Your search keyword '"Adrian, R"' showing total 763 results

1. A Scientist at Work.

Author

Morrison, Adrian R.

Abstract

Relates personal experiences conducting scientific research on the brain mechanisms of rapid eye movement (REM) sleep. Argues that solutions to scientific questions can come from strange sources. Contains 13 references. (WRM)

Published

1999

2. Biomedical Research and the Animal Rights Movement: A Contrast in Values.

Author

Morrison, Adrian R.

Abstract

This article explains how animals are used in research in an effort to counteract animal rights literature. Reveals how medical professionals and others trained in scholarship have misquoted the scientific literature to bolster their claims against the utility of animal research. (PR)

Published

1993

3. Confusion in the Ranks.

Author

Morrison, Adrian R. and Botting, Jack H.

Abstract

States that the ethics of using animals in science should be debated; however, the history of medicine is so clear on the contribution of animal usage to our understanding of the causes, preventions, and cures of diseases that only the untutored or those with a hidden agenda could argue that animal research has not been fundamental to medical progress and human understanding. (PVD)

Published

1997

4. NOVAsort for error-free droplet microfluidics.

Author

Zhang, Han, Gupte, Rohit, Li, Yuwen, Huang, Can, Guzman, Adrian R., Han, Jeong Jae, Jung, Haemin, Sabnis, Rushant, de Figueiredo, Paul, and Han, Arum

Subjects

HIGH throughput screening (Drug development), MICROFLUIDICS, FLUORESCENCE, BIOLOGY

Abstract

High-throughput screening techniques are pivotal to unlocking the mysteries of biology. Yet, the promise of droplet microfluidics in enabling single-cell resolution, ultra-high-throughput screening remains largely unfulfilled. Droplet sorting errors caused by polydisperse droplet sizes that are often inevitable in multi-step assays have severely limited the effectiveness and utility of this technique, especially when screening large libraries. Even a relatively low 1% sorting error results in 10,000 false calls in a 1,000,000 droplet screen, imposing an unreasonably large burden on downstream validation. Here, we present NOVAsort (Next-generation Opto-Volume-based Accurate droplet sorter), a device capable of discerning droplets based on both size and fluorescence intensity. With a 1000- and 10,000-fold reduction in false positives and false negatives, respectively. NOVAsort addresses the challenges of conventional droplet sorting approaches and sets standards for accuracy and throughput in droplet microfluidic assays. Droplet microfluidic tools with single-cell resolution and high-throughput screening capacities remain scarce. Here, the authors propose NOVAsort, a next-generation droplet sorter that can discern droplets based on both size and fluorescence, which can overcome common problems with conventional sorters. [ABSTRACT FROM AUTHOR]

Published

2024

5. Ethical Principles Guiding the Use of Animals in Research

Author

Morrison, Adrian R.

Published

2003

6. Crystal structure of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) frameshifting pseudoknot

Author

Christopher P. Jones and Adrian R. Ferré-D'Amaré

Subjects

Models, Molecular, Translational frameshift, SARS-CoV-2, Viral protein, viruses, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Frameshifting, Ribosomal, RNA, Crystal structure, Computational biology, Biology, Crystallography, X-Ray, medicine.disease_cause, Ribosome, Open reading frame, Mutation, Codon, Terminator, medicine, Nucleic Acid Conformation, RNA, Viral, Pseudoknot, Molecular Biology

Abstract

SARS-CoV-2 produces two long viral protein precursors from one open reading frame using a highly conserved RNA pseudoknot that enhances programmed −1 ribosomal frameshifting. The 1.3 Å-resolution X-ray structure of the pseudoknot reveals three coaxially stacked helices buttressed by idiosyncratic base triples from loop residues. This structure represents a frameshift-stimulating state that must be deformed by the ribosome and exhibits base-triple-adjacent pockets that could be targeted by future small-molecule therapeutics.

Published

2021

7. A randomized, placebo-controlled trial investigating the acute and chronic benefits of American Ginseng (Cereboost®) on mood and cognition in healthy young adults, including in vitro investigation of gut microbiota changes as a possible mechanism of action

Author

Massimo Marzorati, Cindy Duysburgh, Claire M. Williams, Emilie Fromentin, Romain Le Cozannet, Pieter Van den Abbeele, Adrian R. Whyte, Pascale Fança-Berthon, and Lynne Bell

Subjects

Placebo-controlled study, Panax, Medicine (miscellaneous), Physiology, Gut flora, Young Adult, Cognition, Double-Blind Method, Mood, Humans, Medicine, Young adult, American ginseng, Ecosystem, Gut microbiome, Nutrition and Dietetics, biology, Plant Extracts, business.industry, Original Contribution, Middle Aged, SCFA, biology.organism_classification, Gastrointestinal Microbiome, Postprandial, business, Akkermansia muciniphila

Abstract

Purpose Cereboost®, an American ginseng extract, has shown improved short-term memory and attention/alertness in healthy young and middle-aged individuals, potentially via modulation of the gut microbiome and upregulation of neurotransmitters such as acetylcholine. Here, we explored the effects of Cereboost® on cognition and mood in the first 6 h post intervention (acute), after 2 weeks daily supplementation (chronic), and whether 2 weeks daily supplementation altered the response to a single acute dose (acute-on-chronic). A concurrent in vitro study evaluated effects of repeated Cereboost® administration on human gut microbiota. Methods Cognitive effects of Cereboost® were assessed using a double-blind, randomized, placebo-controlled clinical trial, with 61 healthy young adults. Modulation of the gut microbiome was concurrently modelled using the Simulator of the Human Microbial Ecosystem (SHIME®), using a young adult donor. Results Consistent with previous findings, Cereboost® improved working memory and attention during the immediate postprandial period; effects that were amplified following two weeks’ treatment (acute-on-chronic) compared to acute testing alone. Chronic supplementation improved cognition on an acetylcholine-sensitive attention task and improved mental fatigue and self-assurance aspects of mood. The parallel in vitro study revealed significantly increased acetate, propionate, and butyrate levels in simulated proximal and distal colon regions, linked with observed increases in Akkermansia muciniphila and Lactobacillus. Conclusion This study confirmed the promising effects of Cereboost® on cognitive function and mood, while suggesting a possible link to alterations of the gut microbiome and modulation of acetylcholine. Further studies will be required to unravel the underlying mechanisms that are involved. Registration The study was pre-registered at ClinicalTrials.gov on 6th July 2018 (Identifier: NCT03579095).

Published

2021

8. An uncommon [K+(Mg2+)2] metal ion triad imparts stability and selectivity to the Guanidine-I riboswitch

Author

Adrian R. Ferré-D'Amaré and Robert J. Trachman

Subjects

Riboswitch, biology, Stereochemistry, Ligand, Ribozyme, RNA, biology.organism_classification, chemistry.chemical_compound, Burkholderia, Ion binding, chemistry, biology.protein, Chelation, Guanidine, Molecular Biology

Abstract

The widespread ykkC-I riboswitch class exemplifies divergent riboswitch evolution. To analyze how natural selection has diversified its versatile RNA fold, we determined the X-ray crystal structure of the Burkholderia sp. TJI49 ykkC-I subtype-1 (Guanidine-I) riboswitch aptamer domain. Differing from the previously reported structures of orthologs from Dickeya dadantii and Sulfobacillus acidophilus, our Burkholderia structure reveals a chelated K+ ion adjacent to two Mg2+ ions in the guanidine-binding pocket. Thermal melting analysis shows that K+ chelation, which induces localized conformational changes in the binding pocket, improves guanidinium-RNA interactions. Analysis of ribosome structures suggests that the [K+(Mg2+)2] ion triad is uncommon. It is, however, reminiscent of metal ion clusters found in the active sites of ribozymes and DNA polymerases. Previous structural characterization of ykkC-I subtype-2 RNAs, which bind the effector ligands ppGpp and PRPP, indicate that in those paralogs, an adenine responsible for K+ chelation in the Burkholderia Guanidine-I riboswitch is replaced by a pyrimidine. This mutation results in a water molecule and Mg2+ ion binding in place of the K+ ion. Thus, our structural analysis demonstrates how ion and solvent chelation tune divergent ligand specificity and affinity among ykkC-I riboswitches.

Published

2021

9. Detection of Mycobacterium tuberculosis complex DNA in CD34-positive peripheral blood mononuclear cells of asymptomatic tuberculosis contacts: an observational study

Author

Sally Forrest, Julie Demaret, Tenagnework Abozen, Begna Tulu, Jonathan Mayito, Metasebia Tegegn, Stephen T Reece, Abraham Aseffa, Emawayish A. Tirfie, Hana Manwandu, Dawit Tayachew, Denise M. O'Sullivan, Adrian R. Martineau, Kathryn A. Harris, Aboma Zewude, Gobena Ameni, Martin Vordermeier, Jim F. Huggett, Gerwyn M. Jones, Taye Tolera Balcha, Stefan Berg, Mulugeta Belay, Aneesh Chandran, Markos Abebe, Sidra Younis, Vlad Nikolayevskyy, Henny M. Martineau, Mahdad Noursadeghi, and David A. Jolliffe

Subjects

Microbiology (medical), Tuberculosis, HIV Infections, Microbiology, Asymptomatic, Peripheral blood mononuclear cell, Latent Tuberculosis, Virology, Isoniazid, medicine, Humans, Digital polymerase chain reaction, Prospective Studies, Index case, biology, Latent tuberculosis, Tuberculin Test, business.industry, DNA, Articles, Mycobacterium tuberculosis, biology.organism_classification, medicine.disease, Cross-Sectional Studies, Infectious Diseases, Mycobacterium tuberculosis complex, Immunology, Leukocytes, Mononuclear, Ethiopia, medicine.symptom, business, medicine.drug

Abstract

Summary Background Haematopoietic stem cells expressing the CD34 surface marker have been posited as a niche for Mycobacterium tuberculosis complex bacilli during latent tuberculosis infection. Our aim was to determine whether M tuberculosis complex DNA is detectable in CD34-positive peripheral blood mononuclear cells (PBMCs) isolated from asymptomatic adults living in a setting with a high tuberculosis burden. Methods We did a cross-sectional study in Ethiopia between Nov 22, 2017, and Jan 10, 2019. Digital PCR (dPCR) was used to determine whether M tuberculosis complex DNA was detectable in PBMCs isolated from 100 mL blood taken from asymptomatic adults with HIV infection or a history of recent household or occupational exposure to an index case of human or bovine tuberculosis. Participants were recruited from HIV clinics, tuberculosis clinics, and cattle farms in and around Addis Ababa. A nested prospective study was done in a subset of HIV-infected individuals to evaluate whether administration of isoniazid preventive therapy was effective in clearing M tuberculosis complex DNA from PBMCs. Follow-up was done between July 20, 2018, and Feb 13, 2019. QuantiFERON-TB Gold assays were also done on all baseline and follow-up samples. Findings Valid dPCR data (ie, droplet counts >10 000 per well) were available for paired CD34-positive and CD34-negative PBMC fractions from 197 (70%) of 284 participants who contributed data to cross-sectional analyses. M tuberculosis complex DNA was detected in PBMCs of 156 of 197 participants with valid dPCR data (79%, 95% CI 74–85). It was more commonly present in CD34-positive than in CD34-negative fractions (154 [73%] of 197 vs 46 [23%] of 197; p

Published

2021

10. A Helicase Unwinds Hexanucleotide Repeat RNA G-Quadruplexes and Facilitates Repeat-Associated Non-AUG Translation

Author

Sua Myong, Jiou Wang, Jeffrey D. Rothstein, Michael T. Banco, Lindsey R. Hayes, Yu Ning Lu, Tapas Paul, Adrian R. Ferré-D'Amaré, Honghe Liu, and Goran Periz

Subjects

DNA Repeat Expansion, biology, Chemistry, Amyotrophic Lateral Sclerosis, Cell, DNA Helicases, RNA, Helicase, Translation (biology), General Chemistry, Biochemistry, RNA Helicase A, Article, Catalysis, Cell biology, G-Quadruplexes, Colloid and Surface Chemistry, medicine.anatomical_structure, DHX36, C9orf72, Ran, medicine, biology.protein, Humans

Abstract

The expansion of a hexanucleotide repeat GGGGCC (G4C2) in the C9orf72 gene is the most common cause of amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). The G4C2 expansion leads to repeat-associated non-AUG (RAN) translation and the production of toxic dipeptide repeat (DPR) proteins, but the mechanisms of RAN translation remain enigmatic. Here, we report that the RNA helicase DHX36 is a robust positive regulator of C9orf72 RAN translation. DHX36 has a high affinity for the G4C2 repeat RNA, preferentially binds to the repeat RNA’s G-quadruplex conformation, and efficiently unwinds the G4C2 G-quadruplex structures. Native DHX36 interacts with the G4C2 repeat RNA and is essential for effective RAN translation in the cell. In induced pluripotent stem cells and differentiated motor neurons derived from C9orf72-linked ALS patients, reducing DHX36 significantly decreased the levels of endogenous DPR proteins. DHX36 is also aberrantly upregulated in tissues of C9orf72-linked ALS patients. These results indicate that DHX36 facilitates C9orf72 RAN translation by resolving repeat RNA G-quadruplex structures and may be a potential target for therapeutic intervention.

