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1. Electric-field tunable Type-I to Type-II band alignment transition in MoSe2/WS2 heterobilayers.

Author

Kistner-Morris, Jed, Shi, Ao, Liu, Erfu, Arp, Trevor, Farahmand, Farima, Taniguchi, Takashi, Watanabe, Kenji, Aji, Vivek, Gabor, Nathaniel, and Lui, Chun

Abstract

Semiconductor heterojunctions are ubiquitous components of modern electronics. Their properties depend crucially on the band alignment at the interface, which may exhibit straddling gap (type-I), staggered gap (type-II) or broken gap (type-III). The distinct characteristics and applications associated with each alignment make it highly desirable to switch between them within a single material. Here we demonstrate an electrically tunable transition between type-I and type-II band alignments in MoSe2/WS2 heterobilayers by investigating their luminescence and photocurrent characteristics. In their intrinsic state, these heterobilayers exhibit a type-I band alignment, resulting in the dominant intralayer exciton luminescence from MoSe2. However, the application of a strong interlayer electric field induces a transition to a type-II band alignment, leading to pronounced interlayer exciton luminescence. Furthermore, the formation of the interlayer exciton state traps free carriers at the interface, leading to the suppression of interlayer photocurrent and highly nonlinear photocurrent-voltage characteristics. This breakthrough in electrical band alignment control, interlayer exciton manipulation, and carrier trapping heralds a new era of versatile optical and (opto)electronic devices composed of van der Waals heterostructures.

Published
2024

2. Features of acute COVID-19 associated with post-acute sequelae of SARS-CoV-2 phenotypes: results from the IMPACC study

Author

McEnaney, Kerry, Barton, Brenda, Lentucci, Claudia, Saluvan, Mehmet, Chang, Ana C, Hoch, Annmarie, Albert, Marisa, Shaheen, Tanzia, Kho, Alvin T, Thomas, Sanya, Chen, Jing, Murphy, Maimouna D, Cooney, Mitchell, Hayati, Arash Nemati, Bryant, Robert, Abraham, James, Presnell, Scott, Jancsyk, Tomasz, Maguire, Cole, Lee, Brian, Fourati, Slim, Esserman, Denise A, Guan, Leying, Gygi, Jeremy, Pawar, Shrikant, Brito, Anderson, Fragiadakis, Gabriela K, Patel, Ravi, Tebbutt, Scott J, Overton, James A, Vita, Randi, Westendorf, Kerstin, Thyagarajan, Rama V, Rousseau, Justin F, Wylie, Dennis, Triplett, Todd A, Kojic, Erna, Chinthrajah, Sharon, Ahuja, Neera, Rogers, Angela J, Artandi, Maja, Yendewa, George, Powell, Debra L, Kim, James N, Simmons, Brent, Goonewardene, I Michael, Smith, Cecilia M, Martens, Mark, Sherman, Amy C, Walsh, Stephen R, Issa, Nicolas C, Salehi-Rad, Ramin, Dela Cruz, Charles, Farhadian, Shelli, Iwasaki, Akiko, Ko, Albert I, Anderson, Evan J, Mehta, Aneesh K, Sevransky, Jonathan E, Leligdowicz, Aleksandra, Matthay, Michael A, Singer, Jonathan P, Kangelaris, Kirsten N, Hendrickson, Carolyn M, Krummel, Matthew F, Woodruff, Prescott G, Anderson, Matthew L, Guirgis, Faheem W, Drevets, Douglas A, Brown, Brent R, Siegel, Sarah AR, Lu, Zhengchun, Mosier, Jarrod, Kimura, Hiroki, Khor, Bernard, Rahman, Adeeb, Stadlbauer, Daniel, Dutta, Jayeeta, Gonzalez-Reiche, Ana Silvia, van de Guchte, Adriana, Carreño, Juan Manuel, Singh, Gagandeep, Raskin, Ariel, Tcheou, Johnstone, Bielak, Dominika, Kawabata, Hisaaki, Xie, Hui, Kelly, Geoffrey, Patel, Manishkumar, Nie, Kai, Yellin, Temima, Fried, Miriam, Sullivan, Leeba, Morris, Sara, Sieg, Scott, van Zalm, Patrick, Fatou, Benoit, Mendez, Kevin, Lasky-Su, Jessica, and Hutton, Scott R

Subjects
Health Services and Systems, Biomedical and Clinical Sciences, Health Sciences, Prevention, Vaccine Related, Emerging Infectious Diseases, Biodefense, Brain Disorders, Infectious Diseases, Lung, Good Health and Well Being, Female, Humans, SARS-CoV-2, COVID-19, B-Lymphocytes, Body Fluids, Disease Progression, Phenotype, IMPACC Network
Abstract

Post-acute sequelae of SARS-CoV-2 (PASC) is a significant public health concern. We describe Patient Reported Outcomes (PROs) on 590 participants prospectively assessed from hospital admission for COVID-19 through one year after discharge. Modeling identified 4 PRO clusters based on reported deficits (minimal, physical, mental/cognitive, and multidomain), supporting heterogenous clinical presentations in PASC, with sub-phenotypes associated with female sex and distinctive comorbidities. During the acute phase of disease, a higher respiratory SARS-CoV-2 viral burden and lower Receptor Binding Domain and Spike antibody titers were associated with both the physical predominant and the multidomain deficit clusters. A lower frequency of circulating B lymphocytes by mass cytometry (CyTOF) was observed in the multidomain deficit cluster. Circulating fibroblast growth factor 21 (FGF21) was significantly elevated in the mental/cognitive predominant and the multidomain clusters. Future efforts to link PASC to acute anti-viral host responses may help to better target treatment and prevention of PASC.

Published
2024

3. Using large language models to accelerate communication for eye gaze typing users with ALS

Author

Shanqing Cai, Subhashini Venugopalan, Katie Seaver, Xiang Xiao, Katrin Tomanek, Sri Jalasutram, Meredith Ringel Morris, Shaun Kane, Ajit Narayanan, Robert L. MacDonald, Emily Kornman, Daniel Vance, Blair Casey, Steve M. Gleason, Philip Q. Nelson, and Michael P. Brenner

Subjects
Science
Abstract

Abstract Accelerating text input in augmentative and alternative communication (AAC) is a long-standing area of research with bearings on the quality of life in individuals with profound motor impairments. Recent advances in large language models (LLMs) pose opportunities for re-thinking strategies for enhanced text entry in AAC. In this paper, we present SpeakFaster, consisting of an LLM-powered user interface for text entry in a highly-abbreviated form, saving 57% more motor actions than traditional predictive keyboards in offline simulation. A pilot study on a mobile device with 19 non-AAC participants demonstrated motor savings in line with simulation and relatively small changes in typing speed. Lab and field testing on two eye-gaze AAC users with amyotrophic lateral sclerosis demonstrated text-entry rates 29–60% above baselines, due to significant saving of expensive keystrokes based on LLM predictions. These findings form a foundation for further exploration of LLM-assisted text entry in AAC and other user interfaces.

