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2. Widespread exposure to SARS-CoV-2 in wildlife communities

Author

Amanda R. Goldberg, Kate E. Langwig, Katherine L. Brown, Jeffrey M. Marano, Pallavi Rai, Kelsie M. King, Amanda K. Sharp, Alessandro Ceci, Christopher D. Kailing, Macy J. Kailing, Russell Briggs, Matthew G. Urbano, Clinton Roby, Anne M. Brown, James Weger-Lucarelli, Carla V. Finkielstein, and Joseph R. Hoyt

Subjects
Science
Abstract

Abstract Pervasive SARS-CoV-2 infections in humans have led to multiple transmission events to animals. While SARS-CoV-2 has a potential broad wildlife host range, most documented infections have been in captive animals and a single wildlife species, the white-tailed deer. The full extent of SARS-CoV-2 exposure among wildlife communities and the factors that influence wildlife transmission risk remain unknown. We sampled 23 species of wildlife for SARS-CoV-2 and examined the effects of urbanization and human use on seropositivity. Here, we document positive detections of SARS-CoV-2 RNA in six species, including the deer mouse, Virginia opossum, raccoon, groundhog, Eastern cottontail, and Eastern red bat between May 2022–September 2023 across Virginia and Washington, D.C., USA. In addition, we found that sites with high human activity had three times higher seroprevalence than low human-use areas. We obtained SARS-CoV-2 genomic sequences from nine individuals of six species which were assigned to seven Pango lineages of the Omicron variant. The close match to variants circulating in humans at the time suggests at least seven recent human-to-animal transmission events. Our data support that exposure to SARS-CoV-2 has been widespread in wildlife communities and suggests that areas with high human activity may serve as points of contact for cross-species transmission.

Published
2024
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3. Synthesis, testing, and computational modeling of pleuromutilin 1,2,3-triazole derivatives in the ribosome

Author

Logan M. Breiner, Anthony J. Briganti, Jennifer P. McCord, Moriah E. Heifetz, Sophia Y. Philbrook, Carla Slebodnick, Anne M. Brown, and Andrew N. Lowell

Subjects
Ribosome, Antibiotics, Pleuromutilin, Click-chemistry, In silico modeling, Molecular docking, Organic chemistry, QD241-441
Abstract

Pleuromutilin antimicrobials have given rise to the most recently FDA approved class of antibiotics for systemic human use. In this work, we describe a synthesis, assay, modeling approach to pleuromutilin development for the highly complex bacterial ribosome. Libraries of substituted 1,2,3-triazole derivatives were synthesized at the pleuromutilin C20 position by applying a recent anti-Markovnikov hydroazidation protocol to directly install an azido group, and at the C22 position through established methods. To learn about the interactions of these libraries with the ribosome and assess the potential for subsequent derivatization, an unbiased computational modeling method was used to biochemically rationalize binding modes of the C20 and C22 pleuromutilin derivatives. A pattern emerged where the triazole and its pendant chain, be it off the C20 or C22 position, moved to occupy the space vacated by the C22 sulfide group of clinical pleuromutilin compounds. Subsequent activity testing and comparative ranking of the computationally docked derivatives to the in vitro activity results showed a high predictability rating for the C22 substituted compounds. These combined investigations reveal potential restrictions and sites for expansion, paving the way for the development of future pleuromutilin derivates and other ribosome targeting antibiotics.

Published
2022
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4. An Interdisciplinary Approach to Experiential Learning in Cyberbiosecurity and Agriculture through Workforce Development

Author

Kellie Johnson, Tiffany Drape, Joseph Oakes, Joseph Simpson, Anne M. Brown, and Donna Westfall-Rudd

Abstract

Cyberbiosecurity and workforce development in agriculture and the life sciences (ALS) is a growing area of need in the curriculum in higher education. Students that pursue majors related to ALS often do not include training in cyber-related concepts or expose the 'hidden curriculum' of seeking internships and jobs. Exposing students through workforce development training and hands-on engagement with industry professionals can provide learning opportunities to bridge the two and is an area of growth and demand as the workforce evolves. The objectives of this work were (1) to learn key concepts in cybersecurity, including data security, visualization, and analysis, to name a few, through class activities and engagement with professional partners and (2) to understand what knowledge students gained from participating in the course could transfer over for when they enter the workforce. Three themes emerged from the study where students, through direct engagement with industry partners, gained more insight about the industry applicable to their studies; they established work environment expectations for entering internships and official job placements and established ways in which the workforce development training informed their future careers.

Published
2024

5. Development and Feasibility of an Online Brief Emotion Regulation Training (BERT) Program for Emerging Adults

Author

Alyssa Jo Gatto, Truitt J. Elliott, Jonathan S. Briganti, Michael J. Stamper, Nathaniel D. Porter, Anne M. Brown, Samantha M. Harden, Lee D. Cooper, and Julie C. Dunsmore

Subjects
emotion regulation, emerging adults, technology, intervention, implementation science, Public aspects of medicine, RA1-1270
Abstract

Mental wellness is a critical component of healthy development in emerging adulthood and serves to protect against stress and promote resilience against psychopathology. Emotion regulation is a key mechanism for effective prevention because of its role in socio-emotional competence and its transdiagnostic significance for psychopathology. In this feasibility study, a brief, time and cost-effective emotion regulation training program for emerging adults (BERT) was developed and tested using the RE-AIM framework. Importantly, building interventions within the context of an implementation framework, such as the RE-AIM framework, enhances the chances that an intervention will be able to scale out and scale up. First, the brainwriting premortem method was utilized to refine program content, conducting focus groups a priori to identify potential program failures prior to program implementation. Undergraduate students (n = 12) attended four focus groups presenting initial program content. Four clinicians were also interviewed to determine program barriers. Qualitative analyses aggregated participant feedback to identify compliments, changes, and concerns about BERT and critical feedback was immediately implemented prior to initial testing. BERT was rooted in cognitive-behavioral practices and informed by the Gross model of emotion regulation. The 5-week program was then examined in a college sample (N = 42) to evaluate implementation (low attrition, high content engagement, favorable attitudes, low incidence of technical errors, costs), reach (enrollment and completion demographics comparable to the population in which recruitment took place), and efficacy (positive change in emotion regulation pre- to post-program). Of the recruited participants, 36 remained in the study where 27 completed at least 80% of program content. Repeated-measures ANOVAs exhibited significant improvements in emotion regulation, psychological distress, and negative affectivity, suggesting promising initial efficacy. Initial data provide support for feasibility and a future randomized control trial. BERT has potential significance for promoting healthy development as its brief electronic format reduced barriers and the program development process incorporated stakeholder feedback at multiple levels to inform better implementation and dissemination.

Published
2022
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6. Characterization and Validation of Arg286 Residue of IL-1RAcP as a Potential Drug Target for Osteoarthritis

Author

Angela Dailing, Kelsey Mitchell, Ngoc Vuong, Kyung Hyeon Lee, Reva Joshi, Virginia Espina, Amanda Haymond Still, Carter J. Gottschalk, Anne M. Brown, Mikell Paige, Lance A. Liotta, and Alessandra Luchini

Subjects
molecular dynamics, molecular modeling, protein painting, peptide, targeted inhibitors, Chemistry, QD1-999
Abstract

Osteoarthritis (OA) is the most common form of arthritis and the fastest growing cause of chronic disability in the world. Formation of the ternary IL-1β /IL-1R1/IL-1RAcP protein complex and its downstream signaling has been implicated in osteoarthritis pathology. Current OA therapeutic approaches target either the cytokine IL-1β or the primary receptor IL-1RI but do not exploit the potential of the secondary receptor IL-1RAcP. Our previous work implicated the Arg286 residue of IL-1RAcP as a key mediator of complex formation. Molecular modeling confirmed Arg286 as a high-energy mediator of the ternary IL-1β complex architecture and interaction network. Anti-IL-1RAcP monoclonal antibodies (mAb) targeting the Arg286 residue were created and were shown to effectively reduce the influx of inflammatory cells to damaged joints in a mouse model of osteoarthritis. Inhibitory peptides based on the native sequence of IL-1RAcP were prepared and examined for efficacy at disrupting the complex formation. The most potent peptide inhibitor had an IC50 value of 304 pM in a pull-down model of complex formation, and reduced IL-1β signaling in a cell model by 90% at 2 μM. Overall, therapies that target the Arg286 region surface of IL-1RAcP, and disrupt subsequent interactions with subunits, have the potential to serve as next generation treatments for osteoarthritis.