Published

2021

11. Tropical tufa and karst streams support unique and threatened assemblages of aquatic <scp>Diptera, Empididae in Thailand</scp>

Author

Adrian R. Plant

Subjects

geography, geography.geographical_feature_category, biology, Ecology, Empididae, STREAMS, Hemerodromiinae, biology.organism_classification, Karst, Habitat, Tufa, Insect Science, Threatened species, Endemism, Ecology, Evolution, Behavior and Systematics

Published

2021

12. Population genetic structure and microendemism in aquatic <scp>Empididae (Diptera)</scp> in transient tufa biotopes on tropical karst

Author

Pairot Pramual, Chonticha Kunprom, and Adrian R. Plant

Subjects

Biotope, education.field_of_study, geography, geography.geographical_feature_category, biology, Ecology, Empididae, Population, Allopatric speciation, biology.organism_classification, Karst, Tufa, Insect Science, Genetic structure, education, Ecology, Evolution, Behavior and Systematics

Published

2021

13. BNIP3L/Nix-induced mitochondrial fission, mitophagy, and impaired myocyte glucose uptake are abrogated by PRKA/PKA phosphorylation

Author

Vernon W. Dolinsky, Simone C. da Silva Rosa, Saeid Ghavami, Christof Rampitsch, Lucas Nguyen, James A. Thliveris, Matthew D. Martens, Donald Chapman, Joseph W. Gordon, Adrian R. West, Stephanie M. Kereliuk, Yan Hai, Jared T. Field, William Diehl-Jones, and Michel Aliani

Subjects

0301 basic medicine, muscle, MFN2, Biology, Mitochondrial Dynamics, Mitochondrial Proteins, 03 medical and health sciences, DNM1L, Proto-Oncogene Proteins, Mitophagy, Autophagy, Animals, Humans, PKA, Phosphorylation, Protein kinase A, Molecular Biology, Mechanistic target of rapamycin, Cells, Cultured, Muscle Cells, 030102 biochemistry & molecular biology, MTOR, Tumor Suppressor Proteins, Membrane Proteins, Cell Biology, Cell biology, Insulin signaling, mitochondria, Nix, Insulin receptor, Glucose, 030104 developmental biology, biology.protein, Mitochondrial fission, Research Article, Research Paper, RHEB

Abstract

Lipotoxicity is a form of cellular stress caused by the accumulation of lipids resulting in mitochondrial dysfunction and insulin resistance in muscle. Previously, we demonstrated that the mitophagy receptor BNIP3L/Nix is responsive to lipotoxicity and accumulates in response to a high-fat (HF) feeding. To provide a better understanding of this observation, we undertook gene expression array and shot-gun metabolomics studies in soleus muscle from rodents on an HF diet. Interestingly, we observed a modest reduction in several autophagy-related genes. Moreover, we observed alterations in the fatty acyl composition of cardiolipins and phosphatidic acids. Given the reported roles of these phospholipids and BNIP3L in mitochondrial dynamics, we investigated aberrant mitochondrial turnover as a mechanism of impaired myocyte insulin signaling. In a series of gain-of-function and loss-of-function experiments in rodent and human myotubes, we demonstrate that BNIP3L accumulation triggers mitochondrial depolarization, calcium-dependent activation of DNM1L/DRP1, and mitophagy. In addition, BNIP3L can inhibit insulin signaling through activation of MTOR-RPS6KB/p70S6 kinase inhibition of IRS1, which is contingent on phosphatidic acids and RHEB. Finally, we demonstrate that BNIP3L-induced mitophagy and impaired glucose uptake can be reversed by direct phosphorylation of BNIP3L by PRKA/PKA, leading to the translocation of BNIP3L from the mitochondria and sarcoplasmic reticulum to the cytosol. These findings provide insight into the role of BNIP3L, mitochondrial turnover, and impaired myocyte insulin signaling during an overfed state when overall autophagy-related gene expression is reduced. Furthermore, our data suggest a mechanism by which exercise or pharmacological activation of PRKA may overcome myocyte insulin resistance. Abbreviations: BCL2: B cell leukemia/lymphoma 2; BNIP3L/Nix: BCL2/adenovirus E1B interacting protein 3-like; DNM1L/DRP1: dynamin 1-like; FUNDC1: FUN14 domain containing 1; IRS1: insulin receptor substrate 1; MAP1LC3A/LC3: microtubule-associated protein 1 light chain 3 alpha; MFN1: mitofusin 1; MFN2: mitofusin 2; MTOR: mechanistic target of rapamycin kinase; OPA1: OPA1 mitochondrial dynamin like GTPase; PDE4i: phosphodiesterase 4 inhibitor; PLD1: phospholipase D1; PLD6: phospholipase D family member 6; PRKA/PKA: protein kinase, AMP-activated; PRKCD/PKCδ: protein kinase C, delta; PRKCQ/PKCθ: protein kinase C, theta; RHEB: Ras homolog enriched in brain; RPS6KB/p70S6K: ribosomal protein S6 kinase; SQSTM1/p62: sequestosome 1; YWHAB/14-3-3β: tyrosine 3-monooxygenase/tryptophan 5-monooxygenase activation protein beta

Published

2020

14. Real-time monitoring of single ZTP riboswitches reveals a complex and kinetically controlled decision landscape

Author

Rebecca Rosenthal, Christopher P. Jones, Adrian R. Ferré-D'Amaré, Peter J. Murray, Jaba Mitra, Taekjip Ha, and Boyang Hua

Subjects

0301 basic medicine, Riboswitch, RNA Folding, Transcription elongation, Transcription, Genetic, Science, General Physics and Astronomy, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Single-molecule biophysics, Transcription (biology), lcsh:Science, Polymerase, Regulation of gene expression, Multidisciplinary, 030102 biochemistry & molecular biology, biology, Chemistry, RNA, General Chemistry, Gene Expression Regulation, Bacterial, Fusobacterium, Ribonucleotides, Aminoimidazole Carboxamide, Single Molecule Imaging, RNA, Bacterial, 030104 developmental biology, Terminator (genetics), Riboswitches, Biophysics, biology.protein, Nucleic Acid Conformation, lcsh:Q, Heteroduplex

Abstract

RNAs begin to fold and function during transcription. Riboswitches undergo cotranscriptional switching in the context of transcription elongation, RNA folding, and ligand binding. To investigate how these processes jointly modulate the function of the folate stress-sensing Fusobacterium ulcerans ZTP riboswitch, we apply a single-molecule vectorial folding (VF) assay in which an engineered superhelicase Rep-X sequentially releases fluorescently labeled riboswitch RNA from a heteroduplex in a 5′-to-3′ direction, at ~60 nt s−1 [comparable to the speed of bacterial RNA polymerase (RNAP)]. We demonstrate that the ZTP riboswitch is kinetically controlled and that its activation is favored by slower unwinding, strategic pausing between but not before key folding elements, or a weakened transcription terminator. Real-time single-molecule monitoring captures folding riboswitches in multiple states, including an intermediate responsible for delayed terminator formation. These results show how individual nascent RNAs occupy distinct channels within the folding landscape that controls the fate of the riboswitch., Many RNAs become functional before their synthesis completes. Here the authors employ a single-molecule vectorial folding assay mimicking RNA transcription and show that the ZTP riboswitch is kinetically controlled and activated by slower unwinding and strategic pausing.

Published

2020

15. Zmo0994, a novel LEA-like protein from Zymomonas mobilis, increases multi-abiotic stress tolerance in Escherichia coli

Author

Do Hyoung Kim, Jungwoo Yang, Young Hoon Jung, Kyoung Heon Kim, Ha Eun Kim, Adrian R. Walmsley, and Jungyeon Kim

Subjects

0106 biological sciences, Zmo0994, Cellular respiration, lcsh:Biotechnology, Industrial fermentation, Multi-stress tolerance, Management, Monitoring, Policy and Law, medicine.disease_cause, 01 natural sciences, Applied Microbiology and Biotechnology, Zymomonas mobilis, Hydrolysate, lcsh:Fuel, 03 medical and health sciences, lcsh:TP315-360, 010608 biotechnology, Enzymatic hydrolysis, lcsh:TP248.13-248.65, medicine, Escherichia coli, 030304 developmental biology, 0303 health sciences, biology, Renewable Energy, Sustainability and the Environment, Abiotic stress, Chemistry, Inhibitors, Research, biology.organism_classification, General Energy, Biochemistry, Fermentation, Biotechnology

Abstract

Background Pretreatment processes and subsequent enzymatic hydrolysis are prerequisites to utilize lignocellulosic sugar for fermentation. However, the resulting hydrolysate frequently hinders fermentation processes due to the presence of inhibitors and toxic products (e.g., ethanol). Thus, it is crucial to develop robust microbes conferring multi-stress tolerance. Results Zmo0994, a functionally uncharacterized protein from Zymomonas mobilis, was identified and characterized for the first time. A major effect of Zmo0994 was a significant enhancement in the tolerance to abiotic stresses such as ethanol, furfural, 5′-hydroxymethylfurfural and high temperature, when expressed in Escherichia coli. Through transcriptome analysis and in vivo experiments, the cellular mechanism of this protein was revealed as due to its ability to trigger genes, involved in aerobic respiration for ATP synthesis. Conclusions These findings have significant implications that might lead to the development of robust microbes for the highly efficient industrial fermentation processes.

Published

2020

16. Structural analysis of the catalytic domain of Artemis endonuclease/SNM1C reveals distinct structural features

Author

Shanshan Liu, Guangyu Zhu, Leah Volk, Mary Koszelak-Rosenblum, Nian N. Huang, Rory Curtis, Fazlul Karim, Adrian R. Laciak, Grant J Carr, Mousheng Wu, and Michael R. Lieber

Subjects

0301 basic medicine, crystal structure, Protein Folding, protein crystallization, Spodoptera, Artemis, Biochemistry, endonuclease, law.invention, Structure-Activity Relationship, 03 medical and health sciences, Endonuclease, chemistry.chemical_compound, Protein structure, law, protein purification, Catalytic Domain, SNM1 family, Sf9 Cells, Animals, Humans, protein structure, protein expression, Molecular Biology, Gene, Histidine, 030102 biochemistry & molecular biology, biology, hairpin opening, DNA processing, V(D)J recombination, Active site, Cell Biology, Endonucleases, Cell biology, DNA-Binding Proteins, Zinc, 030104 developmental biology, chemistry, Protein Structure and Folding, biology.protein, Recombinant DNA, DNA, SNM1C

Abstract

The endonuclease Artemis is responsible for opening DNA hairpins during V(D)J recombination and for processing a subset of pathological DNA double-strand breaks. Artemis is an attractive target for the development of therapeutics to manage various B cell and T cell tumors, because failure to open DNA hairpins and accumulation of chromosomal breaks may reduce the proliferation and viability of pre-T and pre-B cell derivatives. However, structure-based drug discovery of specific Artemis inhibitors has been hampered by a lack of crystal structures. Here, we report the structure of the catalytic domain of recombinant human Artemis. The catalytic domain displayed a polypeptide fold similar overall to those of other members in the DNA cross-link repair gene SNM1 family and in mRNA 3'-end-processing endonuclease CPSF-73, containing metallo-β-lactamase and β-CASP domains and a cluster of conserved histidine and aspartate residues capable of binding two metal atoms in the catalytic site. As in SNM1A, only one zinc ion was located in the Artemis active site. However, Artemis displayed several unique features. Unlike in other members of this enzyme class, a second zinc ion was present in the β-CASP domain that leads to structural reorientation of the putative DNA-binding surface and extends the substrate-binding pocket to a new pocket, pocket III. Moreover, the substrate-binding surface exhibited a dominant and extensive positive charge distribution compared with that in the structures of SNM1A and SNM1B, presumably because of the structurally distinct DNA substrate of Artemis. The structural features identified here may provide opportunities for designing selective Artemis inhibitors.

