Your search keyword '"Johnson, Hannah L."' showing total 36 results

1. Infant-derived human nasal organoids exhibit relatively increased susceptibility, epithelial responses, and cytotoxicity during RSV infection

Author

Aloisio, Gina M., Nagaraj, Divya, Murray, Ashley M., Schultz, Emily M., McBride, Trevor, Aideyan, Letisha, Nicholson, Erin G., Henke, David, Ferlic-Stark, Laura, Rajan, Anubama, Kambal, Amal, Johnson, Hannah L., Mosa, Elina, Stossi, Fabio, Blutt, Sarah E., Piedra, Pedro A., and Avadhanula, Vasanthi

Published

2024

2. A Multisite Preregistered Paradigmatic Test of the Ego-Depletion Effect

Author

Vohs, Kathleen D, Schmeichel, Brandon J, Lohmann, Sophie, Gronau, Quentin F, Finley, Anna J, Ainsworth, Sarah E, Alquist, Jessica L, Baker, Michael D, Brizi, Ambra, Bunyi, Angelica, Butschek, Grant J, Campbell, Collier, Capaldi, Jonathan, Cau, Chuting, Chambers, Heather, Chatzisarantis, Nikos LD, Christensen, Weston J, Clay, Samuel L, Curtis, Jessica, De Cristofaro, Valeria, del Rosario, Kareena, Diel, Katharina, Doğruol, Yasemin, Doi, Megan, Donaldson, Tina L, Eder, Andreas B, Ersoff, Mia, Eyink, Julie R, Falkenstein, Angelica, Fennis, Bob M, Findley, Matthew B, Finkel, Eli J, Forgea, Victoria, Friese, Malte, Fuglestad, Paul, Garcia-Willingham, Natasha E, Geraedts, Lea F, Gervais, Will M, Giacomantonio, Mauro, Gibson, Bryan, Gieseler, Karolin, Gineikiene, Justina, Gloger, Elana M, Gobes, Carina M, Grande, Maria, Hagger, Martin S, Hartsell, Bethany, Hermann, Anthony D, Hidding, Jasper J, Hirt, Edward R, Hodge, Josh, Hofmann, Wilhelm, Howell, Jennifer L, Hutton, Robert D, Inzlicht, Michael, James, Lily, Johnson, Emily, Johnson, Hannah L, Joyce, Sarah M, Joye, Yannick, Kaben, Jan Helge, Kammrath, Lara K, Kelly, Caitlin N, Kissell, Brian L, Koole, Sander L, Krishna, Anand, Lam, Christine, Lee, Kelemen T, Lee, Nick, Leighton, Dana C, Loschelder, David D, Maranges, Heather M, Masicampo, EJ, Mazara, Kennedy, McCarthy, Samantha, McGregor, Ian, Mead, Nicole L, Mendes, Wendy B, Meslot, Carine, Michalak, Nicholas M, Milyavskaya, Marina, Miyake, Akira, Moeini-Jazani, Mehrad, Muraven, Mark, Nakahara, Erin, Patel, Krishna, Petrocelli, John V, Pollak, Katja M, Price, Mindi M, Ramsey, Haley J, Rath, Maximilian, Robertson, Jacob A, Rockwell, Rachael, Russ, Isabella F, Salvati, Marco, Saunders, Blair, Scherer, Anne, Schütz, Astrid, Schmitt, Kristin N, and Segerstrom, Suzanne C

Subjects

Bayes Theorem, Ego, Humans, Research Design, Self-Control, ego depletion, self-control, registered replication, open data, open materials, preregistered, Psychology, Cognitive Sciences, Experimental Psychology

Abstract

We conducted a preregistered multilaboratory project (k = 36; N = 3,531) to assess the size and robustness of ego-depletion effects using a novel replication method, termed the paradigmatic replication approach. Each laboratory implemented one of two procedures that was intended to manipulate self-control and tested performance on a subsequent measure of self-control. Confirmatory tests found a nonsignificant result (d = 0.06). Confirmatory Bayesian meta-analyses using an informed-prior hypothesis (δ = 0.30, SD = 0.15) found that the data were 4 times more likely under the null than the alternative hypothesis. Hence, preregistered analyses did not find evidence for a depletion effect. Exploratory analyses on the full sample (i.e., ignoring exclusion criteria) found a statistically significant effect (d = 0.08); Bayesian analyses showed that the data were about equally likely under the null and informed-prior hypotheses. Exploratory moderator tests suggested that the depletion effect was larger for participants who reported more fatigue but was not moderated by trait self-control, willpower beliefs, or action orientation.

Published

2021

3. Gene transcription regulation by ER at the single cell and allele level

Author

Stossi, Fabio, Rivera Tostado, Alejandra, Johnson, Hannah L., Mistry, Ragini M., Mancini, Maureen G., and Mancini, Michael A.