Published
2021
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7. Finding What Is Inaccessible: Antimicrobial Resistance Language Use among the One Health Domains

Author

Lauren L. Wind, Jonathan S. Briganti, Anne M. Brown, Timothy P. Neher, Meghan F. Davis, Lisa M. Durso, Tanner Spicer, and Stephanie Lansing

Subjects
one health, antimicrobial resistance, antibiotic resistance, human, animal, environment, Therapeutics. Pharmacology, RM1-950
Abstract

The success of a One Health approach to combating antimicrobial resistance (AMR) requires effective data sharing across the three One Health domains (human, animal, and environment). To investigate if there are differences in language use across the One Health domains, we examined the peer-reviewed literature using a combination of text data mining and natural language processing techniques on 20,000 open-access articles related to AMR and One Health. Evaluating AMR key term frequency from the European PubMed Collection published between 1990 and 2019 showed distinct AMR language usage within each domain and incongruent language usage across domains, with significant differences in key term usage frequencies when articles were grouped by the One Health sub-specialties (2-way ANOVA; p < 0.001). Over the 29-year period, “antibiotic resistance” and “AR” were used 18 times more than “antimicrobial resistance” and “AMR”. The discord of language use across One Health potentially weakens the effectiveness of interdisciplinary research by creating accessibility issues for researchers using search engines. This research was the first to quantify this disparate language use within One Health, which inhibits collaboration and crosstalk between domains. We suggest the following for authors publishing AMR-related research within the One Health context: (1) increase title/abstract searchability by including both antimicrobial and antibiotic resistance related search terms; (2) include “One Health” in the title/abstract; and (3) prioritize open-access publication.

Published
2021
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8. Reviews

Author

Philip Barker, Anne M. Brown, Peter Funnell, Kate Garland, Paul Haslam, Bruce Ingraham, Ray McAleese, Peter McKenna, and Lindsay Offer

Subjects
Education
Abstract

Nowadays, in this current era of the Web, searching the Internet is probably as important (if not more so) as using conventional libraries and the facilities that they contain in order to locate sources of sought-after information. Indeed, the Internet (as an information resource) is now so important that virtually all students (both in schools and colleges) are given some exposure to it at some stage during their education. Because of its importance, there is a 'veritable multitude' of books on searching the Internet. For me, this book is a particularly attractive one because of its low cost, its scope and coverage and, most importantly, the style in which it is written.

Published
2000
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10. Piloting a Community of Student Data Consultants that Supports and Enhances Research Data Services

Author

Jonathan S Briganti, Andrea Ogier, and Anne M. Brown

Subjects
Bibliography. Library science. Information resources
Abstract

Research ecosystems within university environments are continuously evolving and requiring more resources and domain specialists to assist with the data lifecycle. Typically, academic researchers and professionals are overcommitted, making it challenging to be up-to-date on recent developments in best practices of data management, curation, transformation, analysis, and visualization. Recently, research groups, university core centers, and Libraries are revitalizing these services to fill in the gaps to aid researchers in finding new tools and approaches to make their work more impactful, sustainable, and replicable. In this paper, we report on a student consultation program built within the University Libraries, that takes an innovative, student-centered approach to meeting the research data needs in a university environment while also providing students with experiential learning opportunities. This student program, DataBridge, trains students to work in multi-disciplinary teams and as student consultants to assist faculty, staff, and students with their real-world, data-intensive research challenges. Centering DataBridge in the Libraries allows students the unique opportunity to work across all disciplines, on problems and in domains that some students may not interact with during their college careers. To encourage students from multiple disciplines to participate, we developed a scaffolded curriculum that allows students from any discipline and skill level to quickly develop the essential data science skill sets and begin contributing their own unique perspectives and specializations to the research consultations. These students, mentored by Informatics faculty in the Libraries, provide research support that can ultimately impact the entire research process. Through our pilot phase, we have found that DataBridge enhances the utilization and openness of data created through research, extends the reach and impact of the work beyond the researcher’s specialized community, and creates a network of student “data champions” across the University who see the value in working with the Library. Here, we describe the evolution of the DataBridge program and outline its unique role in both training the data stewards of the future with regard to FAIR data practices, and in contributing significant value to research projects at Virginia Tech. Ultimately, this work highlights the need for innovative, strategic programs that encourage and enable real-world experience of data curation, data analysis, and data publication for current researchers, all while training the next generation of researchers in these best practices.

Published
1970
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15. Biophysical insights into OR2T7: Investigation of a potential prognostic marker for glioblastoma

Author

Amanda K, Sharp, David, Newman, Gianna, Libonate, Mary, Borns-Stern, David R, Bevan, Anne M, Brown, and Ramu, Anandakrishnan

Subjects
Gene Expression Regulation, Neoplastic, Mitogen-Activated Protein Kinase 14, Brain Neoplasms, Biophysics, Caspase 14, Humans, Glioblastoma, Prognosis
Abstract

Glioblastoma multiforme (GBM) is the most aggressive and prevalent form of brain cancer, with an expected survival of 12-15 months following diagnosis. GBM affects the glial cells of the central nervous system, which impairs regular brain function including memory, hearing, and vision. GBM has virtually no long-term survival even with treatment, requiring novel strategies to understand disease progression. Here, we identified a somatic mutation in OR2T7, a G-protein-coupled receptor (GPCR), that correlates with reduced progression-free survival for glioblastoma (log rank p-value = 0.05), suggesting a possible role in tumor progression. The mutation, D125V, occurred in 10% of 396 glioblastoma samples in The Cancer Genome Atlas, but not in any of the 2504 DNA sequences in the 1000 Genomes Project, suggesting that the mutation may have a deleterious functional effect. In addition, transcriptome analysis showed that the p38α mitogen-activated protein kinase (MAPK), c-Fos, c-Jun, and JunB proto-oncogenes, and putative tumor suppressors RhoB and caspase-14 were underexpressed in glioblastoma samples with the D125V mutation (false discovery rate 0.05). Molecular modeling and molecular dynamics simulations have provided preliminary structural insight and indicate a dynamic helical movement network that is influenced by the membrane-embedded, cytofacial-facing residue 125, demonstrating a possible obstruction of G-protein binding on the cytofacial exposed region. We show that the mutation impacts the "open" GPCR conformation, potentially affecting G

Published
2022

17. Proteins-Structure Function and Bioinformatics

Author

Safoura Salar, Nicolas E. Ball, Hiba Baaziz, Jay C. Nix, Richard C. Sobe, K. Karl Compton, Igor B. Zhulin, Anne M. Brown, Birgit E. Scharf, and Florian D. Schubot

Subjects
ligand-binding domain, piston, Structural Biology, methyl-accepting chemotaxis protein, helical tri-modular sensor domain, scissoring, chemotaxis, transmembrane signaling, Molecular Biology, Biochemistry
Abstract

Chemotaxis is a fundamental process whereby bacteria seek out nutrient sources and avoid harmful chemicals. For the symbiotic soil bacterium Sinorhizobium meliloti, the chemotaxis system also plays an essential role in the interaction with its legume host. The chemotactic signaling cascade is initiated through interactions of an attractant or repellent compound with chemoreceptors or methyl-accepting chemotaxis proteins (MCPs). S. meliloti possesses eight chemoreceptors to mediate chemotaxis. Six of these receptors are transmembrane proteins with periplasmic ligand-binding domains (LBDs). The specific functions of McpW and McpZ are still unknown. Here, we report the crystal structure of the periplasmic domain of McpZ (McpZPD) at 2.7 angstrom resolution. McpZPD assumes a novel fold consisting of three concatenated four-helix bundle modules. Through phylogenetic analyses, we discovered that this helical tri-modular domain fold arose within the Rhizobiaceae family and is still evolving rapidly. The structure, offering a rare view of a ligand-free dimeric MCP-LBD, reveals a novel dimerization interface. Molecular dynamics calculations suggest ligand binding will induce conformational changes that result in large horizontal helix movements within the membrane-proximal domains of the McpZPD dimer that are accompanied by a 5 angstrom vertical shift of the terminal helix toward the inner cell membrane. These results suggest a mechanism of transmembrane signaling for this family of MCPs that entails both piston-type and scissoring movements. The predicted movements terminate in a conformation that closely mirrors those observed in related ligand-bound MCP-LBDs. National Science Foundation; NIH Office of the Director Published version National Science Foundation; NIH Office of the Director

Published
2023

18. The E2 glycoprotein holds key residues for Mayaro virus adaptation to the urban Aedes aegypti mosquito

Author

Ferdinand Roesch, Chelsea Cereghino, Lucia Carrau, Alexandra Hardy, Helder Ribeiro-Filho, Annabelle Henrion Lacritick, Cassandra Koh, Jeffrey Marano, Tyler Bates, Pallavi Rai, Christina Chuong, Shamima Akter, Thomas Vallet, Hervé Blanc, Truitt Elliot, Anne M. Brown, Pawel Michalak, Tanya LeRoith, Jesse Bloom, Rafael Elias Marques, Maria-Carla Saleh, Marco Vignuzzi, James Weger-Lucarelli, Virginia Tech [Blacksburg], Populations virales et Pathogenèse - Viral Populations and Pathogenesis, Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), New York University Langone Medical Center (NYU Langone Medical Center), NYU System (NYU), Centro Nacional de Pesquisa em Energia e Materiais = Brazilian Center for Research in Energy and Materials (CNPEM), Virus et Interférence ARN - Viruses and RNA Interference, George Mason University [Fairfax], Program of Genetics, Bioinformatics, and Computational Biology [Blacksburg] (GBCB), University of Haifa [Haifa], Fred Hutchinson Cancer Research Center [Seattle] (FHCRC), Howard Hughes Medical Institute [Chevy Chase] (HHMI), Howard Hughes Medical Institute (HHMI), This work was funded by the DARPA PREEMPT program administered through DARPA Cooperative Agreement HR001118S0017, this funding was awarded to M-C.S., M.V, and J.W-L. This work also received funding from Laboratoire d'Excellence Integrative Biology of Emerging Infectious Diseases (grant ANR-10-LABX-62-IBEID) to M-C.S. and M.V. Further support was provided by startup funds awarded to J.W-L by the Virginia-Maryland College of Veterinary Medicine and a grant from the One Health Research Funding Program awarded to J.W-L and P.M., and ANR-10-LABX-0062,IBEID,Integrative Biology of Emerging Infectious Diseases(2010)