Published
2024
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4. USP50 suppresses alternative RecQ helicase use and deleterious DNA2 activity during replication

Author

Hannah L. Mackay, Helen R. Stone, George E. Ronson, Katherine Ellis, Alexander Lanz, Yara Aghabi, Alexandra K. Walker, Katarzyna Starowicz, Alexander J. Garvin, Patrick Van Eijk, Stefan A. Koestler, Elizabeth J. Anthony, Ann Liza Piberger, Anoop S. Chauhan, Poppy Conway-Thomas, Alina Vaitsiankova, Sobana Vijayendran, James F. Beesley, Eva Petermann, Eric J. Brown, Ruth M. Densham, Simon H. Reed, Felix Dobbs, Marco Saponaro, and Joanna R. Morris

Subjects
Science
Abstract

Abstract Mammalian DNA replication relies on various DNA helicase and nuclease activities to ensure accurate genetic duplication, but how different helicase and nuclease activities are properly directed remains unclear. Here, we identify the ubiquitin-specific protease, USP50, as a chromatin-associated protein required to promote ongoing replication, fork restart, telomere maintenance, cellular survival following hydroxyurea or pyridostatin treatment, and suppression of DNA breaks near GC-rich sequences. We find that USP50 supports proper WRN-FEN1 localisation at or near stalled replication forks. Nascent DNA in cells lacking USP50 shows increased association of the DNA2 nuclease and RECQL4 and RECQL5 helicases and replication defects in cells lacking USP50, or FEN1 are driven by these proteins. Consequently, suppression of DNA2 or RECQL4/5 improves USP50-depleted cell resistance to agents inducing replicative stress and restores telomere stability. These data define an unexpected regulatory protein that promotes the balance of helicase and nuclease use at ongoing and stalled replication forks.

Published
2024
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5. Genetic, transcriptomic, histological, and biochemical analysis of progressive supranuclear palsy implicates glial activation and novel risk genes

Author

Kurt Farrell, Jack Humphrey, Timothy Chang, Yi Zhao, Yuk Yee Leung, Pavel P. Kuksa, Vishakha Patil, Wan-Ping Lee, Amanda B. Kuzma, Otto Valladares, Laura B. Cantwell, Hui Wang, Ashvin Ravi, Claudia De Sanctis, Natalia Han, Thomas D. Christie, Robina Afzal, Shrishtee Kandoi, Kristen Whitney, Margaret M. Krassner, Hadley Ressler, SoongHo Kim, Diana Dangoor, Megan A. Iida, Alicia Casella, Ruth H. Walker, Melissa J. Nirenberg, Alan E. Renton, Bergan Babrowicz, Giovanni Coppola, Towfique Raj, Günter U. Höglinger, Ulrich Müller, Lawrence I. Golbe, Huw R. Morris, John Hardy, Tamas Revesz, Tom T. Warner, Zane Jaunmuktane, Kin Y. Mok, Rosa Rademakers, Dennis W. Dickson, Owen A. Ross, Li-San Wang, Alison Goate, Gerard Schellenberg, Daniel H. Geschwind, PSP Genetics Study Group, John F. Crary, and Adam Naj

Subjects
Science
Abstract

Abstract Progressive supranuclear palsy (PSP), a rare Parkinsonian disorder, is characterized by problems with movement, balance, and cognition. PSP differs from Alzheimer’s disease (AD) and other diseases, displaying abnormal microtubule-associated protein tau by both neuronal and glial cell pathologies. Genetic contributors may mediate these differences; however, the genetics of PSP remain underexplored. Here we conduct the largest genome-wide association study (GWAS) of PSP which includes 2779 cases (2595 neuropathologically-confirmed) and 5584 controls and identify six independent PSP susceptibility loci with genome-wide significant (P

Published
2024
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7. USP50 suppresses alternative RecQ helicase use and deleterious DNA2 activity during replication

Author

Mackay, Hannah L., Stone, Helen R., Ronson, George E., Ellis, Katherine, Lanz, Alexander, Aghabi, Yara, Walker, Alexandra K., Starowicz, Katarzyna, Garvin, Alexander J., Van Eijk, Patrick, Koestler, Stefan A., Anthony, Elizabeth J., Piberger, Ann Liza, Chauhan, Anoop S., Conway-Thomas, Poppy, Vaitsiankova, Alina, Vijayendran, Sobana, Beesley, James F., Petermann, Eva, Brown, Eric J., Densham, Ruth M., Reed, Simon H., Dobbs, Felix, Saponaro, Marco, and Morris, Joanna R.

Published
2024
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8. Genetic, transcriptomic, histological, and biochemical analysis of progressive supranuclear palsy implicates glial activation and novel risk genes

Author

Farrell, Kurt, Humphrey, Jack, Chang, Timothy, Zhao, Yi, Leung, Yuk Yee, Kuksa, Pavel P., Patil, Vishakha, Lee, Wan-Ping, Kuzma, Amanda B., Valladares, Otto, Cantwell, Laura B., Wang, Hui, Ravi, Ashvin, De Sanctis, Claudia, Han, Natalia, Christie, Thomas D., Afzal, Robina, Kandoi, Shrishtee, Whitney, Kristen, Krassner, Margaret M., Ressler, Hadley, Kim, SoongHo, Dangoor, Diana, Iida, Megan A., Casella, Alicia, Walker, Ruth H., Nirenberg, Melissa J., Renton, Alan E., Babrowicz, Bergan, Coppola, Giovanni, Raj, Towfique, Höglinger, Günter U., Müller, Ulrich, Golbe, Lawrence I., Morris, Huw R., Hardy, John, Revesz, Tamas, Warner, Tom T., Jaunmuktane, Zane, Mok, Kin Y., Rademakers, Rosa, Dickson, Dennis W., Ross, Owen A., Wang, Li-San, Goate, Alison, Schellenberg, Gerard, Geschwind, Daniel H., Crary, John F., and Naj, Adam

Published
2024
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11. Baseline levels and longitudinal changes in plasma Aβ42/40 among Black and white individuals

Author

Xiong, Chengjie, Luo, Jingqin, Wolk, David A., Shaw, Leslie M., Roberson, Erik D., Murchison, Charles F., Henson, Rachel L., Benzinger, Tammie L. S., Bui, Quoc, Agboola, Folasade, Grant, Elizabeth, Gremminger, Emily N., Moulder, Krista L., Geldmacher, David S., Clay, Olivio J., Babulal, Ganesh, Cruchaga, Carlos, Holtzman, David M., Bateman, Randall J., Morris, John C., and Schindler, Suzanne E.

Published
2024
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14. Longitudinal multicompartment characterization of host-microbiota interactions in patients with acute respiratory failure

Author

Kitsios, Georgios D., Sayed, Khaled, Fitch, Adam, Yang, Haopu, Britton, Noel, Shah, Faraaz, Bain, William, Evankovich, John W., Qin, Shulin, Wang, Xiaohong, Li, Kelvin, Patel, Asha, Zhang, Yingze, Radder, Josiah, Dela Cruz, Charles, Okin, Daniel A., Huang, Ching‐Ying, Van Tyne, Daria, Benos, Panayiotis V., Methé, Barbara, Lai, Peggy, Morris, Alison, and McVerry, Bryan J.