Published

2020

17. Vitamin D Supplements for Prevention of Tuberculosis Infection and Disease

Author

Jadambaa Tsolmo, Jutmaan Yanjmaa, Murneren Tunsag, Davaasambuu Ganmaa, Saranjav Ariunzaya, Polyna Khudyakov, Tserenkhuu Enkhtsetseg, Erdenebaatar Sumiya, Dorjnamjil Khulan, Garmaa Gantsetseg, Buyanjargal Uyanga, Ben J. Marais, Ankhbat Munkhzaya, Davaasambuu Enkhmaa, Donna Spiegelman, Baigali Delgerekh, Batbileg Bolortuya, James A Seddon, Ochirbat Batbayar, Bazarsaikhan Amarsaikhan, Adrian R. Martineau, Ganbaatar Erdenetuya, and Xin Zhou

Subjects

Male, medicine.medical_specialty, Tuberculosis, Disease, 030204 cardiovascular system & hematology, Gastroenterology, Article, law.invention, Mycobacterium tuberculosis, 03 medical and health sciences, 0302 clinical medicine, Vitamin D+Metabolites, Double-Blind Method, Randomized controlled trial, Latent Tuberculosis, law, Internal medicine, otorhinolaryngologic diseases, Vitamin D and neurology, Humans, Medicine, Treatment Failure, 030212 general & internal medicine, Vitamin D, Child, Respiratory Tract Infections, Cholecalciferol, Innate immune system, biology, Vitamin d supplementation, Tuberculin Test, business.industry, Incidence, Vitamins, General Medicine, biology.organism_classification, medicine.disease, Dietary Supplements, Immunology, Female, business, Follow-Up Studies

Abstract

BACKGROUND: Vitamin D metabolites support innate immune responses to Mycobacterium tuberculosis. Data from phase 3, randomized, controlled trials of vitamin D supplementation to prevent tuberculosis infection are lacking. METHODS: We randomly assigned children who had negative results for M. tuberculosis infection according to the QuantiFERON-TB Gold In-Tube assay (QFT) to receive a weekly oral dose of either 14,000 IU of vitamin D(3) or placebo for 3 years. The primary outcome was a positive QFT result at the 3-year follow-up, expressed as a proportion of children. Secondary outcomes included the serum 25-hydroxyvitamin D (25[OH]D) level at the end of the trial and the incidence of tuberculosis disease, acute respiratory infection, and adverse events. RESULTS: A total of 8851 children underwent randomization: 4418 were assigned to the vitamin D group, and 4433 to the placebo group; 95.6% of children had a baseline serum 25(OH)D level of less than 20 ng per milliliter. Among children with a valid QFT result at the end of the trial, the percentage with a positive result was 3.6% (147 of 4074 children) in the vitamin D group and 3.3% (134 of 4043) in the placebo group (adjusted risk ratio, 1.10; 95% confidence interval [CI], 0.87 to 1.38; P = 0.42). The mean 25(OH)D level at the end of the trial was 31.0 ng per milliliter in the vitamin D group and 10.7 ng per milliliter in the placebo group (mean between-group difference, 20.3 ng per milliliter; 95% CI, 19.9 to 20.6). Tuberculosis disease was diagnosed in 21 children in the vitamin D group and in 25 children in the placebo group (adjusted risk ratio, 0.87; 95% CI, 0.49 to 1.55). A total of 29 children in the vitamin D group and 34 in the placebo group were hospitalized for treatment of acute respiratory infection (adjusted risk ratio, 0.86; 95% CI, 0.52 to 1.40). The incidence of adverse events did not differ significantly between the two groups. CONCLUSIONS: Vitamin D supplementation did not result in a lower risk of tuberculosis infection, tuberculosis disease, or acute respiratory infection than placebo among vitamin D–deficient schoolchildren in Mongolia. (Funded by the National Institutes of Health; ClinicalTrials.gov number, NCT02276755.)

Published

2020

18. Clindamycin Protects Nonhuman Primates Against Inhalational Anthrax But Does Not Enhance Reduction of Circulating Toxin Levels When Combined With Ciprofloxacin

Author

Christopher P. Klimko, Chris W Schellhase, Nancy A. Twenhafel, Jeremy A. Miller, Christopher K. Cote, Donald J. Chabot, John R. Barr, Susham S. Ingavale, Mary E. Wright, Nicholas J. Vietri, Adrian R. Woolfitt, David P Fetterer, Anne E. Boyer, Brandon Somerville, Arthur M. Friedlander, and Steven A. Tobery

Subjects

0301 basic medicine, medicine.drug_class, Bacterial Toxins, 030106 microbiology, Antibiotics, medicine.disease_cause, Article, Microbiology, Anthrax, 03 medical and health sciences, Antigen, Ciprofloxacin, medicine, Animals, Immunology and Allergy, Respiratory Tract Infections, Antigens, Bacterial, biology, Toxin, business.industry, Clindamycin, Incidence (epidemiology), bacterial infections and mycoses, Prognosis, biology.organism_classification, medicine.disease, Macaca mulatta, Anti-Bacterial Agents, Bacillus anthracis, Disease Models, Animal, Treatment Outcome, 030104 developmental biology, Infectious Diseases, Drug Therapy, Combination, business, Meningitis, Biomarkers, medicine.drug

Abstract

Background Inhalational anthrax is rare and clinical experience limited. Expert guidelines recommend treatment with combination antibiotics including protein synthesis-inhibitors to decrease toxin production and increase survival, although evidence is lacking. Methods Rhesus macaques exposed to an aerosol of Bacillus anthracis spores were treated with ciprofloxacin, clindamycin, or ciprofloxacin + clindamycin after becoming bacteremic. Circulating anthrax lethal factor and protective antigen were quantitated pretreatment and 1.5 and 12 hours after beginning antibiotics. Results In the clindamycin group, 8 of 11 (73%) survived demonstrating its efficacy for the first time in inhalational anthrax, compared to 9 of 9 (100%) with ciprofloxacin, and 8 of 11 (73%) with ciprofloxacin + clindamycin. These differences were not statistically significant. There were no significant differences between groups in lethal factor or protective antigen levels from pretreatment to 12 hours after starting antibiotics. Animals that died after clindamycin had a greater incidence of meningitis compared to those given ciprofloxacin or ciprofloxacin + clindamycin, but numbers of animals were very low and no definitive conclusion could be reached. Conclusion Treatment of inhalational anthrax with clindamycin was as effective as ciprofloxacin in the nonhuman primate. Addition of clindamycin to ciprofloxacin did not enhance reduction of circulating toxin levels.

Published

2020

19. N-glycosylation profiles of the SARS-CoV-2 spike D614G mutant and its ancestral protein characterized by advanced mass spectrometry

Author

Asheley P. Chapman, Dongxia Wang, John R. Barr, Jakub Baudys, Maria I. Solano, Sarah H Osman, David E. Wentworth, Jason M. Goldstein, Bin Zhou, Adrian R. Woolfitt, M. G. Finn, Xiaoyu Fan, Jonathan L. Bundy, James L. Pirkle, and Theodore Keppel

Subjects

Proteomics, Glycan, Glycosylation, Science, Mutant, Article, Mass Spectrometry, chemistry.chemical_compound, N-linked glycosylation, Humans, Chromatography, High Pressure Liquid, chemistry.chemical_classification, Infectivity, Multidisciplinary, biology, SARS-CoV-2, Wild type, Glycopeptides, COVID-19, Molecular biology, Protein Structure, Tertiary, carbohydrates (lipids), Secretory protein, chemistry, Mutation, Spike Glycoprotein, Coronavirus, biology.protein, Medicine, Infectious diseases, Angiotensin-Converting Enzyme 2, Glycoprotein, Protein Binding

Abstract

N-glycosylation plays an important role in the structure and function of membrane and secreted proteins. The spike protein on the surface of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the virus that causes COVID-19, is heavily glycosylated and the major target for developing vaccines, therapeutic drugs and diagnostic tests. The first major SARS-CoV-2 variant carries a D614G substitution in the spike (S-D614G) that has been associated with altered conformation, enhanced ACE2 binding, and increased infectivity and transmission. In this report, we used mass spectrometry techniques to characterize and compare the N-glycosylation of the wild type (S-614D) or variant (S-614G) SARS-CoV-2 spike glycoproteins prepared under identical conditions. The data showed that half of the N-glycosylation sequons changed their distribution of glycans in the S-614G variant. The S-614G variant showed a decrease in the relative abundance of complex-type glycans (up to 45%) and an increase in oligomannose glycans (up to 33%) on all altered sequons. These changes led to a reduction in the overall complexity of the total N-glycosylation profile. All the glycosylation sites with altered patterns were in the spike head while the glycosylation of three sites in the stalk remained unchanged between S-614G and S-614D proteins.

Published

2021

20. Phylodynamic analysis of an emergent Mycobacterium bovis outbreak in an area with no previously known wildlife infections

Author

Rowland R. Kao, Joseph Crispell, Gianluigi Rossi, Roland Harwood, Eleanor Presho, Robin A. Skuce, Samantha Lycett, Richard J. Ellis, Stephen V. Gordon, Eleftheria Palkopoulou, Tanis Brough, Piran C. L. White, Adrian R. Allen, and Graham Smith

Subjects

education.field_of_study, Disease surveillance, Mycobacterium bovis, Ecology, biology, Badger, Transmission (medicine), Population, Wildlife, Outbreak, Disease, biology.organism_classification, Evolutionary biology, biology.animal, Emerging infectious disease, education

Abstract

1. Understanding how an emergent pathogen successfully establishes itself and persists in a previously unaffected population is a crucial problem in disease ecology, with important implications for disease management. In multi-host pathogen systems this problem is particularly difficult, as the importance of each host species to transmission is often poorly characterised, and the disease epidemiology is complex. Opportunities to observe and analyse such emergent scenarios are few. 2. Here, we exploit a unique dataset combining densely-collected data on the epidemiological and evolutionary characteristics of an outbreak of Mycobacterium bovis (the causative agent of bovine tuberculosis, bTB) in a population of cattle and badgers in an area considered low-risk for bTB, with no previous record of either persistent infection in cattle, or of any infection in wildlife. We analyse the outbreak dynamics using a combination of mathematical modelling, Bayesian evolutionary analyses, and machine learning. 3. Comparison to M. bovis whole-genome sequences from Northern Ireland confirmed this to be a single introduction of the pathogen from the latter region, with evolutionary analysis supporting an introduction directly into the local cattle population six years prior to its first discovery in badgers. 4. Once introduced, the evidence supports M. bovis epidemiological dynamics passing through two phases, the first dominated by cattle-to-cattle transmission before becoming established in the local badger population. 5. Synthesis and applications. The raw data object of this analysis were used to support decisions regarding the control of a M. bovis emergent outbreak, of considerable concern because of the geographical distance from previously known high-risk areas. Our further analyses, estimating the time of introduction (and therefore the likely magnitude of any hidden outbreak) and the rates of cross-species transmission, provided valuable confirmation that the extent and focus of the imposed controls were appropriate. Not only these findings strengthen the call for genomic surveillance, but they also pave the path for future outbreaks control, providing insights for more rapid and decisive evidence-based decision-making. As the methods we used and developed are agnostic to the disease itself, they are also valuable for other slowly transmitting pathogens.

Published

2021

21. Loss of KRASG12D feedback regulation involving splicing factor SRSF1 accelerates pancreatic cancer

Author

Young-Kyu Park, Ledong Wan, Kuan-Ting Lin, Zhikai Wang, Mohammad Alinoor Rahman, Adrian R. Krainer, Mads A. Jensen, and David A. Tuveson

Subjects

Mutation, Alternative splicing, Cell, Pancreatic Intraepithelial Neoplasia, Biology, medicine.disease_cause, medicine.disease, digestive system diseases, Splicing factor, medicine.anatomical_structure, Pancreatic cancer, medicine, Cancer research, KRAS, Interleukin 1 receptor, type I

Abstract

The gene encoding KRAS GTPase is recurrently mutated in pancreatic ductal adenocarcinoma (PDAC), triggering the formation of precursor lesions, i.e., acinar-to-ductal metaplasia (ADM) and pancreatic intraepithelial neoplasia (PanIN). However, the majority of pancreatic cells from KC (LSL-KrasG12D/+; Pdx-1-Cre) mice expressing the KrasG12D mutation remain morphologically normal for a long time, suggesting the existence of compensatory feedback mechanisms that buffer aberrant KrasG12D signaling, and that additional steps are required for disrupting cell homeostasis and promoting transformation. Here we report a feedback mechanism in which the ubiquitously expressed splicing factor SRSF1—which is associated with cell transformation in multiple cell types—is downregulated in the majority of morphologically normal pancreas cells with the KrasG12D mutation. Conversely, increasing SRSF1 expression disrupts cell homeostasis by activating MAPK signaling, in part by regulating alternative splicing and mRNA stability of interleukin 1 receptor type 1 (Il1r1). This disruption in homeostasis in turn accelerates KrasG12D-mediated PDAC initiation and progression. Our results demonstrate the involvement of SRSF1 in the pancreatic-cell homeostatic response against the KrasG12D mutation, dysregulation of which facilitates PDAC initiation.One-Sentence SummarySplicing factor SRSF1 is involved in KRASG12D feedback regulation and pancreatic-cancer tumorigenesis.

Published

2021

22. Human Innate Immune Cells Respond Differentially to Poly-γ-Glutamic Acid Polymers from Bacillus anthracis and Nonpathogenic Bacillus Species

Author

Tanya M. Jelacic, Adrian R. Woolfitt, Jennifer Chua, Arthur M. Friedlander, John R. Barr, Anne E. Boyer, and Wilson J. Ribot

Subjects

Innate immune system, biology, Chemistry, medicine.medical_treatment, Monocyte, Immunology, Glutamic acid, Dendritic cell, biology.organism_classification, Bacillus anthracis, Microbiology, 03 medical and health sciences, TLR2, 0302 clinical medicine, Cytokine, medicine.anatomical_structure, TLR4, medicine, Immunology and Allergy, 030215 immunology

Abstract

The poly-γ-glutamic acid (PGA) capsule produced by Bacillus anthracis is composed entirely of d-isomer glutamic acid, whereas nonpathogenic Bacillus species produce mixed d-, l-isomer PGAs. To determine if B. anthracis PGA confers a pathogenic advantage over other PGAs, we compared the responses of human innate immune cells to B. anthracis PGA and PGAs from nonpathogenic B. subtilis subsp. chungkookjang and B. licheniformis. Monocytes and immature dendritic cells (iDCs) responded differentially to the PGAs, with B. anthracis PGA being least stimulatory and B. licheniformis PGA most stimulatory. All three elicited IL-8 and IL-6 from monocytes, but B. subtilis PGA also elicited IL-10 and TNF-α, whereas B. licheniformis PGA elicited all those plus IL-1β. Similarly, all three PGAs elicited IL-8 from iDCs, but B. subtilis PGA also elicited IL-6, and B. licheniformis PGA elicited those plus IL-12p70, IL-10, IL-1β, and TNF-α. Only B. licheniformis PGA induced dendritic cell maturation. TLR assays also yielded differential results. B. subtilis PGA and B. licheniformis PGA both elicited more TLR2 signal than B. anthracis PGA, but only responses to B. subtilis PGA were affected by a TLR6 neutralizing Ab. B. licheniformis PGA elicited more TLR4 signal than B. anthracis PGA, whereas B. subtilis PGA elicited none. B. anthracis PGA persisted longer in high m.w. form in monocyte and iDC cultures than the other PGAs. Reducing the m.w. of B. anthracis PGA reduced monocytes’ cytokine responses. We conclude that B. anthracis PGA is recognized less effectively by innate immune cells than PGAs from nonpathogenic Bacillus species, resulting in failure to induce a robust host response, which may contribute to anthrax pathogenesis.