Subjects
Virology, Immunology, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, Genetics, Parasitology, Molecular Biology, Microbiology
Abstract

International audience; Adaptation to mosquito vectors suited for transmission in urban settings is a major driver in the emergence of arboviruses. To better anticipate future emergence events, it is crucial to assess their potential to adapt to new vector hosts. In this work, we used two different experimental evolution approaches to study the adaptation process of an emerging alphavirus, Mayaro virus (MAYV), to Ae. aegypti, an urban mosquito vector of many other arboviruses. We identified E2-T179N as a key mutation increasing MAYV replication in insect cells and enhancing transmission after escaping the midgut of live Ae. aegypti. In contrast, this mutation decreased viral replication and binding in human fibroblasts, a primary cellular target of MAYV in humans. We also showed that MAYV E2-T179N generates reduced viremia and displays less severe tissue pathology in vivo in a mouse model. We found evidence in mouse fibroblasts that MAYV E2-T179N is less dependent on the Mxra8 receptor for replication than WT MAYV. Similarly, exogenous expression of human apolipoprotein receptor 2 and Mxra8 enhanced WT MAYV replication compared to MAYV E2-T179N. When this mutation was introduced in the closely related chikungunya virus, which has caused major outbreaks globally in the past two decades, we observed increased replication in both human and insect cells, suggesting E2 position 179 is an important determinant of alphavirus host-adaptation, although in a virus-specific manner. Collectively, these results indicate that adaptation at the T179 residue in MAYV E2 may result in increased vector competence-but coming at the cost of optimal replication in humans-and may represent a first step towards a future emergence event.Author summary: Mosquito-borne viruses must replicate in both mosquito and vertebrate hosts to be maintained in nature successfully. When viruses that are typically transmitted by forest dwelling mosquitoes enter urban environments due to deforestation or travel, they must adapt to urban mosquito vectors to transmit effectively. For mosquito-borne viruses, the need to also replicate in a vertebrate host like humans constrains this adaptation process. Towards understanding how the emerging alphavirus, Mayaro virus, might adapt to transmission by the urban mosquito vector, Ae. aegypti, we used natural evolution approaches to identify several viral mutations that impacted replication in both mosquito and vertebrate hosts. We show that a single mutation in the receptor binding domain of E2 increased transmission by Ae. aegypti after bypassing the midgut infection barrier but simultaneously reduced replication and pathology in a mouse model. Mechanistic studies suggested that this mutation decreases the dependence of MAYV on human Mxra8 and the putative MAYV receptor human ApoER2 during replication. This suggests MAYV with this mutation alone is unlikely to be maintained in a natural transmission cycle between mosquitoes and humans. Understanding the adaptive potential of emerging viruses is critical to preventing future pandemics.

Published
2023

19. Optimizing Short-format Training: an International Consensus on Effective, Inclusive, and Career-spanning Professional Development in the Life Sciences and Beyond

Author

Jason J. Williams, Rochelle E. Tractenberg, Bérénice Batut, Erin A. Becker, Anne M. Brown, Melissa L. Burke, Ben Busby, Nisha K. Cooch, Allissa A. Dillman, Samuel S. Donovan, Maria A. Doyle, Celia W.G. van Gelder, Christina R. Hall, Kate L. Hertweck, Kari L. Jordan, John R. Jungck, Ainsley R. Latour, Jessica M. Lindvall, Marta Lloret-Llinares, Gary S. McDowell, Rana Morris, Teresa Mourad, Amy Nisselle, Patricia Ordóñez, Lisanna Paladin, Patricia M. Palagi, Mahadeo A. Sukhai, Tracy K. Teal, and Louise Woodley

Abstract

Science, technology, engineering, mathematics, and medicine (STEMM) fields change rapidly and are increasingly interdisciplinary. Commonly, STEMM practitioners use short-format training (SFT) such as workshops and short courses for upskilling and reskilling, but unaddressed challenges limit SFT’s effectiveness and inclusiveness. Prior work, including the NSF 2026 Reinventing Scientific Talent proposal, called for addressing SFT challenges, and a diverse international group of experts in education, accessibility, and life sciences came together to do so. This paper describes the phenomenography and content analyses that produced a set of 14 actionable recommendations to systematically strengthen SFT. Recommendations were derived from findings in the educational sciences and the experiences of several of the largest life science SFT programs. Recommendations cover the breadth of SFT contexts and stakeholder groups and include actions for instructors (e.g., make equity and inclusion an ethical obligation), programs (e.g., centralize infrastructure for assessment and evaluation), as well as organizations and funders (e.g., professionalize training SFT instructors; deploy SFT to counter inequity). Recommendations are aligned into a purpose-built framework— “The Bicycle Principles”—that prioritizes evidenced-based teaching, inclusiveness, and equity, as well as the ability to scale, share, and sustain SFT. We also describe how the Bicycle Principles and recommendations are consistent with educational change theories and can overcome systemic barriers to delivering consistently effective, inclusive, and career-spanning SFT.SIGNIFICANCE STATEMENTSTEMM practitioners need sustained and customized professional development to keep up with innovations. Short-format training (SFT) such as workshops and short-courses are relied upon widely but have unaddressed limitations. This project generated principles and recommendations to make SFT consistently effective, inclusive, and career-spanning. Optimizing SFT could broaden participation in STEMM by preparing practitioners more equitably with transformative skills. Better SFT would also serve members of the STEMM workforce who have several decades of productivity ahead, but who may not benefit from education reforms that predominantly focus on undergraduate STEMM. The Bicycle Principles and accompanying recommendations apply to any SFT instruction and may be especially useful in rapidly evolving and multidisciplinary fields such as artificial intelligence, genomics, and precision medicine.

Published
2023

22. Wildlife exposure to SARS-CoV-2 across a human use gradient

Author

Amanda R. Goldberg, Kate E. Langwig, Jeffrey Marano, Pallavi Rai, Amanda K. Sharp, Katherine L. Brown, Alessandro Ceci, Macy J. Kailing, Russell Briggs, Clinton Roby, Anne M. Brown, James Weger-Lucarelli, Carla V. Finkielstein, and Joseph R. Hoyt

Abstract

The spillover of SARS-CoV-2 into humans has caused one of the most devastating pandemics in recorded history. Human-animal interactions have led to transmission events of SARS-CoV-2 from humans to wild and captive animals. However, many questions remain about how extensive SARS-CoV-2 exposure is in wildlife, the factors that influence wildlife transmission risk, and whether sylvatic cycles can generate novel variants with increased infectivity and virulence. We sampled 22 different wildlife species in Virginia, U.S.A. We detected widespread exposure to SARS-CoV-2 across six wildlife species. Using quantitative reverse transcription polymerase chain reaction, we detected SARS-CoV-2 RNA in the Virginia opossum and had equivocal detections in six additional species. Furthermore, we used whole genome sequencing to confirm the presence of SARS-CoV-2 and compare mutations present to known circulating strains. Species that exhibit peridomestic tendencies had high seroprevalence, ranging between 62%-71%, and sites with high human presence had three times higher seroprevalence than low human-use areas across all species combined. SARS-CoV-2 genomic data from an opossum and molecular modeling exposed one previously uncharacterized change to an amino acid residue in the Spike receptor binding domain (RBD), which predicts improved binding between the Spike protein and human angiotensin-converting enzyme (ACE2) compared to the dominant variant circulating at the time of collection. Overall, our results highlight widespread exposure to SARS-CoV-2 in wildlife and suggest that areas with high human activity may serve as important points of contact for cross-species transmission. Furthermore, this work highlights the potential role of wildlife as reservoirs for SARS-CoV-2.Significance StatementThe emergence of SARS-CoV-2 has resulted in unprecedented consequences for humans across the globe. Transmission of SARS-CoV-2 among species has the potential to generate new and more virulent variants, posing a threat to both public health and animal populations. However, the ability of SARS-CoV-2 to infect wildlife other than white tailed deer and mustelids in nature remains unknown. We examined exposure to SARS-CoV-2 in 22 wildlife species, which are commonly found across the Eastern U.S. We found widespread SARS-CoV-2 exposure in six common wildlife species, which was elevated in areas with high human activity. Our results highlight the capacity of SARS-CoV-2 to spread through wildlife communities.