Published
2024
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21. Author Correction: Comprehensive mutational scanning of EGFR reveals TKI sensitivities of extracellular domain mutants

Author

Hayes, Tikvah K., Aquilanti, Elisa, Persky, Nicole S., Yang, Xiaoping, Kim, Erica E., Brenan, Lisa, Goodale, Amy B., Alan, Douglas, Sharpe, Ted, Shue, Robert E., Westlake, Lindsay, Golomb, Lior, Silverman, Brianna R., Morris, Myshal D., Fisher, Ty Running, Beyene, Eden, Li, Yvonne Y., Cherniack, Andrew D., Piccioni, Federica, Hicks, J. Kevin, Chi, Andrew S., Cahill, Daniel P., Dietrich, Jorg, Batchelor, Tracy T., Root, David E., Johannessen, Cory M., and Meyerson, Matthew

Published
2024
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23. Comprehensive mutational scanning of EGFR reveals TKI sensitivities of extracellular domain mutants

Author

Hayes, Tikvah K., Aquilanti, Elisa, Persky, Nicole S., Yang, Xiaoping, Kim, Erica E., Brenan, Lisa, Goodale, Amy B., Alan, Douglas, Sharpe, Ted, Shue, Robert E., Westlake, Lindsay, Golomb, Lior, Silverman, Brianna R., Morris, Myshal D., Fisher, Ty Running, Beyene, Eden, Li, Yvonne Y., Cherniack, Andrew D., Piccioni, Federica, Hicks, J. Kevin, Chi, Andrew S., Cahill, Daniel P., Dietrich, Jorg, Batchelor, Tracy T., Root, David E., Johannessen, Cory M., and Meyerson, Matthew

Published
2024
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24. Author Correction: High monoclonal neutralization titers reduced breakthrough HIV-1 viral loads in the Antibody Mediated Prevention trials

Author

Reeves, Daniel B., Mayer, Bryan T., deCamp, Allan C., Huang, Yunda, Zhang, Bo, Carpp, Lindsay N., Magaret, Craig A., Juraska, Michal, Gilbert, Peter B., Montefiori, David C., Bar, Katharine J., Cardozo-Ojeda, E. Fabian, Schiffer, Joshua T., Rossenkhan, Raabya, Edlefsen, Paul, Morris, Lynn, Mkhize, Nonhlanhla N., Williamson, Carolyn, Mullins, James I., Seaton, Kelly E., Tomaras, Georgia D., Andrew, Philip, Mgodi, Nyaradzo, Ledgerwood, Julie E., Cohen, Myron S., Corey, Lawrence, Naidoo, Logashvari, Orrell, Catherine, Goepfert, Paul A., Casapia, Martin, Sobieszczyk, Magdalena E., Karuna, Shelly T., and Edupuganti, Srilatha

Published
2024
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25. Genetic imputation of kidney transcriptome, proteome and multi-omics illuminates new blood pressure and hypertension targets

Author

Xu, Xiaoguang, Khunsriraksakul, Chachrit, Eales, James M., Rubin, Sebastien, Scannali, David, Saluja, Sushant, Talavera, David, Markus, Havell, Wang, Lida, Drzal, Maciej, Maan, Akhlaq, Lay, Abigail C., Prestes, Priscilla R., Regan, Jeniece, Diwadkar, Avantika R., Denniff, Matthew, Rempega, Grzegorz, Ryszawy, Jakub, Król, Robert, Dormer, John P., Szulinska, Monika, Walczak, Marta, Antczak, Andrzej, Matías-García, Pamela R., Waldenberger, Melanie, Woolf, Adrian S., Keavney, Bernard, Zukowska-Szczechowska, Ewa, Wystrychowski, Wojciech, Zywiec, Joanna, Bogdanski, Pawel, Danser, A. H. Jan, Samani, Nilesh J., Guzik, Tomasz J., Morris, Andrew P., Liu, Dajiang J., Charchar, Fadi J., and Tomaszewski, Maciej

Published
2024
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26. Inter-species gene flow drives ongoing evolution of Streptococcus pyogenes and Streptococcus dysgalactiae subsp. equisimilis

Author

Xie, Ouli, Morris, Jacqueline M., Hayes, Andrew J., Towers, Rebecca J., Jespersen, Magnus G., Lees, John A., Ben Zakour, Nouri L., Berking, Olga, Baines, Sarah L., Carter, Glen P., Tonkin-Hill, Gerry, Schrieber, Layla, McIntyre, Liam, Lacey, Jake A., James, Taylah B., Sriprakash, Kadaba S., Beatson, Scott A., Hasegawa, Tadao, Giffard, Phil, Steer, Andrew C., Batzloff, Michael R., Beall, Bernard W., Pinho, Marcos D., Ramirez, Mario, Bessen, Debra E., Dougan, Gordon, Bentley, Stephen D., Walker, Mark J., Currie, Bart J., Tong, Steven Y. C., McMillan, David J., and Davies, Mark R.

Published
2024
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27. Gene-SGAN: discovering disease subtypes with imaging and genetic signatures via multi-view weakly-supervised deep clustering

Author

Yang, Zhijian, Wen, Junhao, Abdulkadir, Ahmed, Cui, Yuhan, Erus, Guray, Mamourian, Elizabeth, Melhem, Randa, Srinivasan, Dhivya, Govindarajan, Sindhuja T., Chen, Jiong, Habes, Mohamad, Masters, Colin L., Maruff, Paul, Fripp, Jurgen, Ferrucci, Luigi, Albert, Marilyn S., Johnson, Sterling C., Morris, John C., LaMontagne, Pamela, Marcus, Daniel S., Benzinger, Tammie L. S., Wolk, David A., Shen, Li, Bao, Jingxuan, Resnick, Susan M., Shou, Haochang, Nasrallah, Ilya M., and Davatzikos, Christos

Published
2024
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28. Structural insights into i-motif DNA structures in sequences from the insulin-linked polymorphic region

Author

Dilek Guneri, Effrosyni Alexandrou, Kamel El Omari, Zuzana Dvořáková, Rupesh V. Chikhale, Daniel T. S. Pike, Christopher A. Waudby, Christopher J. Morris, Shozeb Haider, Gary N. Parkinson, and Zoë A. E. Waller

Subjects
Science
Abstract

Abstract The insulin-linked polymorphic region is a variable number of tandem repeats region of DNA in the promoter of the insulin gene that regulates transcription of insulin. This region is known to form the alternative DNA structures, i-motifs and G-quadruplexes. Individuals have different sequence variants of tandem repeats and although previous work investigated the effects of some variants on G-quadruplex formation, there is not a clear picture of the relationship between the sequence diversity, the DNA structures formed, and the functional effects on insulin gene expression. Here we show that different sequence variants of the insulin linked polymorphic region form different DNA structures in vitro. Additionally, reporter genes in cellulo indicate that insulin expression may change depending on which DNA structures form. We report the crystal structure and dynamics of an intramolecular i-motif, which reveal sequences within the loop regions forming additional stabilising interactions that are critical to formation of stable i-motif structures. The outcomes of this work reveal the detail in formation of stable i-motif DNA structures, with potential for rational based drug design for compounds to target i-motif DNA.

