total density of states, Global reactivity descriptors, In-silico, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

We are reporting theoretical concepts and biological activity of benomyl using different techniques. The molecular orbital contributions are studied by using Total Density of States (TDOS) analysis. The chemical reactivity of the molecule have been determined with the help of global reactivity descriptors. Molecular electrostatic potential is calculated by the density functional method and predicts the most reactive part in the molecule. In-silico molecular analysis is conducted for Benomyl compound.

Published

2022

9. Homozygous variants in WDR83OS lead to a neurodevelopmental disorder with hypercholanemia.

Author

Barish S, Lin SJ, Maroofian R, Gezdirici A, Alhebby H, Trimouille A, Biderman Waberski M, Mitani T, Huber I, Tveten K, Holla ØL, Busk ØL, Houlden H, Ghayoor Karimiani E, Beiraghi Toosi M, Shervin Badv R, Najarzadeh Torbati P, Eghbal F, Akhondian J, Al Safar A, Alswaid A, Zifarelli G, Bauer P, Marafi D, Fatih JM, Huang K, Petree C, Calame DG, von der Lippe C, Alkuraya FS, Wali S, Lupski JR, Varshney GK, Posey JE, and Pehlivan D

Subjects

Humans, Male, Female, Animals, Child, Child, Preschool, Pedigree, Adolescent, Phenotype, Infant, Mutation, Bile Acids and Salts metabolism, Exome Sequencing, Adult, Neurodevelopmental Disorders genetics, Zebrafish genetics, Homozygote

Abstract

WD repeat domain 83 opposite strand (WDR83OS) encodes the 106-aa (amino acid) protein Asterix, which heterodimerizes with CCDC47 to form the PAT (protein associated with ER translocon) complex. This complex functions as a chaperone for large proteins containing transmembrane domains to ensure proper folding. Until recently, little was known about the role of WDR83OS or CCDC47 in human disease traits. However, biallelic variants in CCDC47 were identified in four unrelated families with trichohepatoneurodevelopmental syndrome, characterized by a neurodevelopmental disorder (NDD) with liver dysfunction. Three affected siblings in an additional family share a homozygous truncating WDR83OS variant and a phenotype of NDD, dysmorphic features, and liver dysfunction. Using family-based rare variant analyses of exome sequencing (ES) data and case matching through GeneMatcher, we describe the clinical phenotypes of 11 additional individuals in eight unrelated families (nine unrelated families, 14 individuals in total) with biallelic putative truncating variants in WDR83OS. Consistent clinical features include NDD (14/14), facial dysmorphism (13/14), intractable itching (9/14), and elevated bile acids (5/6). Whereas bile acids were significantly elevated in 5/6 of individuals tested, bilirubin was normal and liver enzymes were normal to mildly elevated in all 14 individuals. In three of six individuals for whom longitudinal data were available, we observed a progressive reduction in relative head circumference. A zebrafish model lacking Wdr83os function further supports its role in the nervous system, craniofacial development, and lipid absorption. Taken together, our data support a disease-gene association between biallelic loss-of-function of WDR83OS and a neurological disease trait with hypercholanemia., Competing Interests: Declaration of interests The Department of Molecular & Human Genetics at Baylor College of Medicine receives revenue from clinical genetic testing conducted at Baylor Genetics Laboratories. J.R.L. serves on the Scientific Advisory Board of Baylor Genetics. J.R.L. has stock ownership in 23andMe, is a paid consultant for Genome International, and is a co-inventor on multiple United States and European patents related to molecular diagnostics for inherited neuropathies, eye diseases, genomic disorders, and bacterial genomic fingerprinting., (Copyright © 2024 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2024

10. Hemorrhagic complications after stroke treatment with intravenous thrombolysis despite use of direct oral anticoagulants: an observational study.

Author

Kleeberg A, Ringleb PA, Huber I, Jesser J, Möhlenbruch M, and Purrucker JC

Abstract

Background: For patients experiencing ischemic stroke despite receiving therapy with direct oral anticoagulants (DOAC) and without endovascular treatment options, therapeutic prospects are currently dismal. Current guidelines recommend intravenous thrombolysis (IVT) only for patients who have received DOAC in very restricted settings, as an increased risk of bleeding is suspected. However, recent retrospective observational studies suggest that IVT is safe despite DOAC pretreatment., Objectives: To provide further evidence that IVT despite previous DOAC treatment is not associated with an increased risk of bleeding., Design: Observational retrospective study., Methods: Demographic, clinical, and radiological data of patients who received IVT (+/- endovascular thrombectomy) despite DOAC pretreatment between June 2021 and January 2024 were analyzed using descriptive statistics, including DOAC plasma concentration at admission. Secondary intracranial hemorrhages and functional outcomes at 3 months were assessed. Since 2023, patients have been treated according to a modified local standard operating procedure at our hospital, allowing for IVT despite DOAC pretreatment regardless of DOAC plasma levels or the use of reversal agents., Results: Of 1821 patients treated with acute recanalization procedures during the study period, N  = 35 had received IVT with (18) or without (17) additional endovascular therapy. Among these patients with a wide age range (42-97 years) and DOAC plasma concentrations up to 369 ng/ml, only one developed symptomatic intracranial hemorrhage. A favorable outcome (modified Rankin scale score 0-2) after 3 months was observed in 57% (20) of the patients., Conclusion: IVT despite direct oral anticoagulation seems to be safe, even at advanced age and high DOAC plasma levels., (© The Author(s), 2024.)