Published
2022

23. ACS Bio and Med Chem Au

Author

Srinath Pashikanti, Daniel J. Foster, Yugesh Kharel, Anne M. Brown, David R. Bevan, Kevin R. Lynch, and Webster L. Santos

Subjects
Rare Diseases, Drug Discovery, Pharmaceutical Science, Molecular Biology, Biochemistry, Cancer
Abstract

Sphingosine 1-phosphate (S1P) is a pleiotropic signaling molecule that interacts with five native G-protein coupled receptors (S1P1-5) to regulate cell growth, survival, and proliferation. S1P has been implicated in a variety of pathologies including cancer, kidney fibrosis, and multiple sclerosis. As key mediators in the synthesis of S1P, sphingosine kinase (SphK) isoforms 1 and 2 have attracted attention as viable targets for pharmacologic intervention. In this report, we describe the design, synthesis, and biological evaluation of sphingosine kinase 2 (SphK2) inhibitors with a focus on systematically introducing rigid structures in the aliphatic lipid tail present in existing SphK2 inhibitors. Experimental as well as molecular modeling studies suggest that conformationally restricted "lipophilic tail" analogues bearing a bulky terminal moiety or an internal phenyl ring are useful to complement the "J"-shaped sphingosine binding pocket of SphK2. We identified 14c (SLP9101555) as a potent SphK2 inhibitor (Ki= 90 nM) with 200-fold selectivity over SphK1. Molecular docking studies indicated key interactions: the cyclohexyl ring binding in the cleft deep in the pocket, a trifluoromethyl group fitting in a small side cavity, and a hydrogen bond between the guanidino group and Asp308 (amino acid numbering refers to human SphK2 (isoform c) orthologue). In vitro studies using U937 human histiocytic lymphoma cells showed marked decreases in extracellular S1P levels in response to our SphK2 inhibitors. Administration of 14c (dose: 5 mg/kg) to mice resulted in a sustained increase of circulating S1P levels, suggesting target engagement. Published version

Published
2022

24. Rosmarinic Acid Potently Detoxifies Amylin Amyloid and Ameliorates Diabetic Pathology in a Transgenic Rat Model of Type 2 Diabetes

Author

Yao Wang, Anne M. Brown, Paul Velander, Bin Xu, Shijun Zhang, Ling Wu, David R. Bevan, and Dongmin Liu

Subjects
Pharmacology, Pathology, medicine.medical_specialty, Amyloid, Chemistry, Neurodegeneration, Amylin, Protein aggregation, medicine.disease, In vitro, In vivo, medicine, Pharmacology (medical), IC50, Ex vivo
Abstract

[Image: see text] Protein aggregation is associated with a large number of human protein-misfolding diseases, yet FDA-approved drugs are currently not available. Amylin amyloid and plaque depositions in the pancreas are hallmark features of type 2 diabetes. Moreover, these amyloid deposits are implicated in the pathogenesis of diabetic complications such as neurodegeneration. We recently discovered that catechols and redox-related quinones/anthraquinones represent a broad class of protein aggregation inhibitors. Further screening of a targeted library of natural compounds in complementary medicine that were enriched with catechol-containing compounds identified rosmarinic acid (RA) as a potent inhibitor of amylin aggregation (estimated inhibitory concentration IC(50) = 200–300 nM). Structure–function relationship analysis of RA showed the additive effects of the two catechol-containing components of the RA molecule. We further showed that RA does not reverse fibrillation back to monomeric amylin but rather lead to nontoxic, remodeled protein aggregates. RA has significant ex vivo efficacy in reducing human amylin oligomer levels in HIP rat sera as well as in sera from diabetic patients. In vivo efficacy studies of RA treatment with the diabetic HIP rat model demonstrated significant reduction in amyloid islet deposition and strong mitigation of diabetic pathology. Our work provides new in vitro molecular mechanisms and in vivo efficacy insights for a model nutraceutical agent against type 2 diabetes and other aging-related protein-misfolding diseases.

Published
2021

25. Protein kinases in Toxoplasma gondii

Author

Rajshekhar Y. Gaji, Anne M. Brown, and Amanda K. Sharp

Subjects
0301 basic medicine, 030231 tropical medicine, Protozoan Proteins, Computational biology, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, Animals, Humans, Protein kinase A, CAMK, Life Cycle Stages, biology, Kinase, Mechanism (biology), Infant, Newborn, Toxoplasma gondii, biology.organism_classification, 030104 developmental biology, Infectious Diseases, Phosphorylation, Female, Parasitology, Casein kinase 1, Protein Kinases, Toxoplasma, Function (biology)
Abstract

Toxoplasma gondii is an obligatory intracellular pathogen that causes life threatening illness in immunodeficient individuals, miscarriage in pregnant woman, and blindness in newborn children. Similar to any other eukaryotic cell, protein kinases play critical and essential roles in the Toxoplasma life cycle. Accordingly, many studies have focused on identifying and defining the mechanism of function of these signalling proteins with a long-term goal to develop anti-Toxoplasma therapeutics. In this review, we briefly discuss classification and key components of the catalytic domain which are critical for functioning of kinases, with a focus on domains, families, and groups of kinases within Toxoplasma. More importantly, this article provides a comprehensive, current overview of research on kinase groups in Toxoplasma including the established eukaryotic AGC, CAMK, CK1, CMGC, STE, TKL families and the apicomplexan-specific FIKK, ROPK and WNG family of kinases. This work provides an overview and discusses current knowledge on Toxoplasma kinases including their localization, function, signalling network and role in acute and chronic pathogenesis, with a view towards the future in probing kinases as viable drug targets.

Published
2021

26. NMR Model of the Entire Membrane-Interacting Region of the HIV-1 Fusion Protein and Its Perturbation of Membrane Morphology

Author

Beatrice Bighi, Qingshan Fu, Amanda K. Sharp, Alessandro Piai, James J. Chou, and Anne M. Brown

Subjects
Cytoplasm, Protein Conformation, Lipid Bilayers, Molecular Dynamics Simulation, Model lipid bilayer, 010402 general chemistry, Gp41, 01 natural sciences, Biochemistry, Catalysis, Colloid and Surface Chemistry, Protein Domains, Viral Envelope Proteins, Lipid bilayer, Nuclear Magnetic Resonance, Biomolecular, Chemistry, Bilayer, Cell Membrane, Lipid bilayer fusion, General Chemistry, Viral membrane, Transmembrane protein, 0104 chemical sciences, Transmembrane domain, HIV-1, Biophysics
Abstract

HIV-1 envelope glycoprotein (Env) is a transmembrane protein that mediates membrane fusion and viral entry. The membrane-interacting regions of the Env, including the membrane-proximal external region (MPER), the transmembrane domain (TMD), and the cytoplasmic tail (CT), not only are essential for fusion and Env incorporation but also can strongly influence the antigenicity of the Env. Previous studies have incrementally revealed the structures of the MPER, the TMD, and the KS-LLP2 regions of the CT. Here, we determined the NMR structure of the full-length CT using a protein fragment comprising the TMD and the CT in bicelles that mimic a lipid bilayer, and by integrating the new NMR data and those acquired previously on other gp41 fragments, we derived a model of the entire membrane-interacting region of the Env. The structure shows that the CT forms a large trimeric baseplate around the TMD trimer, and by residing in the headgroup region of the lipid bilayer, the baseplate causes severe exclusion of lipid in the cytoleaflet of the bilayer. All-atom molecular dynamics simulations showed that the overall structure of the MPER-TMD-CT can be stable in a viral membrane and that a concerted movement of the KS-LLP2 region compensates for the lipid exclusion in order to maintain both structure and membrane integrity. Our structural and simulation results provide a framework for future research to manipulate the membrane structure to modulate the antigenicity of the Env for vaccine development and for mutagenesis studies for investigating membrane fusion and Env interaction with the matrix proteins.

Published
2021

27. Simulations of cross-amyloid aggregation of amyloid-β and islet amyloid polypeptide fragments

Author

Grant E. Kawecki, Kelsie M. King, Nicholas A. Cramer, David R. Bevan, and Anne M. Brown

Subjects
Amyloid, Amyloid beta-Peptides, Diabetes Mellitus, Type 2, Alzheimer Disease, Biophysics, Humans, Articles, Islet Amyloid Polypeptide
Abstract

Amyloid-β (Aβ) and islet amyloid polypeptide (IAPP) are small peptides, classified as amyloids, that have the potential to self-assemble and form cytotoxic species, such as small soluble oligomers and large insoluble fibrils. The formation of Aβ aggregates facilitates the progression of Alzheimer’s disease (AD), while IAPP aggregates induce pancreatic β-cell apoptosis, leading to exacerbation of type 2 diabetes (T2D). Cross-amyloid interactions between Aβ and IAPP have been described both in vivo and in vitro, implying the role of Aβ or IAPP as modulators of cytotoxic self-aggregation of each species, and suggesting that Aβ-IAPP interactions are a potential molecular link between AD and T2D. Using molecular dynamics (MD) simulations, “hotspot” regions of the two peptides were studied to understand the formation of hexamers in a heterogeneous and homogeneous peptide-containing environment. Systems of only Aβ((16–22)) peptides formed antiparallel, β-barrel-like structures, while systems of only IAPP((20–29)) peptides formed stacked, parallel β-sheets and had relatively unstable aggregation structures after 2 μs of simulation time. Systems containing both Aβ and IAPP (1:1 ratio) hexamers showed antiparallel, β-barrel-like structures, with an interdigitated arrangement of Aβ((16–22)) and IAPP((20–29)). These β-barrel structures have features of cytotoxic amyloid species identified in previous literature. Ultimately, this work seeks to provide atomistic insight into both the mechanism behind cross-amyloid interactions and structural morphologies of these toxic amyloid species.