Published
2024
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29. Mutual reinforcement of land-based carbon dioxide removal and international emissions trading in deep decarbonization scenarios

Author

Jennifer Morris, Angelo Gurgel, Bryan K. Mignone, Haroon Kheshgi, and Sergey Paltsev

Subjects
Science
Abstract

Abstract Carbon dioxide removal (CDR) technologies and international emissions trading are both widely represented in climate change mitigation scenarios, but the interplay among them has not been closely examined. By systematically varying key policy and technology assumptions in a global energy-economic model, we find that CDR and international emissions trading are mutually reinforcing in deep decarbonization scenarios. This occurs because CDR potential is not evenly distributed geographically, allowing trade to unlock this potential, and because trading in a net-zero emissions world requires negative emissions, allowing CDR to enable trade. Since carbon prices change in the opposite direction as the quantity of permits traded and CDR deployed, we find that the total amount spent on emissions trading and the revenue received by CDR producers do not vary strongly with constraints on emissions trading or CDR. However, spending is more efficient and GDP is higher when both CDR and trading are available.

Published
2024
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30. A conserved oomycete effector RxLR23 triggers plant defense responses by targeting ERD15La to release NbNAC68

Author

Hui Sheng, Congcong Ai, Cancan Yang, Chunyuan Zhu, Zhe Meng, Fengzhi Wu, Xiaodan Wang, Daolong Dou, Paul F. Morris, and Xiuguo Zhang

Subjects
Science
Abstract

Abstract Oomycete pathogens deliver many effectors to enhance virulence or suppress plant immunity. Plant immune networks are interconnected, in which a few effectors can trigger a strong defense response when recognized by immunity-related proteins. How effectors activate plant defense response remains poorly understood. Here we report Phytophthora capsici effector RxLR23KM can induce plant cell death and plant immunity. RxLR23KM specifically binds to ERD15La, a regulator of abscisic acid and salicylic acid pathway, and the binding intensity depends on the amino acid residues (K93 and M320). NbNAC68, a downstream protein of ERD15La, can stimulate plant immunity that is compromised after binding with ERD15La. Silencing of NbNAC68 substantially prevents the activation of plant defense response. RxLR23KM binds to ERD15La, releasing NbNAC68 to activate plant immunity. These findings highlight a strategy of plant defense response that ERD15La as a central regulator coordinates RxLR23KM to regulate NbNAC68-triggered plant immunity.

Published
2024
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31. SARS-CoV-2 serosurvey across multiple waves of the COVID-19 pandemic in New York City between 2020–2023

Author

Juan Manuel Carreño, Abram L. Wagner, Brian Monahan, Gagandeep Singh, Daniel Floda, Ana S. Gonzalez-Reiche, Johnstone Tcheou, Ariel Raskin, Dominika Bielak, Sara Morris, Miriam Fried, Temima Yellin, Leeba Sullivan, PARIS study group, Emilia Mia Sordillo, Aubree Gordon, Harm van Bakel, Viviana Simon, and Florian Krammer

Subjects
Science
Abstract

Abstract Sero-monitoring provides context to the epidemiology of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections and changes in population immunity following vaccine introduction. Here, we describe results of a cross-sectional hospital-based study of anti-spike seroprevalence in New York City (NYC) from February 2020 to July 2022, and a follow-up period from August 2023 to October 2023. Samples from 55,092 individuals, spanning five epidemiological waves were analyzed. Prevalence ratios (PR) were obtained using Poisson regression. Anti-spike antibody levels increased gradually over the first two waves, with a sharp increase during the 3rd wave coinciding with SARS-CoV-2 vaccination in NYC resulting in seroprevalence levels >90% by July 2022. Our data provide insights into the dynamic changes in immunity occurring in a large and diverse metropolitan community faced with a new viral pathogen and reflects the patterns of antibody responses as the pandemic transitions into an endemic stage.

Published
2024
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32. Baseline levels and longitudinal changes in plasma Aβ42/40 among Black and white individuals

Author

Chengjie Xiong, Jingqin Luo, David A. Wolk, Leslie M. Shaw, Erik D. Roberson, Charles F. Murchison, Rachel L. Henson, Tammie L. S. Benzinger, Quoc Bui, Folasade Agboola, Elizabeth Grant, Emily N. Gremminger, Krista L. Moulder, David S. Geldmacher, Olivio J. Clay, Ganesh Babulal, Carlos Cruchaga, David M. Holtzman, Randall J. Bateman, John C. Morris, and Suzanne E. Schindler

Subjects
Science
Abstract

Abstract Blood-based biomarkers of Alzheimer disease (AD) may facilitate testing of historically under-represented groups. The Study of Race to Understand Alzheimer Biomarkers (SORTOUT-AB) is a multi-center longitudinal study to compare AD biomarkers in participants who identify their race as either Black or white. Plasma samples from 324 Black and 1,547 white participants underwent analysis with C2N Diagnostics’ PrecivityAD test for Aβ42 and Aβ40. Compared to white individuals, Black individuals had higher average plasma Aβ42/40 levels at baseline, consistent with a lower average level of amyloid pathology. Interestingly, this difference resulted from lower average levels of plasma Aβ40 in Black participants. Despite the differences, Black and white individuals had similar longitudinal rates of change in Aβ42/40, consistent with a similar rate of amyloid accumulation. Our results agree with multiple recent studies demonstrating a lower prevalence of amyloid pathology in Black individuals, and additionally suggest that amyloid accumulates consistently across both groups.

Published
2024
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33. Amyloid formation and depolymerization of tumor suppressor p16INK4a are regulated by a thiol-dependent redox mechanism

Author

Sarah G. Heath, Shelby G. Gray, Emilie M. Hamzah, Karina M. O’Connor, Stephanie M. Bozonet, Alex D. Botha, Pierre de Cordovez, Nicholas J. Magon, Jennifer D. Naughton, Dylan L. W. Goldsmith, Abigail J. Schwartfeger, Margaret Sunde, Alexander K. Buell, Vanessa K. Morris, and Christoph Göbl

Subjects
Science
Abstract

Abstract The conversion of a soluble protein into polymeric amyloid structures is a process that is poorly understood. Here, we describe a fully redox-regulated amyloid system in which cysteine oxidation of the tumor suppressor protein p16INK4a leads to rapid amyloid formation. We identify a partially-structured disulfide-bonded dimeric intermediate species that subsequently assembles into fibrils. The stable amyloid structures disassemble when the disulfide bond is reduced. p16INK4a is frequently mutated in cancers and is considered highly vulnerable to single-point mutations. We find that multiple cancer-related mutations show increased amyloid formation propensity whereas mutations stabilizing the fold prevent transition into amyloid. The complex transition into amyloids and their structural stability is therefore strictly governed by redox reactions and a single regulatory disulfide bond.