Published

2023

4. Oral follicle-stimulating hormone receptor agonist affects granulosa cells differently than recombinant human FSH

Author

Guner, Joie Z., Monsivais, Diana, Yu, Henry, Stossi, Fabio, Johnson, Hannah L., Gibbons, William E., Matzuk, Martin M., and Palmer, Stephen

Published

2023

5. Development and Implementation of a Community Paramedicine Program in Rural United States

Author

Myers, Lucas A., Carlson, Peter N., Krantz, Paul W., Johnson, Hannah L., Will, Matthew D., Bjork, Tasha M., Dirkes, Marlene, Bowe, Justin E., Gunderson, Kirk A., and Russi, Christopher S.

Subjects

paramedic, emergency department, community paramedic

Abstract

Introduction: Community paramedicine (CP) is an innovative care model focused on medical management for patients suffering from chronic diseases or other conditions that result in over-utilization of healthcare services. Despite their value, CP care models are not widely used in United States healthcare settings. More research is needed to understand the feasibility and effectiveness of implementing CP programs. Our objective was to develop a CP program to better meet the needs of complex, high-utilizer patients in a rural setting.Methods: We conducted an observational descriptive case series in a community, 25-bed, critical access hospital and primary care clinic in a rural Wisconsin county. Multiple stakeholders from the local health system and associated ambulance service were active participants in program development and implementation. Eligible patients receiving the intervention were identified as complex or high need by a referring physician. Primary outcomes included measures of emergency department, hospital, and clinic utilization. Secondary measures included provider and patient satisfaction.Results: We characterized 32 unique patients as high utilizers requiring assistance in medical management. These patients were enrolled into the program and categorized as high utilizers requiring assistance in medical management. The median age was 76 years, and 68.8% were female. After six months, we found a statistically significant decline in patient utilization for primary care (53.3%, p = .006) and ED visits (59.3%, p = .007), but not for hospitalizations (60%, p = .13, non-significant (NS), compared to the six months preceding enrollment. Overall, the total number of healthcare contacts was increased after implementation (623 before vs 790 after, + 167, +26.8%). Implementation of the CP program resulted in increased overall use of local healthcare resources in patients referred by physicians as high utilizers.Conclusion: The implementation of an in-home CP program targeting high users of healthcare resources resulted in a decrease in utilization in the hospital, ED, and primary care settings; however, it was balanced and exceeded by the number of CP visits. CP programs align well with population health strategies and could be better leveraged to fill gaps in care and promote appropriate access to healthcare services. Further study is required to determine whether the shift in type of healthcare access reduces or increases cost.

Published

2020

6. Targeted brachyury degradation disrupts a highly specific autoregulatory program controlling chordoma cell identity

Author

Sheppard, Hadley E., Dall’Agnese, Alessandra, Park, Woojun D., Shamim, M. Hamza, Dubrulle, Julien, Johnson, Hannah L., Stossi, Fabio, Cogswell, Patricia, Sommer, Josh, Levy, Joan, Sharifnia, Tanaz, Wawer, Mathias J., Nabet, Behnam, Gray, Nathanael S., Clemons, Paul A., Schreiber, Stuart L., Workman, Paul, Young, Richard A., and Lin, Charles Y.

Published

2021

7. Single-Cell Distribution Analysis of AR Levels by High-Throughput Microscopy in Cell Models: Application for Testing Endocrine-Disrupting Chemicals

Author

Stossi, Fabio, Mistry, Ragini M., Singh, Pankaj K., Johnson, Hannah L., Mancini, Maureen G., Szafran, Adam T., and Mancini, Michael A.

Published

2020

8. Pediatric human nose organoids demonstrate greater susceptibility, epithelial responses, and cytotoxicity than adults during RSV infection.

Author

Aloisio, Gina M., primary, Nagaraj, Divya, additional, Murray, Ashley M., additional, Schultz, Emily M., additional, McBride, Trevor, additional, Aideyan, Letisha, additional, Nicholson, Erin G., additional, Henke, David, additional, Ferlic-Stark, Laura, additional, Rajan, Anubama, additional, Kambal, Amal, additional, Johnson, Hannah L., additional, Mosa, Elina, additional, Stossi, Fabio, additional, Blutt, Sarah E., additional, Piedra, Pedro A., additional, and Avadhanula, Vasanthi, additional

Published

2024

9. Morphological screening of mesenchymal mammary tumor organoids to identify drugs that reverse epithelial-mesenchymal transition

Author

Zhao, Na, Powell, Reid T., Yuan, Xueying, Bae, Goeun, Roarty, Kevin P., Stossi, Fabio, Strempfl, Martina, Toneff, Michael J., Johnson, Hannah L., Mani, Sendurai A., Jones, Philip, Stephan, Clifford C., and Rosen, Jeffrey M.