Published
2022

28. Scientific Reports

Author

Anne M. Brown, Daniel G. S. Capelluto, Carla V. Finkielstein, Andrew Biscardi, Wei Song, Jeffrey F. Ellena, Carter J. Gottschalk, Tuo-Xian Tang, Biological Sciences, Fralin Life Sciences Institute, Center for Soft Matter and Biological Physics, University Libraries, Biochemistry, Center for Drug Discovery, and Fralin Biomedical Research Institute

Subjects
0301 basic medicine, Models, Molecular, Protein Conformation, In silico, Integrin, Biophysics, lcsh:Medicine, Peptide, Plasma protein binding, 030204 cardiovascular system & hematology, Biochemistry, Article, 03 medical and health sciences, Protein structure, 0302 clinical medicine, Animals, Humans, Computer Simulation, Amino Acid Sequence, Surface plasmon resonance, Receptor, Beta (finance), lcsh:Science, Peptide sequence, 030304 developmental biology, Adaptor Proteins, Signal Transducing, chemistry.chemical_classification, 0303 health sciences, Multidisciplinary, Sulfoglycosphingolipids, Functional analysis, biology, Chemistry, Biological techniques, lcsh:R, Signal transducing adaptor protein, Peptide Fragments, Computational biology and bioinformatics, P-Selectin, 030104 developmental biology, biology.protein, lcsh:Q, Apoptosis Regulatory Proteins, Structural biology, 030217 neurology & neurosurgery, Protein Binding
Abstract

Disabled-2 (Dab2) is an adaptor protein that regulates the extent of platelet aggregation by two mechanisms. In the first mechanism, Dab2 intracellularly downregulates the integrin alpha (IIb)beta (3) receptor, converting it to a low affinity state for adhesion and aggregation processes. In the second mechanism, Dab2 is released extracellularly and interacts with the pro-aggregatory mediators, the integrin alpha (IIb)beta (3) receptor and sulfatides, blocking their association to fibrinogen and P-selectin, respectively. Our previous research indicated that a 35-amino acid region within Dab2, which we refer to as the sulfatide-binding peptide (SBP), contains two potential sulfatide-binding motifs represented by two consecutive polybasic regions. Using molecular docking, nuclear magnetic resonance, lipid-binding assays, and surface plasmon resonance, this work identifies the critical Dab2 residues within SBP that are responsible for sulfatide binding. Molecular docking suggested that a hydrophilic region, primarily mediated by R42, is responsible for interaction with the sulfatide headgroup, whereas the C-terminal polybasic region contributes to interactions with acyl chains. Furthermore, we demonstrated that, in Dab2 SBP, R42 significantly contributes to the inhibition of platelet P-selectin surface expression. The Dab2 SBP residues that interact with sulfatides resemble those described for sphingolipid-binding in other proteins, suggesting that sulfatide-binding proteins share common binding mechanisms. Virginia Academy of Science; Institute for Critical Technology and Applied Science (ICTAS) at Virginia Tech; 4-VA Collaborative Research Program; National Science FoundationNational Science Foundation (NSF) [MCB-1517298]; ICTAS pre-doctoral fellowship We thank Dr. Janet Webster for critical reading of the manuscript. This project was supported by the Virginia Academy of Science, the Institute for Critical Technology and Applied Science (ICTAS) at Virginia Tech, the 4-VA Collaborative Research Program (to D.G.S.C.), and the National Science Foundation (MCB-1517298) (to C.V.F). W.S. was supported by an ICTAS pre-doctoral fellowship.

Published
2020

29. Discovery of a Small Side Cavity in Sphingosine Kinase 2 that Enhances Inhibitor Potency and Selectivity

Author

Christopher D. Sibley, Emily A. Morris, Webster L. Santos, Tao Huang, Yugesh Kharel, Anne M. Brown, Kevin R. Lynch, and David R. Bevan

Subjects
Pyrrolidines, Amidines, Saccharomyces cerevisiae, Pharmacology, 01 natural sciences, Article, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, In vivo, Drug Discovery, Animals, Humans, Potency, Structure–activity relationship, Protein Kinase Inhibitors, 030304 developmental biology, Oxadiazoles, 0303 health sciences, Binding Sites, Molecular Structure, Sphingosine, biology, Chemistry, Sphingosine Kinase 2, 0104 chemical sciences, Mice, Inbred C57BL, Molecular Docking Simulation, Phosphotransferases (Alcohol Group Acceptor), 010404 medicinal & biomolecular chemistry, SPHK2, Sphingosine kinase 1, biology.protein, Molecular Medicine, Signal transduction, Protein Binding
Abstract

The sphingosine-1-phosphate (S1P) signaling pathway is an attractive drug target due to its involvement in immune cell chemotaxis and vascular integrity. The formation of S1P is catalyzed by sphingosine kinase 1 or 2 (SphK1 or SphK2) from sphingosine (Sph) and ATP. Inhibition of SphK1 and SphK2 to attenuate levels of S1P has been reported to be efficacious in animal models of diseases such as cancer, sickle cell disease, and renal fibrosis. While inhibitors of both SphKs have been reported, improvements in potency and selectivity are still needed. Toward that end, we performed structure-activity relationship profiling of 8 (SLM6031434) and discovered a heretofore unrecognized side cavity that increased inhibitor potency toward SphK2. Interrogating this region revealed that relatively small hydrophobic moieties are preferred, with 10 being the most potent SphK2-selective inhibitor (Ki = 89 nM, 73-fold SphK2-selective) with validated in vivo activity.

Published
2020

30. Impact of Electronic Polarization on Preformed, β-Strand Rich Homogenous and Heterogeneous Amyloid Oligomers

Author

Darcy S. Davidson, Amanda K. Sharp, Anne M. Brown, Kelsie Marie King King, and Justin A. Lemkul

Subjects
Computational Theory and Mathematics, Amyloid, Chemistry, Biophysics, Physical and Theoretical Chemistry, Polarization (electrochemistry), Article, Computer Science Applications
Abstract

Amyloids are a subset of intrinsically disordered proteins (IDPs) that self-assemble into cross-[Formula: see text] oligomers and fibrils. The structural plasticity of amyloids leads to sampling of metastable, low-molecular-weight oligomers that contribute to cytotoxicity. Of interest are amyloid-[Formula: see text] (A[Formula: see text] and islet amyloid polypeptide (IAPP), which are involved in the pathology of Alzheimer’s disease and Type 2 diabetes mellitus, respectively. In addition to forming homogenous oligomers and fibrils, these species have been found to cross-aggregate in heterogeneous structures. Biophysical properties, including electronic effects, that are unique or conserved between homogenous and heterogeneous amyloids oligomers are thus far unexplored. Here, we simulated homogenous and heterogeneous amyloid oligomers of A[Formula: see text] and IAPP[Formula: see text] fragments using the Drude oscillator model to investigate the impact of electronic polarization on the structural morphology and stability of preformed hexamers. Upon simulation of preformed, [Formula: see text]-strand rich oligomers with Drude, structural rearrangement occurred causing some loss of [Formula: see text]-strand structure in favor of random coil content for all oligomers. Homogenous A[Formula: see text] was the most stable system, deriving stability from low polarization in hydrophobic residues and through salt bridge formation. Changes in polarization were observed primarily for A[Formula: see text] residues in heterogeneous cross-amyloid systems, displaying a decrease in charged residue dipole moments and an increase in hydrophobic sidechain dipole moments. This work is the first study utilizing the Drude-2019 force field with amyloid oligomers, providing insight into the impact of electronic effects on oligomer structure and highlighting the importance of different microenvironments on amyloid oligomer stability.

Published
2021

31. Insight into Cross-Amyloid Interactions and Morphologies: Molecular Dynamics Simulations of Model Peptide Fragments of Amyloid-β (Aβ16-22) and Islet Amyloid Polypeptide (IAPP20-29)

Author

Anne M. Brown, N. Cramer, David R. Bevan, K. M. King, and G. Kawecki

Subjects
chemistry.chemical_classification, Molecular dynamics, chemistry.chemical_compound, Amyloid, chemistry, Biophysics, Beta sheet, Peptide, Antiparallel (biochemistry), Fibril, Beta (finance), Oligomer
Abstract