Published
2024
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34. Widespread chromatin context-dependencies of DNA double-strand break repair proteins

Author

Xabier Vergara, Anna G. Manjón, Marcel de Haas, Ben Morris, Ruben Schep, Christ Leemans, Anoek Friskes, Roderick L. Beijersbergen, Mathijs A. Sanders, René H. Medema, and Bas van Steensel

Subjects
Science
Abstract

Abstract DNA double-strand breaks are repaired by multiple pathways, including non-homologous end-joining (NHEJ) and microhomology-mediated end-joining (MMEJ). The balance of these pathways is dependent on the local chromatin context, but the underlying mechanisms are poorly understood. By combining knockout screening with a dual MMEJ:NHEJ reporter inserted in 19 different chromatin environments, we identified dozens of DNA repair proteins that modulate pathway balance dependent on the local chromatin state. Proteins that favor NHEJ mostly synergize with euchromatin, while proteins that favor MMEJ generally synergize with distinct types of heterochromatin. Examples of the former are BRCA2 and POLL, and of the latter the FANC complex and ATM. Moreover, in a diversity of human cancer types, loss of several of these proteins alters the distribution of pathway-specific mutations between heterochromatin and euchromatin. Together, these results uncover a complex network of proteins that regulate MMEJ:NHEJ balance in a chromatin context-dependent manner.

Published
2024
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35. Longitudinal multicompartment characterization of host-microbiota interactions in patients with acute respiratory failure

Author

Georgios D. Kitsios, Khaled Sayed, Adam Fitch, Haopu Yang, Noel Britton, Faraaz Shah, William Bain, John W. Evankovich, Shulin Qin, Xiaohong Wang, Kelvin Li, Asha Patel, Yingze Zhang, Josiah Radder, Charles Dela Cruz, Daniel A. Okin, Ching‐Ying Huang, Daria Van Tyne, Panayiotis V. Benos, Barbara Methé, Peggy Lai, Alison Morris, and Bryan J. McVerry

Subjects
Science
Abstract

Abstract Critical illness can significantly alter the composition and function of the human microbiome, but few studies have examined these changes over time. Here, we conduct a comprehensive analysis of the oral, lung, and gut microbiota in 479 mechanically ventilated patients (223 females, 256 males) with acute respiratory failure. We use advanced DNA sequencing technologies, including Illumina amplicon sequencing (utilizing 16S and ITS rRNA genes for bacteria and fungi, respectively, in all sample types) and Nanopore metagenomics for lung microbiota. Our results reveal a progressive dysbiosis in all three body compartments, characterized by a reduction in microbial diversity, a decrease in beneficial anaerobes, and an increase in pathogens. We find that clinical factors, such as chronic obstructive pulmonary disease, immunosuppression, and antibiotic exposure, are associated with specific patterns of dysbiosis. Interestingly, unsupervised clustering of lung microbiota diversity and composition by 16S independently predicted survival and performed better than traditional clinical and host-response predictors. These observations are validated in two separate cohorts of COVID-19 patients, highlighting the potential of lung microbiota as valuable prognostic biomarkers in critical care. Understanding these microbiome changes during critical illness points to new opportunities for microbiota-targeted precision medicine interventions.

Published
2024
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36. Electric-field tunable Type-I to Type-II band alignment transition in MoSe2/WS2 heterobilayers

Author

Jed Kistner-Morris, Ao Shi, Erfu Liu, Trevor Arp, Farima Farahmand, Takashi Taniguchi, Kenji Watanabe, Vivek Aji, Chun Hung Lui, and Nathaniel Gabor

Subjects
Science
Abstract

Abstract Semiconductor heterojunctions are ubiquitous components of modern electronics. Their properties depend crucially on the band alignment at the interface, which may exhibit straddling gap (type-I), staggered gap (type-II) or broken gap (type-III). The distinct characteristics and applications associated with each alignment make it highly desirable to switch between them within a single material. Here we demonstrate an electrically tunable transition between type-I and type-II band alignments in MoSe2/WS2 heterobilayers by investigating their luminescence and photocurrent characteristics. In their intrinsic state, these heterobilayers exhibit a type-I band alignment, resulting in the dominant intralayer exciton luminescence from MoSe2. However, the application of a strong interlayer electric field induces a transition to a type-II band alignment, leading to pronounced interlayer exciton luminescence. Furthermore, the formation of the interlayer exciton state traps free carriers at the interface, leading to the suppression of interlayer photocurrent and highly nonlinear photocurrent-voltage characteristics. This breakthrough in electrical band alignment control, interlayer exciton manipulation, and carrier trapping heralds a new era of versatile optical and (opto)electronic devices composed of van der Waals heterostructures.

Published
2024
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37. Platform-directed allostery and quaternary structure dynamics of SAMHD1 catalysis

Author

Oliver J. Acton, Devon Sheppard, Simone Kunzelmann, Sarah J. Caswell, Andrea Nans, Ailidh J. O. Burgess, Geoff Kelly, Elizabeth R. Morris, Peter B. Rosenthal, and Ian A. Taylor

Subjects
Science
Abstract

Abstract SAMHD1 regulates cellular nucleotide homeostasis, controlling dNTP levels by catalysing their hydrolysis into 2’-deoxynucleosides and triphosphate. In differentiated CD4+ macrophage and resting T-cells SAMHD1 activity results in the inhibition of HIV-1 infection through a dNTP blockade. In cancer, SAMHD1 desensitizes cells to nucleoside-analogue chemotherapies. Here we employ time-resolved cryogenic-EM imaging and single-particle analysis to visualise assembly, allostery and catalysis by this multi-subunit enzyme. Our observations reveal how dynamic conformational changes in the SAMHD1 quaternary structure drive the catalytic cycle. We capture five states at high-resolution in a live catalytic reaction, revealing how allosteric activators support assembly of a stable SAMHD1 tetrameric core and how catalysis is driven by the opening and closing of active sites through pairwise coupling of active sites and order-disorder transitions in regulatory domains. This direct visualisation of enzyme catalysis dynamics within an allostery-stabilised platform sets a precedent for mechanistic studies into the regulation of multi-subunit enzymes.

Published
2024
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38. FGFR inhibition blocks NF-ĸB-dependent glucose metabolism and confers metabolic vulnerabilities in cholangiocarcinoma

Author

Yuanli Zhen, Kai Liu, Lei Shi, Simran Shah, Qin Xu, Haley Ellis, Eranga R. Balasooriya, Johannes Kreuzer, Robert Morris, Albert S. Baldwin, Dejan Juric, Wilhelm Haas, and Nabeel Bardeesy

Subjects
Science
Abstract

Abstract Genomic alterations that activate Fibroblast Growth Factor Receptor 2 (FGFR2) are common in intrahepatic cholangiocarcinoma (ICC) and confer sensitivity to FGFR inhibition. However, the depth and duration of response is often limited. Here, we conduct integrative transcriptomics, metabolomics, and phosphoproteomics analysis of patient-derived models to define pathways downstream of oncogenic FGFR2 signaling that fuel ICC growth and to uncover compensatory mechanisms associated with pathway inhibition. We find that FGFR2-mediated activation of Nuclear factor-κB (NF-κB) maintains a highly glycolytic phenotype. Conversely, FGFR inhibition blocks glucose uptake and glycolysis while inciting adaptive changes, including switching fuel source utilization favoring fatty acid oxidation and increasing mitochondrial fusion and autophagy. Accordingly, FGFR inhibitor efficacy is potentiated by combined mitochondrial targeting, an effect enhanced in xenograft models by intermittent fasting. Thus, we show that oncogenic FGFR2 signaling drives NF-κB-dependent glycolysis in ICC and that metabolic reprogramming in response to FGFR inhibition confers new targetable vulnerabilities.