Published

2024

11. Observational evidence for groundwater influence on crop yields in the United States.

Author

Deines JM, Archontoulis SV, Huber I, and Lobell DB

Abstract

As climate change shifts crop exposure to dry and wet extremes, a better understanding of factors governing crop response is needed. Recent studies identified shallow groundwater-groundwater within or near the crop rooting zone-as influential, yet existing evidence is largely based on theoretical crop model simulations, indirect or static groundwater data, or small-scale field studies. Here, we use observational satellite yield data and dynamic water table simulations from 1999 to 2018 to provide field-scale evidence for shallow groundwater effects on maize yields across the United States Corn Belt. We identify three lines of evidence supporting groundwater influence: 1) crop model simulations better match observed yields after improvements in groundwater representation; 2) machine learning analysis of observed yields and modeled groundwater levels reveals a subsidy zone between 1.1 and 2.5 m depths, with yield penalties at shallower depths and no effect at deeper depths; and 3) locations with groundwater typically in the subsidy zone display higher yield stability across time. We estimate an average 3.4% yield increase when groundwater levels are at optimum depth, and this effect roughly doubles in dry conditions. Groundwater yield subsidies occur ~35% of years on average across locations, with 75% of the region benefitting in at least 10% of years. Overall, we estimate that groundwater-yield interactions had a net monetary contribution of approximately $10 billion from 1999 to 2018. This study provides empirical evidence for region-wide groundwater yield impacts and further underlines the need for better quantification of groundwater levels and their dynamic responses to short- and long-term weather conditions., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

12. Utilizing Human-Induced Pluripotent Stem Cells to Study Cardiac Electroporation Pulsed-Field Ablation.

Author

Maizels L, Heller E, Landesberg M, Glatstein S, Huber I, Arbel G, Gepstein A, Aronson D, Sharabi S, Beinart R, Segev A, Maor E, and Gepstein L

Subjects

Humans, Arrhythmias, Cardiac genetics, Arrhythmias, Cardiac surgery, Anti-Arrhythmia Agents therapeutic use, Myocytes, Cardiac metabolism, Electroporation, Induced Pluripotent Stem Cells metabolism, Catheter Ablation methods

Abstract

Background: Electroporation is a promising nonthermal ablation method for cardiac arrhythmia treatment. Although initial clinical studies found electroporation pulsed-field ablation (PFA) both safe and efficacious, there are significant knowledge gaps concerning the mechanistic nature and electrophysiological consequences of cardiomyocyte electroporation, contributed by the paucity of suitable human in vitro models. Here, we aimed to establish and characterize a functional in vitro model based on human-induced pluripotent stem cells (hiPSCs)-derived cardiac tissue, and to study the fundamentals of cardiac PFA., Methods: hiPSC-derived cardiomyocytes were seeded as circular cell sheets and subjected to different PFA protocols. Detailed optical mapping, cellular, and molecular characterizations were performed to study PFA mechanisms and electrophysiological outcomes., Results: PFA generated electrically silenced lesions within the hiPSC-derived cardiac circular cell sheets, resulting in areas of conduction block. Both reversible and irreversible electroporation components were identified. Significant electroporation reversibility was documented within 5 to 15-minutes post-PFA. Irreversibly electroporated regions persisted at 24-hours post-PFA. Per single pulse, high-frequency PFA was less efficacious than standard (monophasic) PFA, whereas increasing pulse-number augmented lesion size and diminished reversible electroporation. PFA augmentation could also be achieved by increasing extracellular Ca 2+ levels. Flow-cytometry experiments revealed that regulated cell death played an important role following PFA. Assessing for PFA antiarrhythmic properties, sustainable lines of conduction block could be generated using PFA, which could either terminate or isolate arrhythmic activity in the hiPSC-derived cardiac circular cell sheets., Conclusions: Cardiac electroporation may be studied using hiPSC-derived cardiac tissue, providing novel insights into PFA temporal and electrophysiological characteristics, facilitating electroporation protocol optimization, screening for potential PFA-sensitizers, and investigating the mechanistic nature of PFA antiarrhythmic properties., Competing Interests: Disclosures None.

Published

2024

13. Identification of knowledge gaps in whole-genome sequence analysis of multi-resistant thermotolerant Campylobacter spp.

Author

Zarske M, Luu HQ, Deneke C, Knüver MT, Thieck M, Hoang HTT, Bretschneider N, Pham NT, Huber I, and Stingl K

Subjects

Humans, Drug Resistance, Bacterial genetics, Anti-Bacterial Agents pharmacology, Gentamicins, Whole Genome Sequencing, Microbial Sensitivity Tests, Campylobacter Infections microbiology, Campylobacter genetics