Amyloid-beta (Aβ) and islet amyloid polypeptide (IAPP) are small peptides, classified as amyloids, that have the potential to self-assemble and form cytotoxic species, such as small soluble oligomers and large insoluble fibrils. The formation of Aβ aggregates facilitates the progression of Alzheimer’s disease (AD), while IAPP aggregates induce pancreatic β-cell apoptosis, leading to exacerbation of Type 2 diabetes (T2D). Cross-amyloid interactions between Aβ and IAPP have been described both in vivo and in vitro, implying the role of Aβ or IAPP as modulators of cytotoxic self-aggregation of each peptide, and suggesting that Aβ-IAPP interactions are a potential molecular link between AD and T2D. Using molecular dynamics simulations, “hot spot” regions of the two peptides were studied to understand the formation of hexamers in a heterogenous and homogenous peptide-containing environment. Systems of only Aβ(16-22) peptides formed antiparallel, β-barrel-like structures, while systems of only IAPP(20-29) peptides formed stacked, parallel beta strands and had relatively unstable aggregation structures after 2 μs of simulation time. Systems containing both Aβ and IAPP (1:1 ratio) hexamers showed antiparallel, β-barrel-like structures, with an interdigitated arrangement of Aβ(16-22) and IAPP(20-29). These β-barrel structures have features of cytotoxic amyloid species identified in previous literature. Ultimately, this work seeks to provide atomistic insight into both the mechanism behind cross-amyloid interactions and structural morphologies of these toxic amyloid species.Statement of SignificanceMolecular knowledge, biophysical characterization, structural morphologies, and formation pathways of amyloid oligomers - specifically low-molecular weight, cross-amyloid oligomers - remain preliminary and undefined. Characterizing interactions between homogenous and heterogenous amyloid oligomers is of great interest given that certain oligomer morphologies contribute to cytotoxicity, eventually resulting in comorbid diseases such as Alzheimer’s disease (AD) and Type 2 Diabetes Mellitus (T2DM). Utilizing model systems (e.g., fragments of full-length peptides) and molecular dynamics (MD) simulations to probe the biophysical underpinnings of cross-amyloid oligomer structures is the first step in understanding the dynamics, stability, and potential modes of cytotoxicity of these species, providing important insights into targetable biomolecular structures.

Published
2021

33. In Silico Characterization of Structural Distinctions between Isoforms of Human and Mouse Sphingosine Kinases for Accelerating Drug Discovery

Author

Brittney L. Worrell, Anne M. Brown, David R. Bevan, and Webster L. Santos

Subjects
Protein Conformation, General Chemical Engineering, In silico, Sphingosine kinase, Library and Information Sciences, 01 natural sciences, Article, Mice, chemistry.chemical_compound, Drug Discovery, 0103 physical sciences, Animals, Humans, Computer Simulation, Amino Acid Sequence, Enzyme Inhibitors, 010304 chemical physics, biology, Sphingosine, Chemistry, Sphingosine Kinase 2, General Chemistry, 0104 chemical sciences, Computer Science Applications, Molecular Docking Simulation, Phosphotransferases (Alcohol Group Acceptor), 010404 medicinal & biomolecular chemistry, SPHK2, Sphingosine kinase 1, Biochemistry, Docking (molecular), biology.protein, Pharmacophore
Abstract

Alterations in cellular signaling pathways are associated with multiple disease states including cancers and fibrosis. Current research efforts to attenuate cancers, specifically lymphatic cancer, focus on inhibition of two sphingosine kinase isoforms, sphingosine kinase 1 (SphK1) and sphingosine kinase 2 (SphK2). Determining differences in structural and physicochemical binding site properties of SphKs is attractive to refine inhibitor potency and isoform selectivity. This study utilizes a predictive in silico approach to determine key differences in binding sites in SphK isoforms in human and mouse species. Homology modeling, molecular docking of inhibitors, analysis of binding pocket residue positions, development of pharmacophore models, and analysis of binding cavity volume were performed to determine isoform- and species-selective characteristics of the binding site and generate a system to rank potential inhibitors. Interestingly, docking studies showed compounds bound to mouse SphK1 in a manner more similar to human SphK2 than to human SphK1, indicating that SphKs in mice have structural properties distinct from humans that confounds prediction of ligand selectivity in mice. Our studies aid in the development and production of new compound classes by highlighting structural distinctions and identifying the role of key residues that cause observable, functional differences in isoforms and between orthologues.

Published
2019

34. Finding What Is Inaccessible: Antimicrobial Resistance Language Use among the One Health Domains

Author

Meghan F. Davis, Anne M. Brown, Tanner Spicer, Lisa M. Durso, Stephanie Lansing, Lauren Wind, Jonathan Briganti, Timothy P. Neher, and Biological Systems Engineering

Subjects
0301 basic medicine, Microbiology (medical), antibiotic resistance, Computer science, 030106 microbiology, 030231 tropical medicine, Context (language use), Biochemistry, Microbiology, Article, one health, 03 medical and health sciences, 0302 clinical medicine, Antibiotic resistance, text data mining, animal, AMR, Pharmacology (medical), antimicrobial resistance, human, natural language processing, General Pharmacology, Toxicology and Pharmaceutics, business.industry, lcsh:RM1-950, Data science, Data sharing, lcsh:Therapeutics. Pharmacology, Infectious Diseases, One Health, Search terms, Publishing, business, environment, common language, AR
Abstract

The success of a One Health approach to combating antimicrobial resistance (AMR) requires effective data sharing across the three One Health domains (human, animal, and environment). To investigate if there are differences in language use across the One Health domains, we examined the peer-reviewed literature using a combination of text data mining and natural language processing techniques on 20,000 open-access articles related to AMR and One Health. Evaluating AMR key term frequency from the European PubMed Collection published between 1990 and 2019 showed distinct AMR language usage within each domain and incongruent language usage across domains, with significant differences in key term usage frequencies when articles were grouped by the One Health sub-specialties (2-way ANOVA, p &lt, 0.001). Over the 29-year period, “antibiotic resistance” and “AR” were used 18 times more than “antimicrobial resistance” and “AMR”. The discord of language use across One Health potentially weakens the effectiveness of interdisciplinary research by creating accessibility issues for researchers using search engines. This research was the first to quantify this disparate language use within One Health, which inhibits collaboration and crosstalk between domains. We suggest the following for authors publishing AMR-related research within the One Health context: (1) increase title/abstract searchability by including both antimicrobial and antibiotic resistance related search terms, (2) include “One Health” in the title/abstract, and (3) prioritize open-access publication.

Published
2021

35. A selective sweep in the Spike gene has driven SARS-CoV-2 human adaptation

Author

Pawel Michalak, Lin Kang, James Weger-Lucarelli, Xiaofeng Wang, Amanda K. Sharp, Guijuan He, and Anne M. Brown

Subjects
Models, Molecular, Disease reservoir, spillover, Mutant, Reversion, Genome, Viral, medicine.disease_cause, Genome, Article, General Biochemistry, Genetics and Molecular Biology, Cell Line, Evolution, Molecular, selective sweep, Chiroptera, Chlorocebus aethiops, medicine, Animals, Humans, emergence, Vero Cells, Gene, Phylogeny, Disease Reservoirs, Coronavirus, Genetics, Mutation, biology, SARS-CoV-2, COVID-19, RNA virus, biology.organism_classification, viral adaptation, molecular virology, Amino Acid Substitution, Viral replication, Spike Glycoprotein, Coronavirus, Molecular virology, Angiotensin-Converting Enzyme 2, Selective sweep
Abstract

The coronavirus disease 2019 (COVID-19) pandemic underscores the need to better understand animal-to-human transmission of coronaviruses and adaptive evolution within new hosts. We scanned more than 182,000 severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) genomes for selective sweep signatures and found a distinct footprint of positive selection located around a non-synonymous change (A1114G; T372A) within the spike protein receptor-binding domain (RBD), predicted to remove glycosylation and increase binding to human ACE2 (hACE2), the cellular receptor. This change is present in all human SARS-CoV-2 sequences but not in closely related viruses from bats and pangolins. As predicted, T372A RBD bound hACE2 with higher affinity in experimental binding assays. We engineered the reversion mutant (A372T) and found that A372 (wild-type [WT]-SARS-CoV-2) enhanced replication in human lung cells relative to its putative ancestral variant (T372), an effect that was 20 times greater than the well-known D614G mutation. Our findings suggest that this mutation likely contributed to SARS-CoV-2 emergence from animal reservoirs or enabled sustained human-to-human transmission., Graphical abstract, A non-synonymous change (T372A) within the spike protein RBD of human SARS-CoV-2 shows higher binding affinity to hACE2 and enhanced replication in human lung cells compared with its putative ancestral variant (T372), providing evidence of a viral mutation that is likely to have been necessary to enable human-to-human transmission.

Published
2021

36. Designed leucine‐rich repeat proteins bind two muramyl dipeptide ligands

Author

Christina S Kim, Tijana Z. Grove, Anne M. Brown, and Felicia A. Etzkorn

Subjects
0303 health sciences, Innate immune system, Chemistry, Full‐Length Papers, 030302 biochemistry & molecular biology, Protein design, Proteins, Nod, Leucine-Rich Repeat Proteins, Biochemistry, Bacterial cell structure, 03 medical and health sciences, chemistry.chemical_compound, Docking (molecular), Humans, Receptor, Molecular Biology, Pathogen, Acetylmuramyl-Alanyl-Isoglutamine, Muramyl dipeptide, 030304 developmental biology, Protein Binding
Abstract

Designed protein receptors hold diagnostic and therapeutic promise. We now report the design of five consensus leucine-rich repeat proteins sCLRR4-8) based on the LRR domain of nucleotide-binding oligomerization domain (NOD)-like receptors involved in the innate immune system. The CLRRs bind muramyl dipeptide (MDP), a bacterial cell wall component, with micromolar affinity. The overall Kd app values ranged from 1.0 to 57 μM as measured by fluorescence quenching experiments. Biphasic fluorescence quenching curves were observed in all CLRRs with higher affinity Kd1 values ranging from 0.04 to 4.5 μM, and lower affinity Kd2 values ranging from 3 to 227 μM. These biphasic binding curves, along with the docking studies of MDP binding to CLRR4, suggest that at least two MDPs bind to each protein. Previously, only single MDP binding was reported. This high-capacity binding of MDP promises small, soluble, stable CLRR scaffolds as candidates for the future design of pathogen biosensors. This article is protected by copyright. All rights reserved.