Published

2020

23. Comprehensive Profiling of Poor-Risk Paired Primary and Recurrent Triple-Negative Breast Cancers Reveals Immune Phenotype Shifts

Author

Yuan Yuan, Radia M. Johnson, Daniel Schmolze, Katherine E. Hutchinson, Adrian R. Carr, Daniel L. Halligan, Ching-Wei Chang, Paul R. McAdam, Susan E. Yost, Jackson Liang, and Chun-Chieh Chang

Subjects

0301 basic medicine, Cancer Research, Breast Neoplasms, Triple Negative Breast Neoplasms, Biology, Article, Transcriptome, 03 medical and health sciences, Lymphocytes, Tumor-Infiltrating, 0302 clinical medicine, Germline mutation, Gene expression, Biomarkers, Tumor, Tumor Microenvironment, Humans, KEGG, Gene, Exome sequencing, Phenotype, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer research

Abstract

Purpose: Emerging data suggest immune checkpoint inhibitors have reduced efficacy in heavily pretreated triple-negative breast cancers (TNBC), but underlying mechanisms are poorly understood. To better understand the phenotypic evolution of TNBCs, we studied the genomic and transcriptomic profiles of paired tumors from patients with TNBC. Experimental Design: We collected paired primary and metastatic TNBC specimens from 43 patients and performed targeted exome sequencing and whole-transcriptome sequencing. From these efforts, we ascertained somatic mutation profiles, tumor mutational burden (TMB), TNBC molecular subtypes, and immune-related gene expression patterns. Stromal tumor-infiltrating lymphocytes (stromal TIL), recurrence-free survival, and overall survival were also analyzed. Results: We observed a typical TNBC mutational landscape with minimal shifts in copy number or TMB over time. However, there were notable TNBC molecular subtype shifts, including increases in the Lehmann/Pietenpol-defined basal-like 1 (BL1, 11.4%–22.6%) and mesenchymal (M, 11.4%–22.6%) phenotypes, and a decrease in the immunomodulatory phenotype (IM, 31.4%–3.2%). The Burstein-defined basal-like immune-activated phenotype was also decreased (BLIA, 42.2%–17.2%). Among downregulated genes from metastases, we saw enrichment of immune-related Kyoto Encyclopedia of Genes and Genomes pathways and gene ontology (GO) terms, and decreased expression of immunomodulatory gene signatures (P < 0.03) and percent stromal TILs (P = 0.03). There was no clear association between stromal TILs and survival. Conclusions: We observed few mutational shifts, but largely consistent transcriptomic shifts in longitudinally paired TNBCs. Transcriptomic and IHC analyses revealed significantly reduced immune-activating gene expression signatures and TILs in recurrent TNBCs. These data may explain the observed lack of efficacy of immunotherapeutic agents in heavily pretreated TNBCs. Further studies are ongoing to better understand these initial observations. See related commentary by Savas and Loi, p. 526

Published

2020

24. Recurrent SRSF2 mutations in MDS affect both splicing and NMD

Author

Omar Abdel-Wahab, Adrian R. Krainer, Mohammad Alinoor Rahman, Robert K. Bradley, and Kuan-Ting Lin

Subjects

RNA Splicing Factors, RNA Splicing, RNA Stability, Nonsense-mediated decay, Biology, 03 medical and health sciences, Exon, Splicing factor, 0302 clinical medicine, Cell Line, Tumor, Genetics, Humans, 030304 developmental biology, 0303 health sciences, Messenger RNA, Serine-Arginine Splicing Factors, Myeloid leukemia, RNA, Nonsense Mediated mRNA Decay, Cell biology, Leukemia, Myeloid, Acute, Myelodysplastic Syndromes, 030220 oncology & carcinogenesis, Mutation, RNA splicing, K562 Cells, Research Paper, HeLa Cells, Developmental Biology

Abstract

Oncogenic mutations in the RNA splicing factors SRSF2, SF3B1, and U2AF1 are the most frequent class of mutations in myelodysplastic syndromes and are also common in clonal hematopoiesis, acute myeloid leukemia, chronic lymphocytic leukemia, and a variety of solid tumors. They cause genome-wide splicing alterations that affect important regulators of hematopoiesis. Several mRNA isoforms promoted by the various splicing factor mutants comprise a premature termination codon (PTC) and are therefore potential targets of nonsense-mediated mRNA decay (NMD). In light of the mechanistic relationship between splicing and NMD, we sought evidence for a specific role of mutant SRSF2 in NMD. We show that SRSF2 Pro95 hot spot mutations elicit enhanced mRNA decay, which is dependent on sequence-specific RNA binding and splicing. SRSF2 mutants enhance the deposition of exon junction complexes (EJCs) downstream from the PTC through RNA-mediated molecular interactions. This architecture then favors the association of key NMD factors to elicit mRNA decay. Gene-specific blocking of EJC deposition by antisense oligonucleotides circumvents aberrant NMD promoted by mutant SRSF2, restoring the expression of PTC-containing transcript. Our study uncovered critical effects of SRSF2 mutants in hematologic malignancies, reflecting the regulation at multiple levels of RNA metabolism, from splicing to decay.

Published

2020

25. Structural analysis of pathogenic mutations targeting Glu427 of ALDH7A1, the hot spot residue of pyridoxine‐dependent epilepsy

Author

Adrian R. Laciak, David A. Korasick, Kent S. Gates, and John J. Tanner

Subjects

Protein Conformation, Mutant, Mutation, Missense, Sequence Homology, Crystallography, X-Ray, Article, Cofactor, chemistry.chemical_compound, Oxidoreductase, Catalytic Domain, Genetics, medicine, Humans, Amino Acid Sequence, Pyridoxine-dependent epilepsy, Genetics (clinical), Nicotinamide mononucleotide, chemistry.chemical_classification, Binding Sites, Epilepsy, Nicotinamide, biology, Chemistry, Aldehyde Dehydrogenase, medicine.disease, Enzyme, Biochemistry, biology.protein, NAD+ kinase

Abstract

Certain loss-of-function mutations in the gene encoding the lysine catabolic enzyme aldehyde dehydrogenase 7A1 (ALDH7A1) cause pyridoxine-dependent epilepsy (PDE). Missense mutations of Glu427, especially Glu427Gln, account for ~30% of the mutated alleles in PDE patients, and thus Glu427 has been referred to as a mutation hot spot of PDE. Glu427 is invariant in the ALDH superfamily and forms ionic hydrogen bonds with the nicotinamide ribose of the NAD(+) cofactor. Here we report the first crystal structures of ALDH7A1 containing pathogenic mutations targeting Glu427. The mutant enzymes E427Q, Glu427Asp, and Glu427Gly were expressed in Escherichia coli and purified. The recombinant enzymes displayed negligible catalytic activity compared to the wild-type enzyme. The crystal structures of the mutant enzymes complexed with NAD(+) were determined to understand how the mutations impact NAD(+) binding. In the E427Q and E427G structures, the nicotinamide mononucleotide is highly flexible and lacks a defined binding pose. In E427D, the bound NAD(+) adopts a “retracted” conformation in which the nicotinamide ring is too far from the catalytic Cys residue for hydride transfer.Thus, the structures revealed a shared mechanism for loss of function: none of the variants are able to stabilise the nicotinamide of NAD(+) in the pose required for catalysis. We also show that these mutations reduce the amount of active tetrameric ALDH7A1 at the concentration of NAD(+) tested. Altogether, our results provide the three-dimensional molecular structural basis of the most common pathogenic variants of PDE and implicate strong (ionic) hydrogen bonds in the aetiology of a human disease.

Published

2019

26. Differential Functions of Splicing Factors in Mammary Transformation and Breast Cancer Metastasis

Author

Adrian R. Krainer, Shipra Das, Martin Fan, Nathan K. Leclair, Leo Hu, Olga Anczuków, Laura Urbanski, Adam Geier, SungHee Park, Martin Akerman, Ian Hua, Senthil K. Muthuswamy, Joshy George, Kuan-Ting Lin, Mattia Brugiolo, and Anil K. Kesarwani

Subjects

0301 basic medicine, RNA Splicing, Breast Neoplasms, Biology, General Biochemistry, Genetics and Molecular Biology, Article, Metastasis, 03 medical and health sciences, Splicing factor, 0302 clinical medicine, Breast cancer, SR protein, medicine, Humans, Neoplasm Metastasis, skin and connective tissue diseases, lcsh:QH301-705.5, Triple-negative breast cancer, Alternative splicing, Cancer, medicine.disease, 030104 developmental biology, lcsh:Biology (General), RNA splicing, Cancer research, RNA Splicing Factors, 030217 neurology & neurosurgery

Abstract

Summary: Misregulation of alternative splicing is a hallmark of human tumors, yet to what extent and how it contributes to malignancy are only beginning to be unraveled. Here, we define which members of the splicing factor SR and SR-like families contribute to breast cancer and uncover differences and redundancies in their targets and biological functions. We identify splicing factors frequently altered in human breast tumors and assay their oncogenic functions using breast organoid models. We demonstrate that not all splicing factors affect mammary tumorigenesis in MCF-10A cells. Specifically, the upregulation of SRSF4, SRSF6, or TRA2β disrupts acinar morphogenesis and promotes cell proliferation and invasion in MCF-10A cells. By characterizing the targets of these oncogenic splicing factors, we identify shared spliced isoforms associated with well-established cancer hallmarks. Finally, we demonstrate that TRA2β is regulated by the MYC oncogene, plays a role in metastasis maintenance in vivo, and its levels correlate with breast cancer patient survival. : Park et al. demonstrate that >50% of human breast tumors exhibit an alteration in one of the splicing factors from the SR protein family. Using in vitro and in vivo breast cancer models, they identify three splicing factors that promote cell proliferation and invasion by regulating isoforms associated with cancer hallmarks. Keywords: alternative RNA splicing, breast cancer, splicing factor, SR protein, metastasis, MYC, TRA2-beta, triple negative breast cancer

Published

2019

27. Coordinated alterations in RNA splicing and epigenetic regulation drive leukaemogenesis

Author

Rachel E. Miles, Catherine Cargo, Mohammad Alinoor Rahman, Omar Abdel-Wahab, Adrian R. Krainer, Heidi Dvinge, Hana Cho, Robert K. Bradley, Todd R. Albrecht, Fabio M. R. Amaral, Ross L. Levine, Kiran Batta, Daichi Inoue, Fabrizio Simeoni, Deepti P. Wilks, Alessandro Pastore, Bo Wang, Xiao Jing Zhang, Daniel H. Wiseman, Eric J. Wagner, Stéphane de Botton, Eytan M. Stein, Tim C. P. Somervaille, Jean Baptiste Micol, Virginie Penard-Lacronique, Andrew M. Intlekofer, Stanley Chun-Wei Lee, Akihide Yoshimi, and Kuan-Ting Lin

Subjects

Male, 0301 basic medicine, RNA Splicing Factors, Carcinogenesis, RNA polymerase II, Article, Epigenesis, Genetic, 03 medical and health sciences, 0302 clinical medicine, Transcription (biology), Cell Line, Tumor, Gene expression, Animals, Humans, Gene, Cell Proliferation, Multidisciplinary, Serine-Arginine Splicing Factors, biology, Alternative splicing, Epigenome, DNA Methylation, Isocitrate Dehydrogenase, Cell biology, DNA-Binding Proteins, Gene Expression Regulation, Neoplastic, Alternative Splicing, Leukemia, Myeloid, Acute, 030104 developmental biology, 030220 oncology & carcinogenesis, Mutation, RNA splicing, biology.protein, Female, RNA Polymerase II, Transcriptome

Abstract

Transcription and pre-mRNA splicing are key steps in the control of gene expression and mutations in genes regulating each of these processes are common in leukaemia1,2. Despite the frequent overlap of mutations affecting epigenetic regulation and splicing in leukaemia, how these processes influence one another to promote leukaemogenesis is not understood and, to our knowledge, there is no functional evidence that mutations in RNA splicing factors initiate leukaemia. Here, through analyses of transcriptomes from 982 patients with acute myeloid leukaemia, we identified frequent overlap of mutations in IDH2 and SRSF2 that together promote leukaemogenesis through coordinated effects on the epigenome and RNA splicing. Whereas mutations in either IDH2 or SRSF2 imparted distinct splicing changes, co-expression of mutant IDH2 altered the splicing effects of mutant SRSF2 and resulted in more profound splicing changes than either mutation alone. Consistent with this, co-expression of mutant IDH2 and SRSF2 resulted in lethal myelodysplasia with proliferative features in vivo and enhanced self-renewal in a manner not observed with either mutation alone. IDH2 and SRSF2 double-mutant cells exhibited aberrant splicing and reduced expression of INTS3, a member of the integrator complex3, concordant with increased stalling of RNA polymerase II (RNAPII). Aberrant INTS3 splicing contributed to leukaemogenesis in concert with mutant IDH2 and was dependent on mutant SRSF2 binding to cis elements in INTS3 mRNA and increased DNA methylation of INTS3. These data identify a pathogenic crosstalk between altered epigenetic state and splicing in a subset of leukaemias, provide functional evidence that mutations in splicing factors drive myeloid malignancy development, and identify spliceosomal changes as a mediator of IDH2-mutant leukaemogenesis. Analyses of transcriptomes from patients with acute myeloid leukaemia identified frequently co-occurring mutations of IDH2 and SRSF2, which functional analyses showed to have distinct and coordinated leukaemogenic effects on the epigenome and RNA splicing.