Abstract

Background: Campylobacter spp. is the most frequent cause of bacterial food-borne gastroenteritis and a high priority antibiotic resistant bacterium according to the World Health Organization (WHO). European monitoring of thermotolerant Campylobacter spp. does not reflect the global burden of resistances already circulating within the bacterial population worldwide., Methods: We systematically compared whole genome sequencing with comprehensive phenotypic antimicrobial susceptibility, analyzing 494 thermotolerant Campylobacter poultry isolates from Vietnam and Germany. Any discrepancy was checked by repeating the wet lab and improving the dry lab part. Selected isolates were additionally analyzed via long-read Oxford Nanopore technology, leading to closed chromosomes and plasmids., Results: Overall, 22 different resistance genes and gene variants (e. g. erm(B), aph(3')-IIIa, aph(2'')-If, catA, lnu(C), bla OXA , sat4) and point mutations in three distinct genes (gyrA, 23S rRNA, rpsL) associated with AMR were present in the Campylobacter isolates. Two AMR genes were missing in the database and one falsely associated with resistance. Bioinformatic analysis based on short-read data partly failed to identify tet(O) and aadE, when the genes were present as duplicate or homologous gene variants. Intriguingly, isolates also contained different determinants, redundantly conferring resistance to chloramphenicol, gentamicin, kanamycin, lincomycin and streptomycin. We found a novel tet(W) in tetracycline sensitive strains, harboring point mutations. Furthermore, analysis based on assemblies from short-read data was impaired to identify full length phase variable aad9, due to variations of the poly-C tract within the gene. The genetic determinant responsible for gentamicin resistance of one isolate from Germany could not be identified. GyrT86I, presenting the main determinant for (fluoro-)quinolone resistance led to a rare atypical phenotype of ciprofloxacin resistance but nalidixic acid sensitivity. Long-read sequencing predicted AMR genes were mainly located on the chromosome, and rarely on plasmids. Predictions from long- and short-read sequencing, respectively, often differed. AMR genes were often organized in multidrug resistance islands (MDRI) and partially located in proximity to transposase genes, suggesting main mobilization of resistance determinants is via natural transformation and transposition in Campylobacter., Conclusions: The results of this study suggest that there is frequent resistance gene duplication, mosaicism, and mutation leading to gene variation and truncation in Campylobacter strains that have not been reported in previous studies and are missing from databases. Furthermore, there is a need for deciphering yet unknown resistance mechanisms and resistance spread in thermotolerant Campylobacter spp. that may pose a challenge to global food safety., (© 2024. The Author(s).)

Published

2024

14. Multiplex Real-Time PCR for the Detection of Tetracycline, Ciprofloxacin, and Erythromycin Resistance Determinants from Human and Foodborne Campylobacter jejuni and Campylobacter coli .

Author

Zeller-Péronnet V, Bretschneider N, Lausch J, Hanifi N, Pavlovic M, Zarske M, Luu HQ, Busch U, Stingl K, and Huber I

Abstract

Campylobacter jejuni and Campylobacter coli are the predominant thermophilic species responsible for foodborne gastroenteritis worldwide. Elevated resistance to certain antibiotics was observed due to antimicrobial therapy in farm animals and humans, while reduced antimicrobial usage partially reduced antibiotic resistance. Monitoring the antimicrobial resistance demonstrated a substantial fraction of multi-resistant isolates, indicating the necessity of reliable tools for their detection. In this study, resistance determinants in 129 German and 21 Vietnamese isolates were selected to establish a novel multiplex real-time PCR (qPCR), facilitating the simultaneous detection of four resistance determinants. These comprised tet (O) gene variants associated with tetracycline resistance, point mutations GyrA_T86I and GyrA_T86V associated with ciprofloxacin resistance, and the erm (B) gene together with the point mutation A2075G in the 23S rRNA gene, associated with erythromycin resistance. Moreover, the performance of the qPCR assay was evaluated by comparing the results of qPCR to phenotypic antimicrobial resistance profiles, obtained with standardized EUCAMP3 microdilution panel, which showed 100% similarity (inclusivity and exclusivity). Variation in measurement methods, including qPCR machines and master mixes showed robustness, essential for laboratories. The assay can be used for the rapid detection of resistance determinants, and is beneficial for monitoring the spread of antibiotic resistance in C. jejuni and C. coli.

Published

2023

15. Utilizing human induced pluripotent stem cells to study atrial arrhythmias in the short QT syndrome.

Author

Shiti A, Arbil G, Shaheen N, Huber I, Setter N, and Gepstein L

Subjects

Arrhythmias, Cardiac, Humans, Myocytes, Cardiac metabolism, Action Potentials genetics, Potassium metabolism, Induced Pluripotent Stem Cells, Atrial Fibrillation genetics, Atrial Fibrillation metabolism

Abstract

Background: Among the monogenic inherited causes of atrial fibrillation is the short QT syndrome (SQTS), a rare channelopathy causing atrial and ventricular arrhythmias. One of the limitations in studying the mechanisms and optimizing treatment of SQTS-related atrial arrhythmias has been the lack of relevant human atrial tissues models., Objective: To generate a unique model to study SQTS-related atrial arrhythmias by combining the use of patient-specific human induced pluripotent stem cells (hiPSCs), atrial-specific differentiation schemes, two-dimensional tissue modeling, optical mapping, and drug testing., Methods and Results: SQTS (N588K KCNH2 mutation), isogenic-control, and healthy-control hiPSCs were coaxed to differentiate into atrial cardiomyocytes using a retinoic-acid based differentiation protocol. The atrial identity of the cells was confirmed by a distinctive pattern of MLC2v downregulation, connexin 40 upregulation, shorter and triangular-shaped action potentials (APs), and expression of the atrial-specific acetylcholine-sensitive potassium current. In comparison to the healthy- and isogenic control cells, the SQTS-hiPSC atrial cardiomyocytes displayed abbreviated APs and refractory periods along with an augmented rapidly activating delayed-rectifier potassium current (I Kr ). Optical mapping of a hiPSC-based atrial tissue model of the SQTS displayed shortened APD and altered biophysical properties of spiral waves induced in this model, manifested by accelerated spiral-wave frequency and increased rotor curvature. Both AP shortening and arrhythmia irregularities were reversed by quinidine and vernakalant treatment, but not by sotalol., Conclusions: Patient-specific hiPSC-based atrial cellular and tissue models of the SQTS were established, which provide examples on how this type of modeling can shed light on the pathogenesis and pharmacological treatment of inherited atrial arrhythmias., (Copyright © 2023. Published by Elsevier Ltd.)