Published
2024
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39. Drivers and implications of alternative routes to fuels decarbonization in net-zero energy systems

Author

Bryan K. Mignone, Leon Clarke, James A. Edmonds, Angelo Gurgel, Howard J. Herzog, Jeremiah X. Johnson, Dharik S. Mallapragada, Haewon McJeon, Jennifer Morris, Patrick R. O’Rourke, Sergey Paltsev, Steven K. Rose, Daniel C. Steinberg, and Aranya Venkatesh

Subjects
Science
Abstract

Abstract Energy transition scenarios are characterized by increasing electrification and improving efficiency of energy end uses, rapid decarbonization of the electric power sector, and deployment of carbon dioxide removal (CDR) technologies to offset remaining emissions. Although hydrocarbon fuels typically decline in such scenarios, significant volumes remain in many scenarios even at the time of net-zero emissions. While scenarios rely on different approaches for decarbonizing remaining fuels, the underlying drivers for these differences are unclear. Here we develop several illustrative net-zero systems in a simple structural energy model and show that, for a given set of final energy demands, assumptions about the use of biomass and CO2 sequestration drive key differences in how emissions from remaining fuels are mitigated. Limiting one resource may increase reliance on another, implying that decisions about using or restricting resources in pursuit of net-zero objectives could have significant tradeoffs that will need to be evaluated and managed.

Published
2024
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40. Pharmacological inhibition of α-synuclein aggregation within liquid condensates

Author

Samuel T. Dada, Zenon Toprakcioglu, Mariana P. Cali, Alexander Röntgen, Maarten C. Hardenberg, Owen M. Morris, Lena K. Mrugalla, Tuomas P. J. Knowles, and Michele Vendruscolo

Subjects
Science
Abstract

Abstract Aggregated forms of α-synuclein constitute the major component of Lewy bodies, the proteinaceous aggregates characteristic of Parkinson’s disease. Emerging evidence suggests that α-synuclein aggregation may occur within liquid condensates formed through phase separation. This mechanism of aggregation creates new challenges and opportunities for drug discovery for Parkinson’s disease, which is otherwise still incurable. Here we show that the condensation-driven aggregation pathway of α-synuclein can be inhibited using small molecules. We report that the aminosterol claramine stabilizes α-synuclein condensates and inhibits α-synuclein aggregation within the condensates both in vitro and in a Caenorhabditis elegans model of Parkinson’s disease. By using a chemical kinetics approach, we show that the mechanism of action of claramine is to inhibit primary nucleation within the condensates. These results illustrate a possible therapeutic route based on the inhibition of protein aggregation within condensates, a phenomenon likely to be relevant in other neurodegenerative disorders.

Published
2024
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41. Sulfur oxidation and reduction are coupled to nitrogen fixation in the roots of the salt marsh foundation plant Spartina alterniflora

Author

J. L. Rolando, M. Kolton, T. Song, Y. Liu, P. Pinamang, R. Conrad, J. T. Morris, K. T. Konstantinidis, and J. E. Kostka

Subjects
Science
Abstract

Abstract Heterotrophic activity, primarily driven by sulfate-reducing prokaryotes, has traditionally been linked to nitrogen fixation in the root zone of coastal marine plants, leaving the role of chemolithoautotrophy in this process unexplored. Here, we show that sulfur oxidation coupled to nitrogen fixation is a previously overlooked process providing nitrogen to coastal marine macrophytes. In this study, we recovered 239 metagenome-assembled genomes from a salt marsh dominated by the foundation plant Spartina alterniflora, including diazotrophic sulfate-reducing and sulfur-oxidizing bacteria. Abundant sulfur-oxidizing bacteria encode and highly express genes for carbon fixation (RuBisCO), nitrogen fixation (nifHDK) and sulfur oxidation (oxidative-dsrAB), especially in roots stressed by sulfidic and reduced sediment conditions. Stressed roots exhibited the highest rates of nitrogen fixation and expression level of sulfur oxidation and sulfate reduction genes. Close relatives of marine symbionts from the Candidatus Thiodiazotropha genus contributed ~30% and ~20% of all sulfur-oxidizing dsrA and nitrogen-fixing nifK transcripts in stressed roots, respectively. Based on these findings, we propose that the symbiosis between S. alterniflora and sulfur-oxidizing bacteria is key to ecosystem functioning of coastal salt marshes.

Published
2024
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42. Overlapping Streptococcus pyogenes and Streptococcus dysgalactiae subspecies equisimilis household transmission and mobile genetic element exchange

Author

Ouli Xie, Cameron Zachreson, Gerry Tonkin-Hill, David J. Price, Jake A. Lacey, Jacqueline M. Morris, Malcolm I. McDonald, Asha C. Bowen, Philip M. Giffard, Bart J. Currie, Jonathan R. Carapetis, Deborah C. Holt, Stephen D. Bentley, Mark R. Davies, and Steven Y. C. Tong

Subjects
Science
Abstract

Abstract Streptococcus dysgalactiae subspecies equisimilis (SDSE) and Streptococcus pyogenes share skin and throat niches with extensive genomic homology and horizontal gene transfer (HGT) possibly underlying shared disease phenotypes. It is unknown if cross-species transmission interaction occurs. Here, we conduct a genomic analysis of a longitudinal household survey in remote Australian First Nations communities for patterns of cross-species transmission interaction and HGT. Collected from 4547 person-consultations, we analyse 294 SDSE and 315 S. pyogenes genomes. We find SDSE and S. pyogenes transmission intersects extensively among households and show that patterns of co-occurrence and transmission links are consistent with independent transmission without inter-species interference. We identify at least one of three near-identical cross-species mobile genetic elements (MGEs) carrying antimicrobial resistance or streptodornase virulence genes in 55 (19%) SDSE and 23 (7%) S. pyogenes isolates. These findings demonstrate co-circulation of both pathogens and HGT in communities with a high burden of streptococcal disease, supporting a need to integrate SDSE and S. pyogenes surveillance and control efforts.