Published

2019

28. Disruption of splicing-regulatory elements using CRISPR/Cas9 to rescue spinal muscular atrophy in human iPSCs and mice

Author

Yidi Sun, Ying-Qian Lu, Lixiang Ma, Changyang Zhou, Wan-Jin Chen, Lu-Lu Lai, He Li, Min-Ting Lin, Xiaowen Shen, Qifang Wang, Hui Yang, Wenqin Ying, Linyu Shi, Xiang Lin, Shuang Wu, Jin-Jing Li, Ning Wang, Qi-Jie Zhang, Adrian R. Krainer, Erwei Zuo, Xin-Xin Guo, Hai-Zhu Chen, Cheng Tang, and Xinde Hu

Subjects

Genetically modified mouse, splicing-regulatory elements, Biology, 03 medical and health sciences, Exon, 0302 clinical medicine, medicine, CRISPR/Cas9, Gene, spinal muscular atrophy, 030304 developmental biology, 0303 health sciences, Messenger RNA, Multidisciplinary, Molecular Biology & Genetics, Spinal muscular atrophy, Motor neuron, medicine.disease, SMA, Cell biology, medicine.anatomical_structure, RNA splicing, germline correction, 030217 neurology & neurosurgery, Research Article, SMN2

Abstract

We here report a genome-editing strategy to correct spinal muscular atrophy (SMA). Rather than directly targeting the pathogenic exonic mutations, our strategy employed Cas9 and guide-sgRNA for the targeted disruption of intronic splicing-regulatory elements. We disrupted intronic splicing silencers (ISSs, including ISS-N1 and ISS + 100) of survival motor neuron (SMN) 2, a key modifier gene of SMA, to enhance exon 7 inclusion and full-length SMN expression in SMA iPSCs. Survival of splicing-corrected iPSC-derived motor neurons was rescued with SMN restoration. Furthermore, co-injection of Cas9 mRNA from Streptococcus pyogenes (SpCas9) or Cas9 from Staphylococcus aureus (SaCas9) alongside their corresponding sgRNAs targeting ISS-N1 into zygotes rescued 56% and 100% of severe SMA transgenic mice (Smn−/−, SMN2tg/−). The median survival of the resulting mice was extended to >400 days. Collectively, our study provides proof-of-principle for a new strategy to therapeutically intervene in SMA and other RNA-splicing-related diseases.

Published

2019

29. Variation in Mycobacterium bovis genetic richness suggests that inwards cattle movements are a more important source of infection in beef herds than in dairy herds

Author

Carl McCormick, Adrian R. Allen, Andrew W. Byrne, Eleanor Presho, M. G. Milne, Jordon Graham, and Robin A. Skuce

Subjects

Microbiology (medical), Veterinary medicine, Genotype, animal diseases, Wildlife, lcsh:QR1-502, Northern Ireland, Biology, Beef cattle, Multiple Loci VNTR Analysis, Microbiology, lcsh:Microbiology, Disease Outbreaks, Bovine tuberculosis, Dairy, 03 medical and health sciences, Risk Factors, Genotype richness, Animals, Dairy cattle, 0303 health sciences, Mycobacterium bovis, 030306 microbiology, MLVA, biology.organism_classification, bacterial infections and mycoses, Dairying, Red Meat, Herd, Cattle, Species richness, Beef, Ireland, Tuberculosis, Bovine, Research Article

Abstract

Background We used genetic Multi-Locus VNTR Analysis (MLVA) data gathered from surveillance efforts to better understand the ongoing bovine tuberculosis (bTB) epidemic in Northern Irish cattle herds. We modelled the factors associated with Mycobacterium bovis MLVA genotype richness at three analytical scales; breakdown level, herd level, and patch level, and compared the results between dairy and non-dairy production types. Results In 83% of breakdowns and in 63% of herds, a single MLVA genotype was isolated. Five or more MLVA genotypes were found in less than 3 % of herds. Herd size and the total number of reactors were important explanatory variables, suggesting that increasing MLVA genotype richness was positively related to increases in the number of host animals. Despite their smaller relative size, however, the highest MLVA genotype richness values were observed in non-dairy herds. Increasing inwards cattle movements were important positive predictors of MLVA genotype richness, but mainly in non-dairy settings. Conclusions The principal finding is that low MLVA genotype richness indicates that small-scale epidemics, e.g. wildlife, contiguous farms, and within-herd recrudescence, are important routes of M. bovis infection in cattle herds. We hypothesise that these mechanisms will maintain, but may not explicitly increase, MLVA genotype richness. The presence of elevated MLVA richness is relatively rare and likely indicates beef fattening enterprises, which purchase cattle from over long distances. Cattle movements were furthermore an important predictor of MLVA genotype richness in non-dairy herds, but not in dairy herds; this may represent reduced cattle purchasing levels in dairy enterprises, compared to beef. These observations allude to the relative contribution of different routes of bTB infection between production types; we posit that infection associated with local factors may be more evident in dairy herds than beef herds, however in beef herds, inwards movements offer additional opportunities for introducing M. bovis into the herd. Electronic supplementary material The online version of this article (10.1186/s12866-019-1530-7) contains supplementary material, which is available to authorized users.

Published

2019

30. RNA G-quadruplex is resolved by repetitive and ATP-dependent mechanism of DHX36

Author

Michael C. Chen, Adrian R. Ferré-D'Amaré, Ramreddy Tippana, Sua Myong, and N. Demeshkina

Subjects

0301 basic medicine, RNA Folding, Science, Biophysics, General Physics and Astronomy, 02 engineering and technology, G-quadruplex, Biochemistry, Dissociation (chemistry), Article, General Biochemistry, Genetics and Molecular Biology, DEAD-box RNA Helicases, 03 medical and health sciences, chemistry.chemical_compound, Adenosine Triphosphate, Single-molecule biophysics, DHX36, ATP hydrolysis, Fluorescence Resonance Energy Transfer, Humans, lcsh:Science, Multidisciplinary, biology, Mechanism (biology), Chemistry, Extramural, RNA, Helicase, General Chemistry, 021001 nanoscience & nanotechnology, Single Molecule Imaging, G-Quadruplexes, 030104 developmental biology, Microscopy, Fluorescence, Mutation, Mutagenesis, Site-Directed, biology.protein, lcsh:Q, Rna folding, 0210 nano-technology, DNA, Protein Binding

Abstract

DHX36 is a DEAH-box helicase that resolves parallel G-quadruplex structures formed in DNA and RNA. The recent co-crystal structure of DHX36 bound G4-DNA revealed an intimate contact, but did not address the role of ATP hydrolysis in G4 resolving activity. Here, we demonstrate that unlike on G4-DNA, DHX36 displays ATP-independent unfolding of G4-RNA followed by ATP-dependent refolding, generating a highly asymmetric pattern of activity. Interestingly, DHX36 refolds G4-RNA in several steps, reflecting the discrete steps in forming the G4 structure. We show that the ATP-dependent activity of DHX36 arises from the RNA tail rather than the G4. Mutations that perturb G4 contact result in quick dissociation of the protein from RNA upon ATP hydrolysis, while mutations that interfere with binding the RNA tail induce dysregulated activity. We propose that the ATP-dependent activity of DHX36 may be useful for dynamically resolving various G4-RNA structures in cells., DHX36 is a G-quadruplex (G4) resolving helicase that targets both DNA-G4 and RNA-G4. Here the authors use single molecule FRET measurements and show that DHX36 resolves RNA-G4 structures by a mechanism involving an ATP-dependent, highly repetitive and stepwise refolding of RNA-G4 that differs from its DNA-G4 structures resolving mechanism.

Published

2019

31. Towards a combined therapy for spinal muscular atrophy based on opposing effects of an antisense oligonucleotide on chromatin and splicing

Author

Alberto R. Kornblihtt, N. R. Proudfoot, L. E. Marasco, Y. Hsiu Liu, Rui Sousa-Luís, T. Nomakuchi, Adrian R. Krainer, Gwendal Dujardin, and José N. Stigliano

Subjects

biology, Chemistry, Spinal muscular atrophy, SMN1, medicine.disease, Cell biology, Chromatin, Exon, Histone, RNA splicing, medicine, biology.protein, Nusinersen, Histone deacetylase

Abstract

SummarySpinal Muscular Atrophy (SMA) is a motor-neuron disease caused by loss-of-function mutations of the SMN1 gene. Humans have a paralog, SMN2, whose exon 7 is predominantly skipped, and so it cannot fully compensate for the lack of SMN1. Nusinersen (Spinraza) is a splicing-correcting antisense oligonucleotide drug (ASO) approved for clinical use. Nusinersen targets a splicing silencer located in SMN2 intron 7 pre-mRNA and, by blocking the binding of the splicing repressors hnRNPA1 and A2, it promotes higher E7 inclusion, increasing SMN protein levels. We show here that, by promoting transcriptional elongation, histone deacetylase (HDAC) inhibitors cooperate with a nusinersen-like ASO to upregulate E7 inclusion. Surprisingly, the ASO also elicits the deployment of the silencing histone mark H3K9me2 on the SMN2 gene, creating a roadblock to RNA polymerase II elongation that acts negatively on E7 inclusion. By removing the roadblock, HDAC inhibition counteracts the undesired chromatin effects of the ASO, resulting in higher E7 inclusion. Combined systemic administration of the nusinersen-like ASO and HDAC inhibitors in neonate SMA mice had strong synergistic effects on SMN expression, growth, survival, and neuromuscular function. Thus, we suggest that HDAC inhibitors have the potential to increase the clinical efficacy of nusinersen, and perhaps other splicing-modulatory ASO drugs, without large pleiotropic effects, as assessed by genome-wide analyses.

Published

2021

32. Exon-Skipping Antisense Oligonucleotides for Cystic Fibrosis Therapy

Author

Qian Zhang, Young Jin Kim, Jessica Layne, Dillon Voss, Adrian R. Krainer, Nicole Sivetz, and Lucia Yang

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, Mutation, biology, business.industry, medicine.medical_treatment, Mutant, Nonsense mutation, medicine.disease_cause, medicine.disease, Cystic fibrosis, Exon skipping, Cystic fibrosis transmembrane conductance regulator, Targeted therapy, Exon, medicine, Cancer research, biology.protein, business

Abstract

Mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene cause cystic fibrosis (CF), and theCFTR-W1282Xnonsense mutation causes a severe form of CF. Although Trikafta and other CFTR-modulation therapies benefit most CF patients, targeted therapy for patients with the W1282X mutation is lacking. The CFTR-W1282X protein has residual activity, but is expressed at a very low level due to nonsense-mediated mRNA decay (NMD). NMD-suppression therapy and read-through therapy are actively being researched forCFTRnonsense mutants. NMD suppression could increase the mutantCFTRmRNA, and read-through therapies may increase the levels of full-length CFTR protein. However, these approaches have limitations and potential side effects: because the NMD machinery also regulates the expression of many normal mRNAs, broad inhibition of the pathway is not desirable; and read-through drugs are inefficient, partly because the mutant mRNA template is subject to NMD. To bypass these issues, we pursued an exon-skipping antisense oligonucleotide (ASO) strategy to achieve gene-specific NMD evasion. A cocktail of two splice-site-targeting ASOs induced the expression ofCFTRmRNA without the PTC-containing exon 23 (CFTR-Δex23), which is an in-frame exon. Treatment of human bronchial epithelial cells with this cocktail of ASOs that target the splice sites flanking exon 23 results in efficient skipping of exon 23 and an increase in CFTR-Δex23 protein. The splice-switching ASO cocktail increases the CFTR-mediated chloride current in human bronchial epithelial cells. Our results set the stage for developing an allele-specific therapy for CF caused by the W1282X mutation.