Published

2023

16. Genetic Characterization of Listeria from Food of Non-Animal Origin Products and from Producing and Processing Companies in Bavaria, Germany.

Author

Wartha S, Bretschneider N, Dangel A, Hobmaier B, Hörmansdorfer S, Huber I, Murr L, Pavlovic M, Sprenger A, Wenning M, Alter T, and Messelhäußer U

Abstract

Reported cases of listeriosis from food of non-animal origin (FNAO) are increasing. In order to assess the risk of exposure to Listeria monocytogenes from FNAO, the genetic characterization of the pathogen in FNAO products and in primary production and processing plants needs to be investigated. For this, 123 samples of fresh and frozen soft fruit and 407 samples of 39 plants in Bavaria, Germany that produce and process FNAO were investigated for Listeria contamination. As a result, 64 Listeria spp. isolates were detected using ISO 11290-1:2017. Environmental swabs and water and food samples were investigated. L. seeligeri (36/64, 56.25%) was the most frequently identified species, followed by L. monocytogenes (8/64, 12.50%), L. innocua (8/64, 12.50%), L. ivanovii (6/64, 9.38%), L. newyorkensis (5/64, 7.81%), and L. grayi (1/64, 1.56%). Those isolates were subsequently sequenced by whole-genome sequencing and subjected to pangenome analysis to retrieve data on the genotype, serotype, antimicrobial resistance (AMR), and virulence markers. Eight out of sixty-four Listeria spp. isolates were identified as L. monocytogenes . The serogroup analysis detected that 62.5% of the L. monocytogenes isolates belonged to serogroup IIa (1/2a and 3a) and 37.5% to serogroup IVb (4b, 4d, and 4e). Furthermore, the MLST (multilocus sequence typing) analysis of the eight detected L. monocytogenes isolates identified seven different sequence types (STs) and clonal complexes (CCs), i.e., ST1/CC1, ST2/CC2, ST6/CC6, ST7/CC7, ST21/CC21, ST504/CC475, and ST1413/CC739. The core genome MLST analysis also showed high allelic differences and suggests plant-specific isolates. Regarding the AMR, we detected phenotypic resistance against benzylpenicillin, fosfomycin, and moxifloxacin in all eight L. monocytogenes isolates. Moreover, virulence factors, such as prfA , hly , plcA , plcB , hpt , actA , inlA , inlB, and mpl , were identified in pathogenic and nonpathogenic Listeria species. The significance of L. monocytogenes in FNAO is growing and should receive increasing levels of attention.

Published

2023

17. Chemogenetics for Gene Therapy Based Targeted Cardiac Electrophysiological Modulation.

Author

Wexler Y, Ghiringhelli M, Shaheen N, Glatstein S, Huber I, Edri O, Abboud Y, Landesberg M, Shiff D, Arbel G, and Gepstein L

Subjects

Genetic Therapy, Cell Differentiation, Myocytes, Cardiac physiology, Induced Pluripotent Stem Cells physiology

Published

2023

18. Therapeutic Targeting of LIF Overcomes Macrophage-mediated Immunosuppression of the Local Tumor Microenvironment.

Author

Hallett RM, Bonfill-Teixidor E, Iurlaro R, Arias A, Raman S, Bayliss P, Egorova O, Neva-Alejo A, McGray AR, Lau E, Bosch A, Beilschmidt M, Maetzel D, Fransson J, Huber-Ruano I, Anido J, Julien JP, Giblin P, and Seoane J

Subjects

Animals, Humans, Mice, Immunosuppression Therapy, Leukemia Inhibitory Factor genetics, Leukemia Inhibitory Factor metabolism, Macrophages metabolism, Neoplasms drug therapy, Neoplasms genetics, Neoplasms metabolism, Tumor Microenvironment genetics

Abstract

Purpose: Leukemia inhibitory factor (LIF) is a multifunctional cytokine with numerous reported roles in cancer and is thought to drive tumor development and progression. Characterization of LIF and clinical-stage LIF inhibitors would increase our understanding of LIF as a therapeutic target., Experimental Design: We first tested the association of LIF expression with transcript signatures representing multiple processes regulating tumor development and progression. Next, we developed MSC-1, a high-affinity therapeutic antibody that potently inhibits LIF signaling and tested it in immune competent animal models of cancer., Results: LIF was associated with signatures of tumor-associated macrophages (TAM) across 7,769 tumor samples spanning 22 solid tumor indications. In human tumors, LIF receptor was highly expressed within the macrophage compartment and LIF treatment drove macrophages to acquire immunosuppressive capacity. MSC-1 potently inhibited LIF signaling by binding an epitope that overlaps with the gp130 receptor binding site on LIF. MSC-1 showed monotherapy efficacy in vivo and drove TAMs to acquire antitumor and proinflammatory function in syngeneic colon cancer mouse models. Combining MSC-1 with anti-PD1 leads to strong antitumor response and a long-term tumor-free survival in a significant proportion of treated mice., Conclusions: Overall, our findings highlight LIF as a therapeutic target for cancer immunotherapy., (©2022 American Association for Cancer Research.)