Published
2024
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43. Perinatal outcomes after admission with COVID-19 in pregnancy: a UK national cohort study

Author

Hilde Marie Engjom, Rema Ramakrishnan, Nicola Vousden, Kathryn Bunch, Edward Morris, Nigel Simpson, Chris Gale, Pat O’Brien, Maria Quigley, Peter Brocklehurst, Jennifer J. Kurinczuk, and Marian Knight

Subjects
Science
Abstract

Abstract There are few population-based studies of sufficient size and follow-up duration to have reliably assessed perinatal outcomes for pregnant women hospitalised with SARS-CoV-2 infection. The United Kingdom Obstetric Surveillance System (UKOSS) covers all 194 consultant-led UK maternity units and included all pregnant women admitted to hospital with an ongoing SARS-CoV-2 infection. Here we show that in this large national cohort comprising two years’ active surveillance over four SARS-CoV-2 variant periods and with near complete follow-up of pregnancy outcomes for 16,627 included women, severe perinatal outcomes were more common in women with moderate to severe COVID-19, during the delta dominant period and among unvaccinated women. We provide strong evidence to recommend continuous surveillance of pregnancy outcomes in future pandemics and to continue to recommend SARS-CoV-2 vaccination in pregnancy to protect both mothers and babies.

Published
2024
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44. Comprehensive mutational scanning of EGFR reveals TKI sensitivities of extracellular domain mutants

Author

Tikvah K. Hayes, Elisa Aquilanti, Nicole S. Persky, Xiaoping Yang, Erica E. Kim, Lisa Brenan, Amy B. Goodale, Douglas Alan, Ted Sharpe, Robert E. Shue, Lindsay Westlake, Lior Golomb, Brianna R. Silverman, Myshal D. Morris, Ty Running Fisher, Eden Beyene, Yvonne Y. Li, Andrew D. Cherniack, Federica Piccioni, J. Kevin Hicks, Andrew S. Chi, Daniel P. Cahill, Jorg Dietrich, Tracy T. Batchelor, David E. Root, Cory M. Johannessen, and Matthew Meyerson

Subjects
Science
Abstract

Abstract The epidermal growth factor receptor, EGFR, is frequently activated in lung cancer and glioblastoma by genomic alterations including missense mutations. The different mutation spectra in these diseases are reflected in divergent responses to EGFR inhibition: significant patient benefit in lung cancer, but limited in glioblastoma. Here, we report a comprehensive mutational analysis of EGFR function. We perform saturation mutagenesis of EGFR and assess function of ~22,500 variants in a human EGFR-dependent lung cancer cell line. This approach reveals enrichment of erlotinib-insensitive variants of known and unknown significance in the dimerization, transmembrane, and kinase domains. Multiple EGFR extracellular domain variants, not associated with approved targeted therapies, are sensitive to afatinib and dacomitinib in vitro. Two glioblastoma patients with somatic EGFR G598V dimerization domain mutations show responses to dacomitinib treatment followed by within-pathway resistance mutation in one case. In summary, this comprehensive screen expands the landscape of functional EGFR variants and suggests broader clinical investigation of EGFR inhibition for cancers harboring extracellular domain mutations.

Published
2024
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45. Genetic imputation of kidney transcriptome, proteome and multi-omics illuminates new blood pressure and hypertension targets

Author

Xiaoguang Xu, Chachrit Khunsriraksakul, James M. Eales, Sebastien Rubin, David Scannali, Sushant Saluja, David Talavera, Havell Markus, Lida Wang, Maciej Drzal, Akhlaq Maan, Abigail C. Lay, Priscilla R. Prestes, Jeniece Regan, Avantika R. Diwadkar, Matthew Denniff, Grzegorz Rempega, Jakub Ryszawy, Robert Król, John P. Dormer, Monika Szulinska, Marta Walczak, Andrzej Antczak, Pamela R. Matías-García, Melanie Waldenberger, Adrian S. Woolf, Bernard Keavney, Ewa Zukowska-Szczechowska, Wojciech Wystrychowski, Joanna Zywiec, Pawel Bogdanski, A. H. Jan Danser, Nilesh J. Samani, Tomasz J. Guzik, Andrew P. Morris, Dajiang J. Liu, Fadi J. Charchar, Human Kidney Tissue Resource Study Group, and Maciej Tomaszewski

Subjects
Science
Abstract

Abstract Genetic mechanisms of blood pressure (BP) regulation remain poorly defined. Using kidney-specific epigenomic annotations and 3D genome information we generated and validated gene expression prediction models for the purpose of transcriptome-wide association studies in 700 human kidneys. We identified 889 kidney genes associated with BP of which 399 were prioritised as contributors to BP regulation. Imputation of kidney proteome and microRNAome uncovered 97 renal proteins and 11 miRNAs associated with BP. Integration with plasma proteomics and metabolomics illuminated circulating levels of myo-inositol, 4-guanidinobutanoate and angiotensinogen as downstream effectors of several kidney BP genes (SLC5A11, AGMAT, AGT, respectively). We showed that genetically determined reduction in renal expression may mimic the effects of rare loss-of-function variants on kidney mRNA/protein and lead to an increase in BP (e.g., ENPEP). We demonstrated a strong correlation (r = 0.81) in expression of protein-coding genes between cells harvested from urine and the kidney highlighting a diagnostic potential of urinary cell transcriptomics. We uncovered adenylyl cyclase activators as a repurposing opportunity for hypertension and illustrated examples of BP-elevating effects of anticancer drugs (e.g. tubulin polymerisation inhibitors). Collectively, our studies provide new biological insights into genetic regulation of BP with potential to drive clinical translation in hypertension.

Published
2024
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46. Inter-species gene flow drives ongoing evolution of Streptococcus pyogenes and Streptococcus dysgalactiae subsp. equisimilis

Author

Ouli Xie, Jacqueline M. Morris, Andrew J. Hayes, Rebecca J. Towers, Magnus G. Jespersen, John A. Lees, Nouri L. Ben Zakour, Olga Berking, Sarah L. Baines, Glen P. Carter, Gerry Tonkin-Hill, Layla Schrieber, Liam McIntyre, Jake A. Lacey, Taylah B. James, Kadaba S. Sriprakash, Scott A. Beatson, Tadao Hasegawa, Phil Giffard, Andrew C. Steer, Michael R. Batzloff, Bernard W. Beall, Marcos D. Pinho, Mario Ramirez, Debra E. Bessen, Gordon Dougan, Stephen D. Bentley, Mark J. Walker, Bart J. Currie, Steven Y. C. Tong, David J. McMillan, and Mark R. Davies

Subjects
Science
Abstract

Abstract Streptococcus dysgalactiae subsp. equisimilis (SDSE) is an emerging cause of human infection with invasive disease incidence and clinical manifestations comparable to the closely related species, Streptococcus pyogenes. Through systematic genomic analyses of 501 disseminated SDSE strains, we demonstrate extensive overlap between the genomes of SDSE and S. pyogenes. More than 75% of core genes are shared between the two species with one third demonstrating evidence of cross-species recombination. Twenty-five percent of mobile genetic element (MGE) clusters and 16 of 55 SDSE MGE insertion regions were shared across species. Assessing potential cross-protection from leading S. pyogenes vaccine candidates on SDSE, 12/34 preclinical vaccine antigen genes were shown to be present in >99% of isolates of both species. Relevant to possible vaccine evasion, six vaccine candidate genes demonstrated evidence of inter-species recombination. These findings demonstrate previously unappreciated levels of genomic overlap between these closely related pathogens with implications for streptococcal pathobiology, disease surveillance and prevention.