Published

2021

33. Early Inflammatory Cytokine Expression in Cerebrospinal Fluid of Patients with Spontaneous Intraventricular Hemorrhage

Author

Carol B. Thompson, Wendy C. Ziai, Santosh B. Murthy, Saman Nekoovaght-Tak, Lauren H Sansing, Daniel F. Hanley, Michael T. Mullen, Adrian R Parry-Jones, and Andrew Mould

Subjects

0301 basic medicine, Male, Chemokine, Tumor Necrosis Factor-alpha/cerebrospinal fluid, Interleukin-8/cerebrospinal fluid, Cerebral Intraventricular Hemorrhage/cerebrospinal fluid, Interleukin-1beta, Gene Expression, Biochemistry, Gastroenterology, Severity of Illness Index, neuroinflammation, 0302 clinical medicine, Cerebrospinal fluid, Interleukin-1alpha, Prospective Studies, Prospective cohort study, Interleukin-1alpha/cerebrospinal fluid, Chemokine CCL2, biology, Middle Aged, QR1-502, Interleukin-10, Intraventricular hemorrhage, Interleukin-10/cerebrospinal fluid, Interleukin-1beta/cerebrospinal fluid, Drainage, Tumor necrosis factor alpha, Female, Hydrocephalus, Adult, medicine.medical_specialty, Interleukin-6/cerebrospinal fluid, intraventricular hemorrhage, Microbiology, Article, cerebrospinal fluid, Proinflammatory cytokine, 03 medical and health sciences, Hydrocephalus/cerebrospinal fluid, Internal medicine, Severity of illness, medicine, Humans, Molecular Biology, Aged, Cerebral Intraventricular Hemorrhage, Intracerebral hemorrhage, business.industry, Chemokine CCL2/cerebrospinal fluid, Interleukin-6, Tumor Necrosis Factor-alpha, Interleukin-8, medicine.disease, intracerebral hemorrhage, cytokines, 030104 developmental biology, Drainage/methods, biology.protein, business, 030217 neurology & neurosurgery

Abstract

We investigated cerebrospinal fluid (CSF) expression of inflammatory cytokines and their relationship with spontaneous intracerebral and intraventricular hemorrhage (ICH, IVH) and perihematomal edema (PHE) volumes in patients with acute IVH. Twenty-eight adults with IVH requiring external ventricular drainage for obstructive hydrocephalus had cerebrospinal fluid (CSF) collected for up to 10 days and had levels of interleukin-1α (IL-1α), IL-1β, IL-6, IL-8, IL-10, tumor necrosis factor-α (TNFα), and C-C motif chemokine ligand CCL2 measured using enzyme-linked immunosorbent assay. Median [IQR] ICH and IVH volumes at baseline (T0) were 19.8 [5.8–48.8] and 14.3 [5.3–38] mL respectively. Mean levels of IL-1β, IL-6, IL-10, TNF-α, and CCL2 peaked early compared to day 9–10 (p &lt, 0.05) and decreased across subsequent time periods. Levels of IL-1β, IL-6, IL-8, IL-10, and CCL2 had positive correlations with IVH volume at days 3–8 whereas positive correlations with ICH volume occurred earlier at day 1–2. Significant correlations were found with PHE volume for IL-6, IL-10 and CCL2 at day 1–2 and with relative PHE at days 7–8 or 9–10 for IL-1β, IL-6, IL-8, and IL-10. Time trends of CSF cytokines support experimental data suggesting association of cerebral inflammatory responses with ICH/IVH severity. Pro-inflammatory markers are potential targets for injury reduction.

Published

2021

34. Therapeutic manipulation of IKBKAP mis-splicing with a small molecule to cure familial dysautonomia

Author

Shingo Matsushima, Adrian R. Krainer, Kei Iida, Tetsunori Sakamoto, Saiko Shibata, Masatoshi Hagiwara, Tomonari Awaya, Young Jin Kim, Masatsugu Denawa, Lorenz Studer, Nobuo Tanaka, Masahiko Ajiro, and Ryo Kurosawa

Subjects

0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, RNA splicing, Science, General Physics and Astronomy, Biology, medicine.disease_cause, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Exon, Splicing factor, 0302 clinical medicine, medicine, Peripheral neuropathies, Mutation, Gene knockdown, Multidisciplinary, IKBKAP, Alternative splicing, Intron, General Chemistry, Chemical biology, Cell biology, 030104 developmental biology, 030217 neurology & neurosurgery

Abstract

Approximately half of genetic disease-associated mutations cause aberrant splicing. However, a widely applicable therapeutic strategy to splicing diseases is yet to be developed. Here, we analyze the mechanism whereby IKBKAP-familial dysautonomia (FD) exon 20 inclusion is specifically promoted by a small molecule splice modulator, RECTAS, even though IKBKAP-FD exon 20 has a suboptimal 5′ splice site due to the IVS20 + 6 T > C mutation. Knockdown experiments reveal that exon 20 inclusion is suppressed in the absence of serine/arginine-rich splicing factor 6 (SRSF6) binding to an intronic splicing enhancer in intron 20. We show that RECTAS directly interacts with CDC-like kinases (CLKs) and enhances SRSF6 phosphorylation. Consistently, exon 20 splicing is bidirectionally manipulated by targeting cellular CLK activity with RECTAS versus CLK inhibitors. The therapeutic potential of RECTAS is validated in multiple FD disease models. Our study indicates that small synthetic molecules affecting phosphorylation state of SRSFs is available as a new therapeutic modality for mechanism-oriented precision medicine of splicing diseases., 遺伝病を薬で治す --家族制自律神経失調症に対する低分子化合物による効果を実証--. 京都大学プレスリリース. 2021-07-28.

Published

2021

35. Eosinophils are an integral component of the pulmonary granulocyte response in Tuberculosis and promote host resistance in mice

Author

Yanzheng Song, Luman Wang, David M. Lowe, Linda Petrone, Clifton E. Barry, Amy D. Klion, Laura E. Via, Franca Del Nonno, Christine E. Nelson, Shunsuke Sakai, Bruno B. Andrade, Honghui Ma, Keith D. Kauffman, Ka-Wing Wong, Daniel L. Barber, Delia Goletti, Andrea C. Bohrer, Catherine Riou, Zhibin Hu, Robert J. Wilkinson, Maike Assmann, Ian N. Moore, du Bruyn E, Paul J. Baker, Mark R. Cronan, Ehydel Castro, Artur T. L. Queiroz, Adrian R. Martineau, Wen Zilu, Katrin D. Mayer-Barber, and Claire E. Tocheny

Subjects

Tuberculosis, Lung, Effector, respiratory system, Biology, Eosinophil, Granulocyte, medicine.disease, biology.organism_classification, Mycobacterium tuberculosis, medicine.anatomical_structure, Genetic model, Immunology, medicine, Zebrafish

Abstract

Host resistance to Mycobacterium tuberculosis infection requires the activities of multiple leukocyte subsets, yet the roles of the different innate effector cells during tuberculosis are incompletely understood. Here we uncover an unexpected association between eosinophils and Mtb infection. In humans, eosinophils are decreased in the blood but enriched in resected human tuberculosis lung lesions and autopsy granulomas. Influx of eosinophils is also evident in infected zebrafish, mice, and nonhuman primate granulomas, where they are functionally activated and degranulate. Importantly, employing complementary genetic models of eosinophil deficiency, we demonstrate that, in mice, eosinophils are required for optimal pulmonary bacterial control and host survival after Mtb infection. Collectively, our findings uncover an unexpected recruitment of eosinophils to the infected lung tissue and a protective role for these cells in the control of Mtb infection in mice.

Published

2021

36. Systematic characterization of short intronic splicing-regulatory elements

Author

Kuan-Ting Lin, Sheng L, Wang L, Gao Y, Hua Y, Bai J, Adrian R. Krainer, Yang Yang, and Sun J

Subjects

Exon, Mutation, HEK 293 cells, RNA splicing, Intron, medicine, RNA, Computational biology, Biology, Enhancer, medicine.disease_cause, Minigene

Abstract

Intronic splicing enhancers and silencers (ISEs and ISSs) are two groups of splicing-regulatory elements (SREs) that play critical roles in determining splice-site selection, particularly for alternatively spliced introns or exons. SREs are often short motifs; their mutation or dysregulation of their cognate proteins frequently causes aberrant splicing and results in disease. To date, however, knowledge about SRE sequences and how they regulate splicing remains limited. Here, using an SMN2 minigene, we generated a complete pentamer-sequence library that comprises all possible combinations of 5 nucleotides in intron 7, at a fixed site downstream of the 5′ splice site. We systematically analyzed the effects of all 1023 mutant pentamers on exon 7 splicing, in comparison to the wild-type minigene, in HEK293 cells. Our data show that the majority of pentamers significantly affect exon 7 splicing: 584 of them are stimulatory and 230 are inhibitory. To identify actual SREs, we utilized a motif set enrichment analysis (MSEA), from which we identified groups of stimulatory and inhibitory SRE motifs. We experimentally validated several strong SREs in SMN1/2 and MAPT minigene settings. Our results provide a valuable resource for understanding how short RNA sequences regulate splicing. Many novel SREs can be explored further to elucidate their mechanism of action.

Published

2021

37. KSR1- and ERK-dependent translational regulation of the epithelial-to-mesenchymal transition

Author

Robert E. Lewis, Robert A. Svoboda, Kurt W. Fisher, Chaitra Rao, Hans Clevers, Chittibabu Guda, Adrian R. Black, Siddesh Southekal, Tomohiro Mizutani, Danielle E. Frodyma, Keith R. Johnson, and Hubrecht Institute for Developmental Biology and Stem Cell Research

Subjects

0301 basic medicine, MAPK/ERK pathway, Colorectal cancer, human organoids, Protein Kinases/genetics, Metastasis, 0302 clinical medicine, Neoplasm Proteins/genetics, Cell Movement, Translational regulation, Biology (General), Cancer Biology, Tumor, biology, Chemistry, General Neuroscience, Cell migration, Translation (biology), General Medicine, Cadherins, Phenotype, Neoplasm Proteins, Cell biology, Gene Expression Regulation, Neoplastic, 030220 oncology & carcinogenesis, Medicine, colon cancer cells, Signal transduction, Colorectal Neoplasms, Research Article, Human, Epithelial-Mesenchymal Transition, Slug, QH301-705.5, MAP Kinase Signaling System, Science, Repressor, General Biochemistry, Genetics and Molecular Biology, Cell Line, 03 medical and health sciences, Cell Line, Tumor, medicine, Humans, Neoplasm Invasiveness, Epithelial–mesenchymal transition, Neoplastic, General Immunology and Microbiology, Cadherins/genetics, Cancer, Cell Biology, medicine.disease, biology.organism_classification, 030104 developmental biology, Gene Expression Regulation, Cancer cell, Protein Kinases, Transcription Factors

Abstract

The epithelial-to-mesenchymal transition (EMT) is considered a transcriptional process that induces a switch in cells from a polarized state to a migratory phenotype. Here, we show that KSR1 and ERK promote EMT-like phenotype through the preferential translation of Epithelial-Stromal Interaction 1 (EPSTI1), which is required to induce the switch from E- to N-cadherin and coordinate migratory and invasive behavior. EPSTI1 is overexpressed in human colorectal cancer (CRC) cells. Disruption of KSR1 or EPSTI1 significantly impairs cell migration and invasion in vitro, and reverses EMT-like phenotype, in part, by decreasing the expression of N-cadherin and the transcriptional repressors of E-cadherin expression, ZEB1 and Slug. In CRC cells lacking KSR1, ectopic EPSTI1 expression restored the E- to N-cadherin switch, migration, invasion, and anchorage-independent growth. KSR1-dependent induction of EMT-like phenotype via selective translation of mRNAs reveals its underappreciated role in remodeling the translational landscape of CRC cells to promote their migratory and invasive behavior., eLife digest The majority of cancer deaths result from tumor cells spreading to other parts of the body via a process known as metastasis. 90% of all cancers originate in epithelial cells that line the inner and outer surface of organs in our bodies. Epithelial cells, however, are typically stationary and must undergo various chemical and physical changes to transform in to migratory cells that can invade other tissues. This transformation process alters the amount of protein cells use to interact with one another. For example, epithelial cells from the colon produce less of a protein called E-cadherin as they transition into migrating cancer cells and make another protein called N-cadherin instead. A protein called KSR1 is a key component of a signaling pathway that is responsible for generating the proteins colon cancer cells need to survive. But it is unknown which proteins KSR1 helps synthesize and whether it plays a role in the metastasis of colon cancer cells. To investigate this, Rao et al. studied the proteins generated by cancerous colon cells cultured in the laboratory, in the presence and absence of KSR1. The experiment showed that KSR1 increases the levels of a protein called EPSTI1, which colon cancer cells need to transform into migratory cells. Depleting KSR1 caused cancer cells to generate less EPSTI1 and to share more features with healthy cells, such as higher levels of E-cadherin on their surface and reduced mobility. Adding EPSTI1 to the cancer cells that lacked KSR1 restored the traits associated with metastasis, such as high levels of N-cadherin, and allowed the cells to move more easily. These findings suggest that KSR1 and EPSTI1 could be new drug targets for reducing, or potentially reversing, the invasive behavior of colon cancer cells. However, further investigation is needed to reveal how EPSTI1 is generated and how this protein helps colon cancer cells move and invade other tissues.