Published

2023

19. [Assessment of available and currently applied typing methods including genome-based methods for zoonotic pathogens with a focus on Salmonella enterica].

Author

Pietsch M, Simon S, Richter A, Malorny B, Uelze L, Hepner S, Dangel A, Sing A, Huber I, Busch U, Linde J, Methner U, Becker N, Werner G, Mellmann A, Fruth A, and Flieger A

Subjects

Humans, Germany, Whole Genome Sequencing methods, Molecular Epidemiology, Escherichia coli Infections epidemiology, Escherichia coli Infections microbiology, Salmonella enterica genetics

Abstract

Background: In recent years, whole genome sequencing (WGS) in combination with bioinformatic analyses has become state of the art in evaluating the pathogenicity/resistance potential and relatedness of bacteria. WGS analysis thus represents a central tool in the investigation of the resistance and virulence potential of pathogens, as well as their dissemination via outbreak clusters and transmission chains within the framework of molecular epidemiology. In order to gain an overview of the available genotypic and phenotypic methods used for pathogen typing of Salmonella and Shiga toxin-producing and enterohemorrhagic Escherichia coli (STEC/EHEC) in Germany at state and federal level, along with the availability of WGS-based typing and corresponding analytical methods, a survey of laboratories was conducted., Methods: An electronic survey of laboratories working for public health protection and consumer health protection was conducted from February to June 2020., Results and Conclusion: The results of the survey showed that many of the participating laboratories provide a wide range of phenotypic and molecular methods. Molecular typing is most commonly used for species identification of Salmonella. In many cases, WGS-based methods have already been established at federal and state institutions or are in the process of being established. The Illumina sequencing technology is the most widely used technology. The survey confirms the importance of molecular biology and whole genome typing technologies for laboratories in the diagnosis of bacterial zoonotic pathogens., (© 2022. The Author(s).)

Published

2023

20. County-scale crop yield prediction by integrating crop simulation with machine learning models.

Author

Sajid SS, Shahhosseini M, Huber I, Hu G, and Archontoulis SV

Abstract

Crop yield prediction is of great importance for decision making, yet it remains an ongoing scientific challenge. Interactions among different genetic, environmental, and management factors and uncertainty in input values are making crop yield prediction complex. Building upon a previous work in which we coupled crop modeling with machine learning (ML) models to predict maize yields for three US Corn Belt states, here, we expand the concept to the entire US Corn Belt (12 states). More specifically, we built five new ML models and their ensemble models, considering the scenarios with and without crop modeling variables. Additional input values in our models are soil, weather, management, and historical yield data. A unique aspect of our work is the spatial analysis to investigate causes for low or high model prediction errors. Our results indicated that the prediction accuracy increases by coupling crop modeling with machine learning. The ensemble model overperformed the individual ML models, having a relative root mean square error (RRMSE) of about 9% for the test years (2018, 2019, and 2020), which is comparable to previous studies. In addition, analysis of the sources of error revealed that counties and crop reporting districts with low cropland ratios have high RRMSE. Furthermore, we found that soil input data and extreme weather events were responsible for high errors in some regions. The proposed models can be deployed for large-scale prediction at the county level and, contingent upon data availability, can be utilized for field level prediction., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Sajid, Shahhosseini, Huber, Hu and Archontoulis.)

Published

2022

21. Whole-Genome Sequence Comparisons of Listeria monocytogenes Isolated from Meat and Fish Reveal High Inter- and Intra-Sample Diversity.

Author

Murr L, Huber I, Pavlovic M, Guertler P, Messelhaeusser U, Weiss M, Ehrmann M, Tuschak C, Bauer H, Wenning M, Busch U, and Bretschneider N

Abstract

Interpretation of whole-genome sequencing (WGS) data for foodborne outbreak investigations is complex, as the genetic diversity within processing plants and transmission events need to be considered. In this study, we analyzed 92 food-associated Listeria monocytogenes isolates by WGS-based methods. We aimed to examine the genetic diversity within meat and fish production chains and to assess the applicability of suggested thresholds for clustering of potentially related isolates. Therefore, meat-associated isolates originating from the same samples or processing plants as well as fish-associated isolates were analyzed as distinct sets. In silico serogrouping, multilocus sequence typing (MLST), core genome MLST (cgMLST), and pangenome analysis were combined with screenings for prophages and genetic traits. Isolates of the same subtypes (cgMLST types (CTs) or MLST sequence types (STs)) were additionally compared by SNP calling. This revealed the occurrence of more than one CT within all three investigated plants and within two samples. Analysis of the fish set resulted in predominant assignment of isolates from pangasius catfish and salmon to ST2 and ST121, respectively, potentially indicating persistence within the respective production chains. The approach not only allowed the detection of distinct subtypes but also the determination of differences between closely related isolates, which need to be considered when interpreting WGS data for surveillance.