Published

2021

10. Analysis and Modeling of Early Estradiol-induced GREB1 Single Allele Gene Transcription at the Population Level

Author

Ghasemi, Mahmood S, primary, Singh, Pankaj K, additional, Johnson, Hannah L, additional, Koksoy, Ayse, additional, Mancini, Michael, additional, Stossi, Fabio, additional, and Azencott, Robert, additional

Published

2023

11. Oral follicle stimulating hormone (FSH) receptor agonist affects granulosa cells differently than recombinant human FSH

Author

Guner, Joie Z., primary, Monsivais, Diana, additional, Yu, Henry, additional, Stossi, Fabio, additional, Johnson, Hannah L., additional, Gibbons, William E., additional, Matzuk, Martin M., additional, and Palmer, Stephen, additional

Published

2023

12. Supplemental Figure 1 from Oncogenic Mutations in PI3K/AKT/mTOR Pathway Effectors Associate with Worse Prognosis in BRAFV600E-Driven Papillary Thyroid Cancer Patients

Author

Pappa, Theodora, primary, Ahmadi, Sara, primary, Marqusee, Ellen, primary, Johnson, Hannah L., primary, Nehs, Matthew A., primary, Cho, Nancy L., primary, Barletta, Justine A., primary, Lorch, Jochen H., primary, Doherty, Gerard M., primary, Lindeman, Neal I., primary, Alexander, Erik K., primary, and Landa, Iñigo, primary

Published

2023

13. Abstract P6-11-15: Lipid accumulation in residual triple negative breast cancer cells surviving chemotherapy treatment

Author

Pendleton, Katherine E., primary, Baek, Mokryun L., additional, Lee, Junegoo, additional, Tan, Lin, additional, Johnson, Hannah L., additional, Dobrolecki, Lacey E., additional, Barrish, James P., additional, Lewis, Michael T., additional, Lorenzi, Philip L., additional, Stossi, Fabio, additional, and Echeverria, Gloria V., additional

Published

2023

14. Abstract 6355: A characterisation of direct and indirect transcription factor inhibition to target brachyury in chordoma

Author

Sheppard, Hadley E., primary, Dall’Agnese, Alessandra, additional, Park, Woojun D., additional, Shamim, M. Shamim, additional, Dubrulle, Julien, additional, Johnson, Hannah L., additional, Stossi, Fabio, additional, Sommer, Josh, additional, Levy, Joan, additional, Sharifnia, Tanaz, additional, Wawer, Mathias, additional, Nabet, Behnam, additional, Clemons, Paul A., additional, Schreiber, Stuart L., additional, Clarke, Paul, additional, Young, Rick, additional, Lin, Charles Y., additional, and Workman, Paul, additional

Published

2022

15. Multiple Respiratory Syncytial Virus (RSV) Strains Infecting HEp-2 and A549 Cells Reveal Cell Line-Dependent Differences in Resistance to RSV Infection

Author

Rajan, Anubama, primary, Piedra, Felipe-Andrés, additional, Aideyan, Letisha, additional, McBride, Trevor, additional, Robertson, Matthew, additional, Johnson, Hannah L., additional, Aloisio, Gina Marie, additional, Henke, David, additional, Coarfa, Cristian, additional, Stossi, Fabio, additional, Menon, Vipin Kumar, additional, Doddapaneni, Harshavardhan, additional, Muzny, Donna Marie, additional, Javornik Cregeen, Sara Joan, additional, Hoffman, Kristi Louise, additional, Petrosino, Joseph, additional, Gibbs, Richard A., additional, Avadhanula, Vasanthi, additional, and Piedra, Pedro A., additional

Published

2022

16. The Human Nose Organoid Respiratory Virus Model: an Ex Vivo Human Challenge Model To Study Respiratory Syncytial Virus (RSV) and Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) Pathogenesis and Evaluate Therapeutics

Author

Rajan, Anubama, primary, Weaver, Ashley Morgan, additional, Aloisio, Gina Marie, additional, Jelinski, Joseph, additional, Johnson, Hannah L., additional, Venable, Susan F., additional, McBride, Trevor, additional, Aideyan, Letisha, additional, Piedra, Felipe-Andrés, additional, Ye, Xunyan, additional, Melicoff-Portillo, Ernestina, additional, Yerramilli, Malli Rama Kanthi, additional, Zeng, Xi-Lei, additional, Mancini, Michael A., additional, Stossi, Fabio, additional, Maresso, Anthony W., additional, Kotkar, Shalaka A., additional, Estes, Mary K., additional, Blutt, Sarah, additional, Avadhanula, Vasanthi, additional, and Piedra, Pedro A., additional