Published

2021

38. The Quorum Sensing Auto-Inducer 2 (AI-2) Stimulates Nitrogen Fixation and Favors Ethanol Production over Biomass Accumulation in Zymomonas mobilis

Author

Regina Costa de Oliveira, Juliana de Fátima Dos Santos Silva, Ivarne L.S. Tersariol, Renata Ozelami Vilas Boas, David Aciole Barbosa, Tiago Rodrigues, Emanuel Maltempi de Souza, Fabiano Bezerra Menegidio, Yara Natércia Lima Faustino de Maria, Adrian R. Walmsley, Vinícius Manganaro Farnézio, Marcelo Müller-Santos, Valquíria C. Alencar, Luiz R. Nunes, Alex Tramontin Almeida, and Daniela L. Jabes

Subjects

0301 basic medicine, QH301-705.5, 030106 microbiology, Zymomonas mobilis, Catalysis, Article, Inorganic Chemistry, N2 fixation, 03 medical and health sciences, chemistry.chemical_compound, Lactones, Nitrogen Fixation, Homoserine, ethanol production, Ethanol fuel, Physical and Theoretical Chemistry, Biology (General), Molecular Biology, QD1-999, Spectroscopy, Zymomonas, biology, Ethanol, Organic Chemistry, AI-2, Biofilm, quorum sensing, General Medicine, biology.organism_classification, Computer Science Applications, Autoinducer-2, Cell biology, Quorum sensing, Chemistry, 030104 developmental biology, chemistry, Nitrogen fixation, Autoinducer, transcriptome, Bacteria

Abstract

Autoinducer 2 (or AI-2) is one of the molecules used by bacteria to trigger the Quorum Sensing (QS) response, which activates expression of genes involved in a series of alternative mechanisms, when cells reach high population densities (including bioluminescence, motility, biofilm formation, stress resistance, and production of public goods, or pathogenicity factors, among others). Contrary to most autoinducers, AI-2 can induce QS responses in both Gram-negative and Gram-positive bacteria, and has been suggested to constitute a trans-specific system of bacterial communication, capable of affecting even bacteria that cannot produce this autoinducer. In this work, we demonstrate that the ethanologenic Gram-negative bacterium Zymomonas mobilis (a non-AI-2 producer) responds to exogenous AI-2 by modulating expression of genes involved in mechanisms typically associated with QS in other bacteria, such as motility, DNA repair, and nitrogen fixation. Interestingly, the metabolism of AI-2-induced Z. mobilis cells seems to favor ethanol production over biomass accumulation, probably as an adaptation to the high-energy demand of N2 fixation. This opens the possibility of employing AI-2 during the industrial production of second-generation ethanol, as a way to boost N2 fixation by these bacteria, which could reduce costs associated with the use of nitrogen-based fertilizers, without compromising ethanol production in industrial plants.

Published

2021

39. Epigenetic Modification Suppresses PKCα Expression in Epithelial Cancers

Author

Adrian R. Black, Mustafa Albahrani, Jennifer L. Black, Xinyue Li, Adam R. Karpf, and Tim H M Huang

Subjects

Expression (architecture), Genetics, Cancer research, Epigenetics, Biology, Molecular Biology, Biochemistry, Biotechnology

Published

2021

40. The emerging structural complexity of G-quadruplex RNAs

Author

Adrian R. Ferré-D'Amaré and Michael T. Banco

Subjects

Guanine, Stereochemistry, Aptamer, Stacking, Complement C5a, Review, Biology, G-quadruplex, 03 medical and health sciences, chemistry.chemical_compound, Fragile X Mental Retardation Protein, Humans, Nucleotide, Molecular Biology, Base Pairing, 030304 developmental biology, Sequence (medicine), Fluorescent Dyes, chemistry.chemical_classification, 0303 health sciences, Binding Sites, Base Sequence, 030302 biochemistry & molecular biology, RNA, Stereoisomerism, Aptamers, Nucleotide, G-Quadruplexes, chemistry, Nucleic acid, Protein Binding

Abstract

G-quadruplexes (G4s) are four-stranded nucleic acid structures that arise from the stacking of G-quartets, cyclic arrangements of four guanines engaged in Hoogsteen base-pairing. Until recently, most RNA G4 structures were thought to conform to a sequence pattern in which guanines stacking within the G4 would also be contiguous in sequence (e.g., four successive guanine trinucleotide tracts separated by loop nucleotides). Such a sequence restriction, and the stereochemical constraints inherent to RNA (arising, in particular, from the presence of the 2′-OH), dictate relatively simple RNA G4 structures. Recent crystallographic and solution NMR structure determinations of a number of in vitro selected RNA aptamers have revealed RNA G4 structures of unprecedented complexity. Structures of the Sc1 aptamer that binds an RGG peptide from the Fragile-X mental retardation protein, various fluorescence turn-on aptamers (Corn, Mango, and Spinach), and the spiegelmer that binds the complement protein C5a, in particular, reveal complexity hitherto unsuspected in RNA G4s, including nucleotides in syn conformation, locally inverted strand polarity, and nucleotide quartets that are not all-G. Common to these new structures, the sequences folding into G4s do not conform to the requirement that guanine stacks arise from consecutive (contiguous in sequence) nucleotides. This review highlights how emancipation from this constraint drastically expands the structural possibilities of RNA G-quadruplexes.

Published

2021

41. Identification of slit3 as a locus affecting nicotine preference in zebrafish and human smoking behaviour

Author

Elisabeth M. Busch-Nentwich, Judit García-González, Matthew O. Parker, Adrian R. Martineau, Riva J Riley, Teemu Palviainen, Muy-Teck Teh, Ari Sudwarts, Caroline H. Brennan, Valerie Kuan, David A. Jolliffe, Jaakko Kaprio, Robert Walton, Alistair J. Brock, Derek L. Stemple, García-González, Judit [0000-0001-6245-740X], Parker, Matthew O [0000-0002-7172-5231], Riley, Riva J [0000-0001-5708-7424], Teh, Muy-Teck [0000-0002-7725-8355], Busch-Nentwich, Elisabeth M [0000-0001-6450-744X], Stemple, Derek L [0000-0002-8296-9928], Martineau, Adrian R [0000-0001-5387-1721], Kaprio, Jaakko [0000-0002-3716-2455], Palviainen, Teemu [0000-0002-7847-8384], Kuan, Valerie [0000-0001-7873-6972], Walton, Robert T [0000-0001-7700-1907], Brennan, Caroline H [0000-0002-4169-4083], Apollo - University of Cambridge Repository, Institute for Molecular Medicine Finland, Department of Public Health, Helsinki Institute of Life Science HiLIFE, Faculty of Medicine, University of Helsinki, Genetic Epidemiology, and HUS Helsinki and Uusimaa Hospital District

Subjects

0301 basic medicine, Male, Mutant, Conditioning, Classical, Choice Behavior, Nicotine, acoustic startle, neuroscience, 0302 clinical medicine, Wellcome Trust, Biology (General), Zebrafish, media_common, GENE-EXPRESSION, Genetics, DOPAMINE D-1, 0303 health sciences, education.field_of_study, biology, DANIO-RERIO, General Neuroscience, Dopaminergic, Intracellular Signaling Peptides and Proteins, General Medicine, gene association, conditioned place preference, MRC, WT 110284/Z/15/Z, medicine.anatomical_structure, 5-HT1A RECEPTOR, Dopaminergic pathways, embryonic structures, Receptor, Serotonin, 5-HT1A, Medicine, Female, Amisulpride, medicine.drug, Research Article, G1000403, QH301-705.5, media_common.quotation_subject, Science, Population, Locus (genetics), Serotonergic, PREPULSE INHIBITION, MICE LACKING, Polymorphism, Single Nucleotide, General Biochemistry, Genetics and Molecular Biology, smoking, 03 medical and health sciences, medicine, Tobacco Smoking, Animals, Humans, Allele, education, Biology, Bupropion, 030304 developmental biology, SPATIOTEMPORAL EXPRESSION, General Immunology and Microbiology, Addiction, RCUK, Membrane Proteins, Zebrafish Proteins, biology.organism_classification, Conditioned place preference, 030104 developmental biology, slit3, Genetic marker, Genetic Loci, VITAMIN-D-3 SUPPLEMENTATION, Mutation, 3111 Biomedicine, 030217 neurology & neurosurgery, Genetic screen

Abstract

BACKGROUND: Although there is clear evidence of genetic contributions to susceptibility to nicotine addiction, it has proved difficult to identify causal alleles and pathways from studies in humans. Mutagenesis in model species generates strong phenotypes not present in wildtype populations and can be used to identify biological mechanisms underlying quantifiable behaviours. We tested the hypothesis that a forward genetic screen for nicotine preference in zebrafish can predict loci and biological mechanisms influencing human smoking behaviour. METHODS: A population-based forward genetic screen of ethylnitrosurea- mutagenized zebrafish was used to identify lines of fish showing altered nicotine preference. Immunohistochemical, behavioral and quantitative PCR analyses were used to characterize mutant larvae. Focussed SNP analysis of the homologous human locus in cohorts from the UK and a Finnish Twin study assessed the predictive validity of the zebrafish data for human smoking behavior. RESULTS: We show nicotine preference is heritable in fish as in humans and identify loss-of-function mutations in the zebrafish Slit3 gene as associated with increased nicotine preference. Slit3 mutant larval fish showed altered sensitivity of habituation to acoustic startle to dopaminergic antagonists and increased Drd2 and Drd3 mRNA expression. Dopaminergic neuronal pathfinding was unaffected. Analysis of the SLIT3 locus in two independent human cohorts identified 2 genetic markers that predict level of cigarette consumption and likelihood of cessation. CONCLUSION: These findings suggest a role for SLIT3 signaling in development of dopaminergic pathways affecting behaviours associated with nicotine dependence and confirm the translational relevance of the zebrafish model in exploring complex human behaviors.

Published

2020

42. Genomic epidemiology of Mycobacterium bovis infection in sympatric badger and cattle populations in Northern Ireland

Author

Joseph Crispell, Roland Harwood, Fraser Menzies, Jimena Guerrero, Paul R. McAdam, Robin A. Skuce, John Lavery, S. Thompson, Pepler Pt, Roman Biek, Andrew W. Byrne, Jordon Graham, Liliana C. M. Salvador, Rowland R. Kao, Trimble N, Wright L, Katarina Oravcova, Eleanor Presho, Adrian R. Allen, Akhmetova A, and du Plessis L

Subjects

Badger, Population, Context (language use), bovine tuberculosis, genome sequencing, transmission dynamics, law.invention, Coalescent theory, law, biology.animal, Animals, education, Northern Ireland/epidemiology, education.field_of_study, Genetic diversity, Mycobacterium bovis, biology, General Medicine, Genomics, biology.organism_classification, Mycobacterium bovis/genetics, Transmission (mechanics), Evolutionary biology, Tuberculosis, Bovine/microbiology, Genetic structure, Mustelidae/microbiology, Cattle

Abstract

Bovine tuberculosis (bTB) is a costly, epidemiologically complex, multi-host, endemic disease. Lack of understanding of transmission dynamics may undermine eradication efforts. Pathogen whole-genome sequencing improves epidemiological inferences, providing a means to determine the relative importance of inter- and intra-species host transmission for disease persistence. We sequenced an exceptional data set of 619 Mycobacterium bovis isolates from badgers and cattle in a 100 km2 bTB 'hotspot' in Northern Ireland. Historical molecular subtyping data permitted the targeting of an endemic pathogen lineage, whose long-term persistence provided a unique opportunity to study disease transmission dynamics in unparalleled detail. Additionally, to assess whether badger population genetic structure was associated with the spatial distribution of pathogen genetic diversity, we microsatellite genotyped hair samples from 769 badgers trapped in this area. Birth death models and TransPhylo analyses indicated that cattle were likely driving the local epidemic, with transmission from cattle to badgers being more common than badger to cattle. Furthermore, the presence of significant badger population genetic structure in the landscape was not associated with the spatial distribution of M. bovis genetic diversity, suggesting that badger-to-badger transmission is not playing a major role in transmission dynamics. Our data were consistent with badgers playing a smaller role in transmission of M. bovis infection in this study site, compared to cattle. We hypothesize, however, that this minor role may still be important for persistence. Comparison to other areas suggests that M. bovis transmission dynamics are likely to be context dependent, with the role of wildlife being difficult to generalize., Microbial Genomics, 9 (5), ISSN:2057-5858

Published

2021

43. Epidemiology of Bovine Tuberculosis and Its Zoonotic Implication in Addis Ababa Milkshed, Central Ethiopia

Author

Begna Tulu, Aboma Zewede, Mulugeta Belay, Miserach Zeleke, Mussie Girma, Metasebia Tegegn, Fozia Ibrahim, David A. Jolliffe, Markos Abebe, Taye Tolera Balcha, Balako Gumi, Henny M. Martineau, Adrian R. Martineau, and Gobena Ameni

Subjects

Veterinary medicine, medicine.medical_specialty, 040301 veterinary sciences, Prevalence, Tuberculin, Biology, Logistic regression, 0403 veterinary science, 03 medical and health sciences, Epidemiology, medicine, bovine tuberculosis, Original Research, 0303 health sciences, Mycobacterium bovis, lcsh:Veterinary medicine, spoligotyping, General Veterinary, 030306 microbiology, Transmission (medicine), Addis Ababa milkshed, 04 agricultural and veterinary sciences, farm management, biology.organism_classification, Breed, Herd, lcsh:SF600-1100, Veterinary Science, zoonotic implication

Abstract

Bovine tuberculosis (bTB) continues to be one of the most widely distributed chronic infectious diseases of zoonotic importance, which causes a significant economic loss in animal production. A cross-sectional study was conducted to estimate the prevalence of bTB and its associated risk factors and type the Mycobacterium bovis isolated in central Ethiopia. A total of 65 dairy farms and 654 cattle were tested for bTB using a single intradermal comparative cervical tuberculin (SICCT) test. Data on farm management, animal-related characteristics, and the owner's knowledge of the zoonotic importance of bTB were collected using a structured questionnaire. In addition, a total of 16 animals from different farms were identified for postmortem examination. Lowenstein Jensen (LJ) culture was also conducted, and spoligotyping was used to type the M. bovis strains isolated. Chi-square test and logistic regression models were used to analyze the herd- and animal-level risk factors. Herd- and animal-level prevalence rates of bTB were 58.5% (95% CI: 46.2%−69.2%) and 39.3% (95% CI: 35.5%−43.5%), respectively. At the herd level, poor farm management was the predictor for bTB positivity (p < 0.05). Animal breed, poor BCS, farm type, and poor farm management conditions were significant predictors of bTB positivity (p < 0.05) at an individual animal level. All animals identified for postmortem examination were found to have gross TB-like lesions. A total of 14 M. bovis strains were identified from 12 animals that were positive for LJ culture. The strain with the largest number of clusters (five isolates) was SB1176, followed by SB0134 (three isolates), SB0192 (two isolates), and SB2233 (two isolates), and two new strains, each consisting of only one isolate. The majority (58.5%) of the respondents did not know the zoonotic importance of bTB. The result of this study showed a high prevalence of bTB in the Addis Ababa milkshed and a low level of consciousness of the owners on its transmission to humans. Therefore, the launching of acceptable control measures of bTB and the creation of public awareness about its zoonotic transmission and prevention measures are required.