Published

2022

22. Orally administered Odoribacter laneus improves glucose control and inflammatory profile in obese mice by depleting circulating succinate.

Author

Huber-Ruano I, Calvo E, Mayneris-Perxachs J, Rodríguez-Peña MM, Ceperuelo-Mallafré V, Cedó L, Núñez-Roa C, Miro-Blanch J, Arnoriaga-Rodríguez M, Balvay A, Maudet C, García-Roves P, Yanes O, Rabot S, Grimaud GM, De Prisco A, Amoruso A, Fernández-Real JM, Vendrell J, and Fernández-Veledo S

Subjects

Animals, Bacteroidetes, Diet, High-Fat, Humans, Inflammation, Mice, Mice, Inbred C57BL, Mice, Obese, Obesity etiology, Succinic Acid, Blood Glucose, Diabetes Mellitus, Type 2 microbiology

Abstract

Background: Succinate is produced by both human cells and by gut bacteria and couples metabolism to inflammation as an extracellular signaling transducer. Circulating succinate is elevated in patients with obesity and type 2 diabetes and is linked to numerous complications, yet no studies have specifically addressed the contribution of gut microbiota to systemic succinate or explored the consequences of reducing intestinal succinate levels in this setting., Results: Using germ-free and microbiota-depleted mouse models, we show that the gut microbiota is a significant source of circulating succinate, which is elevated in obesity. We also show in vivo that therapeutic treatments with selected bacteria diminish the levels of circulating succinate in obese mice. Specifically, we demonstrate that Odoribacter laneus is a promising probiotic based on its ability to deplete succinate and improve glucose tolerance and the inflammatory profile in two independent models of obesity (db/db mice and diet-induced obese mice). Mechanistically, this is partly mediated by the succinate receptor 1. Supporting these preclinical findings, we demonstrate an inverse correlation between plasma and fecal levels of succinate in a cohort of patients with severe obesity. We also show that plasma succinate, which is associated with several components of metabolic syndrome including waist circumference, triglycerides, and uric acid, among others, is a primary determinant of insulin sensitivity evaluated by the euglycemic-hyperinsulinemic clamp., Conclusions: Overall, our work uncovers O. laneus as a promising next-generation probiotic to deplete succinate and improve glucose tolerance and obesity-related inflammation. Video Abstract., (© 2022. The Author(s).)

Published

2022

23. Glycogen accumulation in adipocyte precursors from elderly and obese subjects triggers inflammation via SIRT1/6 signaling.

Author

Terrón-Puig M, Huber-Ruano I, Sabadell-Basallote J, Ejarque M, Núñez-Roa C, Maymó-Masip E, Jorba R, Serena C, Vendrell J, and Fernández-Veledo S

Subjects

Adipocytes metabolism, Adipose Tissue metabolism, Adult, Aged, Glycogen metabolism, Humans, Inflammation metabolism, Obesity metabolism, Sirtuin 1 genetics, Sirtuin 1 metabolism, Sirtuins genetics, Sirtuins metabolism

Abstract

Dysfunctional adipocyte precursors have emerged as key determinants for obesity- and aging-related inflammation, but the mechanistic basis remains poorly understood. Here, we explored the dysfunctional adipose tissue of elderly and obese individuals focusing on the metabolic and inflammatory state of human adipose-derived mesenchymal stromal cells (hASCs), and on sirtuins, which link metabolism and inflammation. Both obesity and aging impaired the differentiation potential of hASCs but had a different impact on their proliferative capacity. hASCs from elderly individuals (≥65 years) showed an upregulation of glycolysis-related genes, which was accompanied by increased lactate secretion and glycogen storage, a phenotype that was exaggerated by obesity. Multiplex protein profiling revealed that the metabolic switch to glycogenesis was associated with a pro-inflammatory secretome concomitant with a decrease in the protein expression of SIRT1 and SIRT6. siRNA-mediated knockdown of SIRT1 and SIRT6 in hASCs from lean adults increased the expression of pro-inflammatory and glycolysis-related markers, and enforced glycogen deposition by overexpression of protein targeting to glycogen (PTG) led to a downregulation of SIRT1/6 protein levels, mimicking the inflammatory state of hASCs from elderly subjects. Overall, our data point to a glycogen-SIRT1/6 signaling axis as a driver of age-related inflammation in adipocyte precursors., (© 2022 The Authors. Aging Cell published by Anatomical Society and John Wiley & Sons Ltd.)

Published

2022

24. Novel cyclic C 5 -curcuminoids penetrating the blood-brain barrier: Design, synthesis and antiproliferative activity against astrocytoma and neuroblastoma cells.