Published
2021

37. Catechol-Containing Compounds are a Broad Class of Protein Aggregation Inhibitors: II. Rosmarinic Acid Potently Detoxifies Amylin Amyloid and Ameliorates Diabetic Pathology in HIP Rats

Author

Paul Velander, Anne M. Brown, Yao Wang, Bin Xu, Dongmin Liu, David R. Bevan, Shijun Zhang, and Ling Wu

Subjects
Pathology, medicine.medical_specialty, Amyloid, Rosmarinic acid, Neurodegeneration, Amylin, Protein aggregation, medicine.disease, chemistry.chemical_compound, chemistry, In vivo, medicine, IC50, Ex vivo
Abstract

Protein aggregation is associated with a large number of human protein misfolding diseases, yet FDA-approved drugs are currently not available. Amylin amyloid and plaque depositions in the pancreas are hallmark features of type 2 diabetes. Moreover, these amyloid deposits are implicated in the pathogenesis of diabetic complications such as neurodegeneration. We recently discovered that catechols and redox-related quinones/ anthraquinones represent a broad class of protein aggregation inhibitors. Further screening of a targeted library of natural compounds in complementary medicine that were enriched with catechol-containing compounds identified rosmarinic acid as a potent inhibitor of amylin aggregation (estimated inhibitory concentration IC50= 200-300 nM). Structure-function relationship analysis of rosmarinic acid showed the additive effects of two catechol-containing components of the RA molecule. We further showed that RA does not reverse fibrillation back to monomeric amylin, but lead to non-toxic, remodeled protein aggregates. Rosmarinic acid has significantex vivoefficacy in reducing human amylin oligomer levels in HIP rat sera as well as in sera from diabetic patients.In vivoefficacy studies of rosmarinic acid treatment with the diabetic HIP rat model demonstrated significant reduction in amyloid islet deposition and strong mitigation of diabetic pathology. Our work provides newin vitromolecular mechanisms andin vivoefficacy insights for a model nutraceutical agent against type 2 diabetes and other aging-related protein misfolding diseases.

Published
2020

42. Transforming Sphingosine Kinase 1 Inhibitors into Dual and Sphingosine Kinase 2 Selective Inhibitors: Design, Synthesis, and in Vivo Activity

Author

Kevin R. Lynch, Yugesh Kharel, Webster L. Santos, Anne M. Brown, David R. Bevan, and Elizabeth S. Childress

Subjects
0301 basic medicine, Sphingosine kinase, In Vitro Techniques, Article, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Aminothiazole, Drug Discovery, Animals, Humans, Enzyme Inhibitors, Receptor, biology, Sphingosine, Cell growth, Sphingosine Kinase 2, Rats, Phosphotransferases (Alcohol Group Acceptor), SPHK2, 030104 developmental biology, Biochemistry, Sphingosine kinase 1, chemistry, Drug Design, 030220 oncology & carcinogenesis, Cancer research, biology.protein, Molecular Medicine
Abstract

Sphingosine 1-phosphate (S1P) is a pleiotropic signaling molecule that interacts with its five G-protein coupled receptors (S1P1–5) to regulate cell growth and survival and has been implicated in a variety of diseases including cancer and sickle cell disease. As the key mediators in the synthesis of S1P, sphingosine kinase (SphK) isoforms 1 and 2 have attracted attention as viable targets for pharmaceutical inhibition. In this article, we describe the design, synthesis, and biological evaluation of aminothiazole-based guanidine inhibitors of SphK. Surprisingly, combining features of reported SphK1 inhibitors generated SphK1/2 dual inhibitor 20l (SLC4011540) (hSphK1 Ki = 120 nM, hSphK2 Ki = 90 nM) and SphK2 inhibitor 20dd (SLC4101431) (Ki = 90 nM, 100-fold SphK2 selectivity). These compounds effectively decrease S1P levels in vitro. In vivo administration of 20dd validated that inhibition of SphK2 increases blood S1P levels.

Published
2017

43. For Students, By Students: Service-Learner Involvement in the Development of Visiting Kits to Facilitate Student Interactions with Old Adults

Author

Shannon E. Jarrott, Shelbie Turner, and Anne M. Brown

Subjects
Virginia tech, Service (business), Archeology, Medical education, 030214 geriatrics, Sociology and Political Science, Social Psychology, Service-learning, Experiential learning, ComputingMilieux_GENERAL, 03 medical and health sciences, 0302 clinical medicine, 030502 gerontology, ComputingMilieux_COMPUTERSANDEDUCATION, Geriatrics and Gerontology, 0305 other medical science, Life-span and Life-course Studies, Psychology, Social Sciences (miscellaneous)
Abstract

Multiple academic departments and programs at Virginia Tech embrace experiential learning, which is often fulfilled by incorporating service learning into courses. Service learning encourages stude...

Published
2017

44. Inositol Trisphosphate Kinase and Diphosphoinositol Pentakisphosphate Kinase Enzymes Constitute the Inositol Pyrophosphate Synthesis Pathway in Plants

Author

Pablo Sobrado, Glenda E. Gillaspy, Sarah P. Williams, Olusegun Adepoju, Amanda K. Sharpe, Anne M. Brown, Eric Land, Branch Craige, Imara Y. Perera, Caitlin Cridland, and Didier Mena

Subjects
Cell signaling, endocrine system, biology, Chemistry, Kinase, food and beverages, Inositol trisphosphate, biology.organism_classification, Pyrophosphate, carbohydrates (lipids), chemistry.chemical_compound, Biosynthesis, Biochemistry, Arabidopsis, Inositol, Signal transduction
Abstract

Inositol pyrophosphates (PP-InsPs) are an emerging class of “high-energy” intracellular signaling molecules containing one or two diphosphate groups attached to an inositol ring, with suggested roles in bioenergetic homeostasis and inorganic phosphate (Pi) sensing. Information regarding the biosynthesis of these unique class of signaling molecules in plants is scarce, however the enzymes responsible for their biosynthesis in other eukaryotes have been well described. Here we report the characterization of the two Arabidopsis VIP kinase domains, a newly discovered activity of the Arabidopsis ITPK1 and ITPK2 enzymes, and the subcellular localization of the enzymes involved in the synthesis of InsP6and PP-InsPs. Our data indicate that AtVIP1-KD and AtVIP2-KD act primarily as 1PP-specific Diphosphoinositol Pentakisphosphate Kinases (PPIP5) Kinases. The AtITPK enzymes, in contrast, can function as InsP6kinases, and thus are the missing enzyme in the plant PP-InsP synthesis pathway. Together, these enzyme classes can function in plants to produce PP-InsPs, which have been implicated in signal transduction and Pisensing pathways. We measured a higher InsP7level (increased InsP7/InsP8ratio) invip1/vip2double loss-of-function mutants, and an accumulation of InsP8(decreased InsP7/InsP8ratio) in the 35S:VIP2overexpression line relative to wild-type plants. We also report that enzymes involved in the synthesis of InsPs and PP-InsPs accumulate within the nucleus and cytoplasm of plant cells. Our work defines a molecular basis for understanding how plants synthesize PP-InsPs which is crucial for determining the roles of these signaling molecules in processes such as Pisensing.SIGNIFICANCE STATEMENTInositol pyrophosphate signaling molecules are of agronomic importance as they can control complex responses to the limited nutrient, phosphate. This work fills in the missing steps in the inositol pyrophosphate synthesis pathway and points to a role for these molecules in the plant cell nucleus. This is an important advance that can help us design future strategies to increase phosphate efficiency in plants.

Published
2019
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45. Integrating Scientific Programming in Communities of Practice for Students in the Life Sciences

Author

Justin A. Lemkul, Alexa M. Salsbury, and Anne M. Brown

Subjects
Data visualization, Work (electrical), business.industry, Scientific programming, Coursework, Best practice, ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, Face (sociological concept), business, Curriculum, Job market
Abstract

Research in life science domains is producing larger data sets that require the use of computational approaches to understand biological phenomena. Academic institutions, industry, and other sectors in the life sciences are creating jobs that involve computation, data science, and data visualization. Therefore, there is a need for life scientists to understand and be trained in computation for this new job market. Many life science students are not taught foundational concepts of computation as a part of their curriculum. Therefore, there exists a gap in understanding when beginning to learn computer science (CS) and relate it to data-centric questions in other fields. To improve learning experiences and help train these students, this work sought to understand existing challenges that life science students face in learning scientific programming and identify routes for improvement. To do so, we evaluated three distinct learning experiences--- a hands-on workshop, structured coursework, and long-term research experiences. Based on these student evaluations, we highlight the major challenges and benefits of different learning environments and provide suggestions to educators and institutions for integrating scientific programming education in life science coursework or research. Student-centered, group environments were the most successful at engaging students in computing concepts. Overall, this work provides strategies to enrich learning experiences and promote best practices in computation for life science students and engage these students in the development of in-demand skills.