Published
2024
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47. Atezolizumab plus stereotactic ablative radiotherapy for medically inoperable patients with early-stage non-small cell lung cancer: a multi-institutional phase I trial

Author

Monjazeb, Arta M, Daly, Megan E, Luxardi, Guillaume, Maverakis, Emanual, Merleev, Alexander A, Marusina, Alina I, Borowsky, Alexander, Mirhadi, Amin, Shiao, Stephen L, Beckett, Laurel, Chen, Shuai, Eastham, David, Li, Tianhong, Vick, Logan V, McGee, Heather M, Lara, Frances, Garcia, Leslie, Morris, Leigh Anne, Canter, Robert J, Riess, Jonathan W, Schalper, Kurt A, Murphy, William J, and Kelly, Karen

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Lung Cancer, Clinical Research, Cancer, Clinical Trials and Supportive Activities, Lung, Evaluation of treatments and therapeutic interventions, 6.5 Radiotherapy and other non-invasive therapies, 6.1 Pharmaceuticals, Good Health and Well Being, Humans, Carcinoma, Non-Small-Cell Lung, Lung Neoplasms, Small Cell Lung Carcinoma, Radiosurgery
Abstract

Stereotactic ablative radiotherapy (SABR) is a standard-of-care for medically-inoperable-early-stage non-small cell lung cancer (NSCLC). One third of patients progress and chemotherapy is rarely used in this population. We questioned if addition of the immune-checkpoint-inhibitor (ICI) atezolizumab to standard-of-care SABR can improve outcomes. We initiated a multi-institutional single-arm phase I study (NCT02599454) enrolling twenty patients with the primary endpoint of maximum tolerated dose (MTD); secondary endpoints of safety and efficacy; and exploratory mechanistic correlatives. Treatment is well tolerated and full dose atezolizumab (1200 mg) is the MTD. Efficacy signals include early responses (after 2 cycles of ICI, before initiation of SABR) in 17% of patients. Biomarkers of functional adaptive immunity, including T cell activation in the tumor and response to ex-vivo stimulation by circulating T cells, are highly predictive of benefit. These results require validation and are being tested in a phase III randomized trial.

Published
2023

48. Germline modifiers of the tumor immune microenvironment implicate drivers of cancer risk and immunotherapy response

Author

Pagadala, Meghana, Sears, Timothy J, Wu, Victoria H, Pérez-Guijarro, Eva, Kim, Hyo, Castro, Andrea, Talwar, James V, Gonzalez-Colin, Cristian, Cao, Steven, Schmiedel, Benjamin J, Goudarzi, Shervin, Kirani, Divya, Au, Jessica, Zhang, Tongwu, Landi, Teresa, Salem, Rany M, Morris, Gerald P, Harismendy, Olivier, Patel, Sandip Pravin, Alexandrov, Ludmil B, Mesirov, Jill P, Zanetti, Maurizio, Day, Chi-Ping, Fan, Chun Chieh, Thompson, Wesley K, Merlino, Glenn, Gutkind, J Silvio, Vijayanand, Pandurangan, and Carter, Hannah

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Cancer Genomics, Immunotherapy, Genetics, Human Genome, Cancer, Vaccine Related, Immunization, 2.1 Biological and endogenous factors, Good Health and Well Being, Germ Cells, Germ-Line Mutation, Inhibition, Psychological, Macrophages, Tumor Microenvironment, Neoplasms
Abstract

With the continued promise of immunotherapy for treating cancer, understanding how host genetics contributes to the tumor immune microenvironment (TIME) is essential to tailoring cancer screening and treatment strategies. Here, we study 1084 eQTLs affecting the TIME found through analysis of The Cancer Genome Atlas and literature curation. These TIME eQTLs are enriched in areas of active transcription, and associate with gene expression in specific immune cell subsets, such as macrophages and dendritic cells. Polygenic score models built with TIME eQTLs reproducibly stratify cancer risk, survival and immune checkpoint blockade (ICB) response across independent cohorts. To assess whether an eQTL-informed approach could reveal potential cancer immunotherapy targets, we inhibit CTSS, a gene implicated by cancer risk and ICB response-associated polygenic models; CTSS inhibition results in slowed tumor growth and extended survival in vivo. These results validate the potential of integrating germline variation and TIME characteristics for uncovering potential targets for immunotherapy.

Published
2023

49. Grain refinement in titanium prevents low temperature oxygen embrittlement

Author

Chong, Yan, Gholizadeh, Reza, Tsuru, Tomohito, Zhang, Ruopeng, Inoue, Koji, Gao, Wenqiang, Godfrey, Andy, Mitsuhara, Masatoshi, Morris, JW, Minor, Andrew M, and Tsuji, Nobuhiro

Subjects
Engineering, Macromolecular and Materials Chemistry, Materials Engineering, Chemical Sciences
Abstract

Interstitial oxygen embrittles titanium, particularly at cryogenic temperatures, which necessitates a stringent control of oxygen content in fabricating titanium and its alloys. Here, we propose a structural strategy, via grain refinement, to alleviate this problem. Compared to a coarse-grained counterpart that is extremely brittle at 77 K, the uniform elongation of an ultrafine-grained (UFG) microstructure (grain size ~ 2.0 µm) in Ti-0.3wt.%O is successfully increased by an order of magnitude, maintaining an ultrahigh yield strength inherent to the UFG microstructure. This unique strength-ductility synergy in UFG Ti-0.3wt.%O is achieved via the combined effects of diluted grain boundary segregation of oxygen that helps to improve the grain boundary cohesive energy and enhanced dislocation activities that contribute to the excellent strain hardening ability. The present strategy will not only boost the potential applications of high strength Ti-O alloys at low temperatures, but can also be applied to other alloy systems, where interstitial solution hardening results into an undesirable loss of ductility.

Published
2023

50. Critical role of slags in pitting corrosion of additively manufactured stainless steel in simulated seawater

Author

Shohini Sen-Britain, Seongkoo Cho, ShinYoung Kang, Zhen Qi, Saad Khairallah, Debra Rosas, Vanna Som, Tian T. Li, S. Roger Qiu, Y. Morris Wang, Brandon C. Wood, and Thomas Voisin

Subjects
Science
Abstract

Abstract Pitting corrosion in seawater is one of the most difficult forms of corrosion to identify and control. A workhorse material for marine applications, 316L stainless steel (316L SS) is known to balance resistance to pitting with good mechanical properties. The advent of additive manufacturing (AM), particularly laser powder bed fusion (LPBF), has prompted numerous microstructural and mechanical investigations of LPBF 316L SS; however, the origins of pitting corrosion on as-built surfaces is unknown, despite their utmost importance for certification of LPBF 316L SS prior to fielding. Here, we show that Mn-rich silicate slags are responsible for pitting of the as-built LPBF material in sodium chloride due to their introduction of deleterious defects such as cracks or surface oxide heterogeneities. In addition, we explain how slags are formed in the liquid metal and deposited at the as-built surfaces using high-fidelity melt pool simulations. Our work uncovers how LPBF changes surface oxides due to rapid solidification and high-temperature oxidation, leading to fundamentally different pitting corrosion mechanisms.

Published
2024
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