Author

Huber I, Pandur E, Sipos K, Barna L, Harazin A, Deli MA, Tyukodi L, Gulyás-Fekete G, Kulcsár G, and Rozmer Z

Subjects

Albumins metabolism, Animals, Blood-Brain Barrier metabolism, Diarylheptanoids metabolism, Diarylheptanoids pharmacology, Endothelial Cells metabolism, Rats, Structure-Activity Relationship, Antineoplastic Agents chemistry, Astrocytoma drug therapy, Astrocytoma metabolism, Neuroblastoma metabolism

Abstract

Novel series of cyclic C 5 -curcuminoids 17a-j and 19-22 were prepared as cytotoxic agents and evaluated against human neuroblastoma (SH-SY5Y) or human grade IV astrocytoma (CCF-STTG1) cell lines in low (∼0.1 nM - 10 nM) concentrations. Among the tested 21 derivatives, 16 displayed potent antiproliferative activity with IC 50 values in the low nanomolar to picomolar range (IC 50  = 7.483-0.139 nM). Highly active compounds like N-monocarboxylic derivative 19b with IC 50  = 0.139 nM value against neuroblastoma and N-alkyl substituted 11 with IC 50  = 0.257 nM against astrocytoma proved some degree of selectivity toward non-cancerous astrocytes and kidney cells. This potent anticancer activity did not show a strong correlation with experimental logP TLC values, but the most potent antiproliferative molecules 11-13 and 19-22 are belonging to discrete subgroups of the cyclic C 5 -curcuminoids. Compounds 12, 17c and 19b were subjected to blood-brain barrier (BBB) penetration studies, too. The BBB was revealed to be permeable for all of them but, as the apparent permeability coefficient (P app ) values mirrored, in different ratios. Lower toxicity of 12, 17c and 19b was observed toward primary rat brain endothelial cells of the BBB model, which means they remained undamaged under 10 µM concentrations. Penetration depends, at least in part, on albumin binding of 12, 17c and 19b and the presence of monocarboxylic acid transporters in the case of 19b. Permeation through the BBB and albumin binding, we described here, is the first example of cyclic C 5 -curcuminoids as to our knowledge., (Copyright © 2022. Published by Elsevier B.V.)

Published

2022

25. shRNAs Targeting a Common KCNQ1 Variant Could Alleviate Long-QT1 Disease Severity by Inhibiting a Mutant Allele.

Author

Cócera-Ortega L, Wilders R, Kamps SC, Fabrizi B, Huber I, van der Made I, van den Bout A, de Vries DK, Gepstein L, Verkerk AO, Pinto YM, and Tijsen AJ

Subjects

Adult, Alleles, Humans, RNA, Small Interfering, Severity of Illness Index, KCNQ1 Potassium Channel genetics, KCNQ1 Potassium Channel metabolism, Romano-Ward Syndrome genetics

Abstract

Long-QT syndrome type 1 (LQT1) is caused by mutations in KCNQ1 . Patients heterozygous for such a mutation co-assemble both mutant and wild-type KCNQ1 -encoded subunits into tetrameric Kv7.1 potassium channels. Here, we investigated whether allele-specific inhibition of mutant KCNQ1 by targeting a common variant can shift the balance towards increased incorporation of the wild-type allele to alleviate the disease in human-induced pluripotent stem-cell-derived cardiomyocytes (hiPSC-CMs). We identified the single nucleotide polymorphisms (SNP) rs1057128 (G/A) in KCNQ1 , with a heterozygosity of 27% in the European population. Next, we determined allele-specificity of short-hairpin RNAs (shRNAs) targeting either allele of this SNP in hiPSC-CMs that carry an LQT1 mutation. Our shRNAs downregulated 60% of the A allele and 40% of the G allele without affecting the non-targeted allele. Suppression of the mutant KCNQ1 allele by 60% decreased the occurrence of arrhythmic events in hiPSC-CMs measured by a voltage-sensitive reporter, while suppression of the wild-type allele increased the occurrence of arrhythmic events. Furthermore, computer simulations based on another LQT1 mutation revealed that 60% suppression of the mutant KCNQ1 allele shortens the prolonged action potential in an adult cardiomyocyte model. We conclude that allele-specific inhibition of a mutant KCNQ1 allele by targeting a common variant may alleviate the disease. This novel approach avoids the need to design shRNAs to target every single mutation and opens up the exciting possibility of treating multiple LQT1-causing mutations with only two shRNAs.

Published

2022

26. Characterization of the mechanism by which a nonsense variant in RYR2 leads to disordered calcium handling.

Author

Hopton C, Tijsen AJ, Maizels L, Arbel G, Gepstein A, Bates N, Brown B, Huber I, Kimber SJ, Newman WG, Venetucci L, and Gepstein L

Subjects

Calcium metabolism, Calcium Signaling, Carvedilol, Humans, Mutation, Myocytes, Cardiac metabolism, Nebivolol metabolism, Induced Pluripotent Stem Cells metabolism, Ryanodine Receptor Calcium Release Channel genetics, Ryanodine Receptor Calcium Release Channel metabolism

Abstract

Heterozygous missense variants of the cardiac ryanodine receptor gene (RYR2) cause catecholaminergic polymorphic ventricular tachycardia (CPVT). These missense variants of RYR2 result in a gain of function of the ryanodine receptors, characterized by increased sensitivity to activation by calcium that results in an increased propensity to develop calcium waves and delayed afterdepolarizations. We have recently detected a nonsense variant in RYR2 in a young patient who suffered an unexplained cardiac arrest. To understand the mechanism by which this variant in RYR2, p.(Arg4790Ter), leads to ventricular arrhythmias, human induced pluripotent stem cells (hiPSCs) harboring the novel nonsense variant in RYR2 were generated and differentiated into cardiomyocytes (RYR2-hiPSC-CMs) and molecular and calcium handling properties were studied. RYR2-hiPSC-CMs displayed significant calcium handling abnormalities at baseline and following treatment with isoproterenol. Treatment with carvedilol and nebivolol resulted in a significant reduction in calcium handling abnormalities in the RYR2-hiPSC-CMs. Expression of the mutant RYR2 allele was confirmed at the mRNA level and partial silencing of the mutant allele resulted in a reduction in calcium handling abnormalities at baseline. The nonsense variant behaves similarly to other gain of function variants in RYR2. Carvedilol and nebivolol may be suitable treatments for patients with gain of function RYR2 variants., (© 2022 The Authors. Physiological Reports published by Wiley Periodicals LLC on behalf of The Physiological Society and the American Physiological Society.)