Published
2019

47. Probing the substitution pattern of indole-based scaffold reveals potent and selective sphingosine kinase 2 inhibitors

Author

Molly D. Congdon, Vlad Serbulea, Webster L. Santos, David R. Bevan, Yugesh Kharel, Anne M. Brown, Russell G. Fritzemeier, and Kevin R. Lynch

Subjects
Indoles, Sphingosine kinase, 01 natural sciences, Article, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, Drug Discovery, Humans, Sphingosine-1-phosphate, Enzyme Inhibitors, Binding site, 030304 developmental biology, Pharmacology, Indole test, 0303 health sciences, Dose-Response Relationship, Drug, Molecular Structure, Sphingosine, 010405 organic chemistry, Chemistry, Drug discovery, Organic Chemistry, Sphingosine Kinase 2, General Medicine, 0104 chemical sciences, Molecular Docking Simulation, Phosphotransferases (Alcohol Group Acceptor), SPHK2, Biochemistry
Abstract

Elevated levels of sphingosine 1-phosphate (S1P) and increased expression of sphingosine kinase isoforms (SphK1 and SphK2) have been implicated in a variety of disease states including cancer, inflammation, autoimmunity, among others. Consequently, the S1P signaling axis has become an attractive target for drug discovery. Selective inhibition of either SphK1 or SphK2 has been demonstrated to be effective in modulating S1P levels in animal models. While SphK1 inhibitors have received much attention, the development of potent and selective SphK2 inhibitors are emerging. Previously, our group reported a SphK2 naphthalene-based selective inhibitor, SLC5081308, which displays approximately 7-fold selectivity for hSphK2 over hSphK1 and has a SphK2 K(i) value of 1.0 μM. To improve SphK2 potency and selectivity, we designed, synthesized, and evaluated a series of indole-based compounds derived from SLC5081308. After investigating substitution patterns around the indole ring, we discovered that 1,5-disubstitution promoted optimal binding in the SphK2 substrate binding site and subsequent inhibition of enzymatic activity. Our studies led to the identification of SLC5101465 (6r, SphK2 K(i) = 90 nM, >110 fold selective for SphK2 over SphK1). Molecular modeling studies revealed key nonpolar interactions with Val308, Phe548, His556, and Cys533 and hydrogen bonds with both Asp211 and Asp308 as responsible for the high SphK2 inhibition and selectivity.

Published
2021

48. Lipophilic tail modifications of 2-(hydroxymethyl)pyrrolidine scaffold reveal dual sphingosine kinase 1 and 2 inhibitors

Author

Tao Huang, Kevin R. Lynch, Webster L. Santos, Hao Li, Christopher D. Sibley, Yugesh Kharel, David R. Bevan, Laura G. Wonilowicz, and Anne M. Brown

Subjects
Models, Molecular, Pyrrolidines, Stereochemistry, Clinical Biochemistry, Sphingosine kinase, Pharmaceutical Science, 01 natural sciences, Biochemistry, Article, Serine, Structure-Activity Relationship, chemistry.chemical_compound, Drug Discovery, Humans, Structure–activity relationship, Hydroxymethyl, Sphingosine-1-phosphate, Enzyme Inhibitors, Molecular Biology, Dose-Response Relationship, Drug, Molecular Structure, Sphingosine, biology, 010405 organic chemistry, Organic Chemistry, 0104 chemical sciences, Phosphotransferases (Alcohol Group Acceptor), 010404 medicinal & biomolecular chemistry, SPHK2, chemistry, Sphingosine kinase 1, biology.protein, Molecular Medicine, Hydrophobic and Hydrophilic Interactions
Abstract

The sphingosine 1-phosphate (S1P) signaling pathway is an attractive target for pharmacological manipulation due to its involvement in cancer progression and immune cell chemotaxis. The synthesis of S1P is catalyzed by the action of sphingosine kinase 1 or 2 (SphK1 or SphK2) on sphingosine and ATP. While potent and selective inhibitors of SphK1 or SphK2 have been reported, development of potent dual SphK1/SphK2 inhibitors are still needed. Towards this end, we report the structure–activity relationship profiling of 2-(hydroxymethyl)pyrrolidine-based inhibitors with 22d being the most potent dual SphK1/SphK2 inhibitor (SphK1 Ki = 0.679 μM, SphK2 Ki = 0.951 μM) reported in this series. 22d inhibited the growth of engineered Saccharomyces cerevisiae and decreased S1P levels in histiocytic lymphoma myeloid cell line (U937 cells), demonstrating inhibition of SphK1 and 2 in vitro. Molecular modeling studies of 22d docked inside the Sph binding pocket of both SphK1 and SphK2 indicate essential hydrogen bond between the 2-(hydroxymethyl)pyrrolidine head to interact with aspartic acid and serine residues near the ATP binding pocket, which provide the basis for dual inhibition. In addition, the dodecyl tail adopts a “J-shape” conformation found in crystal structure of sphingosine bound to SphK1. Collectively, these studies provide insight into the intermolecular interactions in the SphK1 and 2 active sites to achieve maximal dual inhibitory activity.

Published
2021

49. Development of a structured undergraduate research experience: Framework and implications

Author

Stephanie N. Lewis, Anne M. Brown, and David R. Bevan

Subjects
0301 basic medicine, Sociology of scientific knowledge, Medical education, Learning environment, 05 social sciences, 050301 education, Biochemistry, Experiential learning, Comprehension, 03 medical and health sciences, 030104 developmental biology, Problem-based learning, Undergraduate research, ComputingMilieux_COMPUTERSANDEDUCATION, Time management, Psychology, 0503 education, Molecular Biology, Curriculum
Abstract

Participating in undergraduate research can be a pivotal experience for students in life science disciplines. Development of critical thinking skills, in addition to conveying scientific ideas in oral and written formats, is essential to ensuring that students develop a greater understanding of basic scientific knowledge and the research process. Modernizing the current life sciences research environment to accommodate the growing demand by students for experiential learning is needed. By developing and implementing a structured, theory-based approach to undergraduate research in the life sciences, specifically biochemistry, it has been successfully shown that more students can be provided with a high-quality, high-impact research experience. The structure of this approach allowed students to develop novel, independent projects in a computational molecular modeling lab. Students engaged in an experience in which career goals, problem-solving skills, time management skills, and independence in a research lab were developed. After experiencing this approach to undergraduate research, students reported feeling challenged to think critically and prepared for future career paths. The approach allowed for a progressive learning environment where more undergraduate students could participate in publishable research. Future areas for development include implementation in a bench-top lab and extension to disciplines beyond biochemistry. In this study, it has been shown that utilizing the structured approach to undergraduate research could allow for more students to experience undergraduate research and develop into more confident, independent life scientists well prepared for graduate schools and professional research environments. © 2016 by The International Union of Biochemistry and Molecular Biology, 44(5):463-474, 2016.

Published
2016

50. Purine salvage inMethanocaldococcus jannaschii: Elucidating the role of a conserved cysteine in adenine deaminase

Author

David R. Bevan, Huimin Xu, Robert H. White, Anne M. Brown, and Danielle Miller

Subjects
0301 basic medicine, Methanocaldococcus, 030102 biochemistry & molecular biology, Guanine, Adenine deaminase, Mutagenesis, Methanocaldococcus jannaschii, Biology, biology.organism_classification, Biochemistry, Conserved sequence, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Structural Biology, Molecular Biology, Hypoxanthine, Cysteine
Abstract

Adenine deaminases (Ade) and hypoxanthine/guanine phosphoribosyltransferases (Hpt) are widely distributed enzymes involved in purine salvage. Characterization of the previously uncharacterized Ade (MJ1459 gene product) and Hpt (MJ1655 gene product) are discussed here and provide insight into purine salvage in Methanocaldococcus jannaschii. Ade was demonstrated to use either Fe(II) and/or Mn(II) as the catalytic metal. Hpt demonstrated no detectable activity with adenine, but was equally specific for hypoxanthine and guanine with a kcat /KM of 3.2 × 10(7) and 3.0 × 10(7) s(- 1) M(- 1) , respectively. These results demonstrate that hypoxanthine and IMP are the central metabolites in purine salvage in M. jannaschii for AMP and GMP production. A conserved cysteine (C127, M. jannaschii numbering) was examined due to its high conservation in bacterial and archaeal homologues. To assess the role of this highly conserved cysteine in M. jannaschii Ade, site-directed mutagenesis was performed. It was determined that mutation to serine (C127S) completely abolished Ade activity and mutation to alanine (C127A) exhibited 10-fold decrease in kcat over the wild type Ade. To further investigate the role of C127, detailed molecular docking and dynamics studies were performed and revealed adenine was unable to properly orient in the active site in the C127A and C127S Ade model structures due to distinct differences in active site conformation and rotation of D261. Together this work illuminates purine salvage in M. jannaschii and the critical role of a cysteine residue in maintaining active site conformation of Ade. Proteins 2016; 84:828-840. © 2016 Wiley Periodicals, Inc.

Published
2016

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