Published

2021

44. Pathogenesis and Immunology of Tuberculosis

Author

Delia Goletti and Adrian R. Martineau

Subjects

Tuberculosis, biology, Latent tuberculosis, business.industry, Disease, medicine.disease, biology.organism_classification, Acquired immune system, Mycobacterium tuberculosis, Immune system, Infectious disease (medical specialty), Granuloma, Immunology, medicine, business

Abstract

Tuberculosis (TB) is still a worldwide spread infectious disease caused by Mycobacterium tuberculosis which is transmitted through bacilli-containing aerosol droplets which are released from diseased persons, typically through sneezing or coughing. The World Health Organization (WHO) in 2018 estimated 10 million new TB cases worldwide that led to 1.5 million deaths, thus ranking TB as the main cause of mortality from a single pathogen. In this chapter, we briefly describe the immune pathogenesis of the infection and disease of tuberculosis. We provide insights on the importance of the innate and adaptive immunity and on the granuloma structure and functions. We also describe latent tuberculosis infection (LTBI) and the routine immune-based tests used to detect it. The accuracy issues of these tests to predict active TB development are discussed. Evaluation of potential microbiological biomarkers of latent M. tuberculosis infection is described as in process.

Published

2021

45. Towards a Combined Therapy for Spinal Muscular Atrophy Based on Opposing Effects of an Antisense Oligonucleotide on Chromatin and Splicing

Author

Adrian R. Krainer, Gwendal Dujardin, Rui Sousa-Luís, Tomoki Nomakuchi, José Stigliano, Alberto R. Kornblihtt, Nick J. Proudfoot, Luciano Marasco, and Ying Hsiu Liu

Subjects

History, Polymers and Plastics, biology, medicine.drug_class, Histone deacetylase inhibitor, Alternative splicing, Spinal muscular atrophy, SMN1, medicine.disease, Industrial and Manufacturing Engineering, nervous system diseases, Chromatin, Cell biology, Exon, Histone, medicine, biology.protein, Nusinersen, Business and International Management

Abstract

Spinal Muscular Atrophy (SMA) is a motor-neuron disease caused by mutations of the SMN1 gene. The human paralog SMN2, whose exon 7 (E7) is predominantly skipped cannot compensate for the lack of SMN1. Nusinersen is an antisense oligonucleotide that upregulates E7 inclusion and SMN protein levels by displacing the splicing repressors hnRNPA1/A2 from their target site in intron 7. We show that, by promoting transcriptional elongation, the histone deacetylase inhibitor VPA cooperates with nusinersen to promote E7 inclusion. Surprisingly, nusinersen promotes the deployment of the silencing histone mark H3K9me2 on the SMN2 gene, creating a roadblock to PolII elongation that inhibits E7 inclusion. By removing the roadblock, VPA counteracts the undesired chromatin effects of nusinersen, resulting in higher E7 inclusion, without large pleiotropic effects, as assessed by genome-wide analyses. Combined administration of nusinersen and VPA in SMA mice strongly synergized in SMN expression, growth, survival, and neuromuscular function.

Published

2021

46. Building resilience to mosquito-borne diseases in the Caribbean

Author

Anna M. Stewart-Ibarra, Adrian R. Trotman, Laura-Lee G. Boodram, Rachel Lowe, Mercy J. Borbor-Cordova, Sadie J. Ryan, Cedric J. Van Meerbeeck, and Roché Mahon

Subjects

Atmospheric Science, Viral Diseases, 010504 meteorology & atmospheric sciences, Epidemiology, Disease Vectors, 01 natural sciences, Geographical locations, Dengue Fever, Disease Outbreaks, 0302 clinical medicine, Medical Conditions, Medicine and Health Sciences, Public and Occupational Health, 030212 general & internal medicine, Biology (General), Health Systems Strengthening, Disease Resistance, Climatology, General Neuroscience, Health Policy, Droughts, Infectious Diseases, Caribbean Region, Public Health, General Agricultural and Biological Sciences, Neglected Tropical Diseases, medicine.medical_specialty, Essay, QH301-705.5, Climate Change, Climate change, Vector Borne Diseases, Population health, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Caribbean region, medicine, Animals, Humans, Human resources, Environmental planning, 0105 earth and related environmental sciences, Sustainable development, Caribbean, Health Care Policy, General Immunology and Microbiology, Drought, business.industry, Public health, Ecology and Environmental Sciences, Tropical Diseases, Data sharing, Health Care, Medical Risk Factors, North America, Earth Sciences, Small Island Developing States, People and places, business

Abstract

Small island developing states in the Caribbean are among the most vulnerable countries on the planet to climate variability and climate change. In the last 3 decades, the Caribbean region has undergone frequent and intense heat waves, storms, floods, and droughts. This has had a detrimental impact on population health and well-being, including an increase in infectious disease outbreaks. Recent advances in climate science have enhanced our ability to anticipate hydrometeorological hazards and associated public health challenges. Here, we discuss progress towards bridging the gap between climate science and public health decision-making in the Caribbean to build health system resilience to extreme climatic events. We focus on the development of climate services to help manage mosquito-transmitted disease epidemics. There are numerous areas of ongoing biological research aimed at better understanding the direct and indirect impacts of climate change on the transmission of mosquito-borne diseases. Here, we emphasise additional factors that affect our ability to operationalise this biological understanding. We highlight a lack of financial resources, technical expertise, data sharing, and formalised partnerships between climate and health communities as major limiting factors to developing sustainable climate services for health. Recommendations include investing in integrated climate, health and mosquito surveillance systems, building regional and local human resource capacities, and designing national and regional cross-sectoral policies and national action plans. This will contribute towards achieving the Sustainable Development Goals (SDGs) and maximising regional development partnerships and co-benefits for improved health and well-being in the Caribbean., This Perspective article discusses progress towards bridging the gap between climate science and public health decision-making, highlighting the importance of multi-institutional and interdisciplinary collaborations to develop early warning systems for arboviral diseases in the Caribbean.

Published

2020

47. Development of polymorphic markers in the immune gene complex loci of cattle

Author

Jennifer C McClure, Derek M. Bickhart, John B. Cole, Juliana Young, K Bakshy, Robin A. Skuce, Daniel J. Null, Timothy P. L. Smith, Elizabeth Glass, Samantha Wilkinson, Dorothea Heimeier, John A. Hammond, Adrian R. Allen, and John C. Schwartz

Subjects

Male, Receptor complex, Genotype, Single-nucleotide polymorphism, Genome-wide association study, Computational biology, Antigen-Antibody Complex, Biology, Genome, Polymorphism, Single Nucleotide, marker selection bovine tuberculosis, Genetics, Animals, bovine tuberculosis, Genotyping, marker selection, major histocompatibility complex class, Haplotype, Genomics, Genetic marker, Animal Science and Zoology, Cattle, Female, Food Science, Reference genome, Genome-Wide Association Study

Abstract

The addition of cattle health and immunity traits to genomic selection indices holds promise to increase individual animal longevity and productivity, and decrease economic losses from disease. However, highly variable genomic loci that contain multiple immune-related genes were poorly assembled in the first iterations of the cattle reference genome assembly and underrepresented during the development of most commercial genotyping platforms. As a consequence, there is a paucity of genetic markers within these loci that may track haplotypes related to disease susceptibility. By using hierarchical assembly of bacterial artificial chromosome inserts spanning 3 of these immune-related gene regions, we were able to assemble multiple full-length haplotypes of the major histocompatibility complex, the leukocyte receptor complex, and the natural killer cell complex. Using these new assemblies and the recently released ARS-UCD1.2 reference, we aligned whole-genome shotgun reads from 125 sequenced Holstein bulls to discover candidate variants for genetic marker development. We selected 124 SNPs, using heuristic and statistical models to develop a custom genotyping panel. In a proof-of-principle study, we used this custom panel to genotype 1,797 Holstein cows exposed to bovine tuberculosis (bTB) that were the subject of a previous GWAS study using the Illumina BovineHD array. Although we did not identify any significant association of bTB phenotypes with these new genetic markers, 2 markers exhibited substantial effects on bTB phenotypic prediction. The models and parameters trained in this study serve as a guide for future marker discovery surveys particularly in previously unassembled regions of the cattle genome.

Published

2020

48. Original publication: Low serum 25‐hydroxyvitamin D (25[OH]D) levels in patients hospitalized with COVID‐19 are associated with greater disease severity

Author

James Macfarlane, Donna Kelly, Yasir Ihsan, Grigorios Panagiotou, Waseem Athar, Gabriella Marchitelli, Su Ann Tee, Christopher S. Boot, Graham Burns, Nadia Stock, Adrian R. Martineau, and Richard Quinton

Subjects

medicine.medical_specialty, Coronavirus disease 2019 (COVID-19), Endocrinology, Diabetes and Metabolism, Pneumonia, Viral, Betacoronavirus, Endocrinology, Disease severity, Internal medicine, Pandemic, medicine, Vitamin D and neurology, Humans, In patient, Vitamin D, Serum 25 hydroxyvitamin d, Pandemics, Letter to the Editor, biology, SARS-CoV-2, business.industry, COVID-19, biology.organism_classification, medicine.disease, Pneumonia, Immunology, Coronavirus Infections, business

Published

2020

49. Vitamin D for COVID-19: a case to answer?

Author

Nita G. Forouhi and Adrian R. Martineau

Subjects

2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), Endocrinology, Diabetes and Metabolism, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Pneumonia, Viral, Article, Betacoronavirus, Endocrinology, Pandemic, Internal Medicine, Vitamin D and neurology, Medicine, Humans, Vitamin D, Pandemics, biology, business.industry, SARS-CoV-2, COVID-19, Vitamina d, biology.organism_classification, medicine.disease, Virology, Pneumonia, Dietary Supplements, business, Coronavirus Infections

Published

2020

50. Zeptomole per milliliter detection and quantification of edema factor in plasma by LC-MS/MS yields insights into toxemia and the progression of inhalation anthrax

Author

Conrad P. Quinn, John R. Barr, Jason M. Goldstein, Adrian R. Woolfitt, Maribel Gallegos-Candela, Clinton E. Leysath, Alex R. Hoffmaster, Judith O. Brumlow, Zhaochun Chen, Anne E. Boyer, Stephen H. Leppla, Zsuzsanna Kuklenyik, Renato C. Lins, and Dennis A. Bagarozzi

Subjects

medicine.drug_class, Anthrax toxin, Bacterial Toxins, Toxemia, Enzyme-Linked Immunosorbent Assay, 02 engineering and technology, Monoclonal antibody, Polymerase Chain Reaction, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, Anthrax, Adenylyl cyclase, chemistry.chemical_compound, Adenosine Triphosphate, Limit of Detection, Tandem Mass Spectrometry, Cyclic AMP, medicine, Animals, Humans, Respiratory Tract Infections, Chromatography, High Pressure Liquid, Antigens, Bacterial, biology, Inhalation, 010401 analytical chemistry, Liter, 021001 nanoscience & nanotechnology, biology.organism_classification, Macaca mulatta, Molecular biology, Orders of magnitude (mass), 0104 chemical sciences, Bacillus anthracis, chemistry, Case-Control Studies, Disease Progression, 0210 nano-technology, Adenosine triphosphate

Abstract

Inhalation of Bacillus anthracis spores can cause a rapidly progressing fatal infection. B. anthracis secretes three protein toxins: lethal factor (LF), edema factor (EF), and protective antigen (PA). EF and LF may circulate as free or PA-bound forms. Both free EF (EF) and PA-bound-EF (ETx) have adenylyl cyclase activity converting ATP to cAMP. We developed an adenylyl cyclase activity-based method for detecting and quantifying total EF (EF+ETx) in plasma. The three-step method includes magnetic immunocapture with monoclonal antibodies, reaction with ATP generating cAMP, and quantification of cAMP by isotope-dilution HPLC-MS/MS. Total EF was quantified from 5PL regression of cAMP vs ETx concentration. The detection limit was 20 fg/mL (225 zeptomoles/mL for the 89 kDa protein). Relative standard deviations for controls with 0.3, 6.0, and 90 pg/mL were 11.7–16.6% with 91.2–99.5% accuracy. The method demonstrated 100% specificity in 238 human serum/plasma samples collected from unexposed healthy individuals, and 100% sensitivity in samples from 3 human and 5 rhesus macaques with inhalation anthrax. Analysis of EF in the rhesus macaques showed that it was detected earlier post-exposure than B. anthracis by culture and PCR. Similar to LF, the kinetics of EF over the course of infection were triphasic, with an initial rise (phase-1), decline (phase-2), and final rapid rise (phase-3). EF levels were ~ 2–4 orders of magnitude lower than LF during phase-1 and phase-2 and only ~ 6-fold lower at death/euthanasia. Analysis of EF improves early diagnosis and adds to our understanding of anthrax toxemia throughout infection. The LF/EF ratio may also indicate the stage of infection and need for advanced treatments.

Published

2019