Published

2022

27. Crop traits enabling yield gains under more frequent extreme climatic events.

Author

Yan H, Harrison MT, Liu K, Wang B, Feng P, Fahad S, Meinke H, Yang R, Liu L, Archontoulis S, Huber I, Tian X, Man J, Zhang Y, and Zhou M

Subjects

Climate Change, Edible Grain, Prospective Studies, Triticum, Crops, Agricultural, Plant Breeding

Abstract

Climate change (CC) in central China will change seasonal patterns of agricultural production through increasingly frequent extreme climatic events (ECEs). Breeding climate-resilient wheat (Triticum aestivum L.) genotypes may mitigate adverse effects of ECEs on crop productivity. To reveal crop traits conducive to long-term yield improvement in the target population of environments, we created 8,192 virtual genotypes with contrasting but realistic ranges of phenology, productivity and waterlogging tolerance. Using these virtual genotypes, we conducted a genotype (G) by environment (E) by management (M) factorial analysis (G×E×M) using locations distributed across the entire cereal cropping zone in mid-China. The G×E×M invoked locally-specific sowing dates under future climates that were premised on shared socioeconomic pathways SSP5-8.5, with a time horizon centred on 2080. Across the simulated adaptation landscape, productivity was primarily driven by yield components and phenology (average grain yield increase of 6-69% across sites with optimal combinations of these traits). When incident solar radiation was not limiting carbon assimilation, ideotypes with higher grain yields were characterised by earlier flowering, higher radiation-use efficiency and larger maximum kernel size. At sites with limited solar radiation, crops required longer growing periods to realise genetic yield potential, although higher radiation-use efficiency and larger maximum kernel size were again prospective traits enabling higher rates of yield gains. By 2080, extreme waterlogging stress in some regions of mid-China will impact substantially on productivity, with yield penalties of up to 1,010 kg ha -1 . Ideotypes with optimal G×M could mitigate yield penalty caused by waterlogging by up to 15% under future climates. These results help distil promising crop trait by best management practice combinations that enable higher yields and robust adaptation to future climates and more frequent extreme climatic events, including flash flooding and soil waterlogging., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

28. Optogenetic Control of Human Induced Pluripotent Stem Cell-Derived Cardiac Tissue Models.

Author

Gruber A, Edri O, Glatstein S, Goldfracht I, Huber I, Arbel G, Gepstein A, Chorna S, and Gepstein L

Subjects

Action Potentials physiology, Arrhythmias, Cardiac, HEK293 Cells, Humans, Myocytes, Cardiac metabolism, Optogenetics methods, Induced Pluripotent Stem Cells metabolism

Abstract

Background Optogenetics, using light-sensitive proteins, emerged as a unique experimental paradigm to modulate cardiac excitability. We aimed to develop high-resolution optogenetic approaches to modulate electrical activity in 2- and 3-dimensional cardiac tissue models derived from human induced pluripotent stem cell (hiPSC)-derived cardiomyocytes. Methods and Results To establish light-controllable cardiac tissue models, opsin-carrying HEK293 cells, expressing the light-sensitive cationic-channel CoChR, were mixed with hiPSC-cardiomyocytes to generate 2-dimensional hiPSC-derived cardiac cell-sheets or 3-dimensional engineered heart tissues. Complex illumination patterns were designed with a high-resolution digital micro-mirror device. Optical mapping and force measurements were used to evaluate the tissues' electromechanical properties. The ability to optogenetically pace and shape the tissue's conduction properties was demonstrated by using single or multiple illumination stimulation sites, complex illumination patterns, or diffuse illumination. This allowed to establish in vitro models for optogenetic-based cardiac resynchronization therapy, where the electrical activation could be synchronized (hiPSC-derived cardiac cell-sheets and engineered heart tissue models) and contractile properties improved (engineered heart tissues). Next, reentrant activity (rotors) was induced in the hiPSC-derived cardiac cell-sheets and engineered heart tissue models through optogenetics programmed- or cross-field stimulations. Diffuse illumination protocols were then used to terminate arrhythmias, demonstrating the potential to study optogenetics cardioversion mechanisms and to identify optimal illumination parameters for arrhythmia termination. Conclusions By combining optogenetics and hiPSC technologies, light-controllable human cardiac tissue models could be established, in which tissue excitability can be modulated in a functional, reversible, and localized manner. This approach may bring a unique value for physiological/pathophysiological studies, for disease modeling, and for developing optogenetic-based cardiac pacing, resynchronization, and defibrillation approaches.

Published

2022