Published

2022

17. Quality Control for Single Cell Imaging Analytics Using Endocrine Disruptor-Induced Changes in Estrogen Receptor Expression

Author

Stossi, Fabio, primary, Singh, Pankaj K., additional, Mistry, Ragini M., additional, Johnson, Hannah L., additional, Dandekar, Radhika D., additional, Mancini, Maureen G., additional, Szafran, Adam T., additional, Rao, Arvind U., additional, and Mancini, Michael A., additional

Published

2022

18. sj-pdf-1-pss-10.1177_0956797621989733 ��� Supplemental material for A Multisite Preregistered Paradigmatic Test of the Ego-Depletion Effect

Author

Vohs, Kathleen D., Schmeichel, Brandon J., Lohmann, Sophie, Gronau, Quentin F., Finley, Anna J., Ainsworth, Sarah E., Alquist, Jessica L., Baker, Michael D., Brizi, Ambra, Bunyi, Angelica, Butschek, Grant J., Campbell, Collier, Capaldi, Jonathan, Cau, Chuting, Chambers, Heather, Chatzisarantis, Nikos L. D., Christensen, Weston J., Clay, Samuel L., Curtis, Jessica, De Cristofaro, Valeria, del Rosario, Kareena, Diel, Katharina, Do��ruol, Yasemin, Doi, Megan, Donaldson, Tina L., Eder, Andreas B., Ersoff, Mia, Eyink, Julie R., Falkenstein, Angelica, Fennis, Bob M., Findley, Matthew B., Finkel, Eli J., Forgea, Victoria, Friese, Malte, Fuglestad, Paul, Garcia-Willingham, Natasha E., Geraedts, Lea F., Gervais, Will M., Giacomantonio, Mauro, Gibson, Bryan, Gieseler, Karolin, Gineikiene, Justina, Gloger, Elana M., Gobes, Carina M., Grande, Maria, Hagger, Martin S., Hartsell, Bethany, Hermann, Anthony D., Hidding, Jasper J., Hirt, Edward R., Hodge, Josh, Hofmann, Wilhelm, Howell, Jennifer L., Hutton, Robert D., Inzlicht, Michael, James, Lily, Johnson, Emily, Johnson, Hannah L., Joyce, Sarah M., Joye, Yannick, Kaben, Jan Helge, Kammrath, Lara K., Kelly, Caitlin N., Kissell, Brian L., Koole, Sander L., Krishna, Anand, Lam, Christine, Lee, Kelemen T., Lee, Nick, Leighton, Dana C., Loschelder, David D., Maranges, Heather M., Masicampo, E. J., Mazara, Kennedy, McCarthy, Samantha, McGregor, Ian, Mead, Nicole L., Mendes, Wendy B., Meslot, Carine, Michalak, Nicholas M., Milyavskaya, Marina, Miyake, Akira, Moeini-Jazani, Mehrad, Muraven, Mark, Nakahara, Erin, Patel, Krishna, Petrocelli, John V., Pollak, Katja M., Price, Mindi M., Ramsey, Haley J., Rath, Maximilian, Robertson, Jacob A., Rockwell, Rachael, Russ, Isabella F., Salvati, Marco, Saunders, Blair, Scherer, Anne, Sch��tz, Astrid, Schmitt, Kristin N., Segerstrom, Suzanne C., Serenka, Benjamin, Sharpinskyi, Konstantyn, Shaw, Meaghan, Sherman, Janelle, Song, Yu, Sosa, Nicholas, Spillane, Kaitlyn, Stapels, Julia, Stinnett, Alec J., Strawser, Hannah R., Sweeny, Kate, Theodore, Dominic, Tonnu, Karine, van Oldenbeuving, Yasmijn, vanDellen, Michelle R., Vergara, Raiza C., Walker, Jasmine S., Waugh, Christian E., Weise, Feline, Werner, Kaitlyn M., Wheeler, Craig, White, Rachel A., Wichman, Aaron L., Wiggins, Bradford J., Wills, Julian A., Wilson, Janie H., Wagenmakers, Eric-Jan, and Albarrac��n, Dolores

Subjects

FOS: Psychology, FOS: Clinical medicine, 170199 Psychology not elsewhere classified, 110319 Psychiatry (incl. Psychotherapy), 110904 Neurology and Neuromuscular Diseases, Neuroscience

Abstract

Supplemental material, sj-pdf-1-pss-10.1177_0956797621989733 for A Multisite Preregistered Paradigmatic Test of the Ego-Depletion Effect by Kathleen D. Vohs, Brandon J. Schmeichel, Sophie Lohmann, Quentin F. Gronau, Anna J. Finley, Sarah E. Ainsworth, Jessica L. Alquist, Michael D. Baker, Ambra Brizi, Angelica Bunyi, Grant J. Butschek, Collier Campbell, Jonathan Capaldi, Chuting Cau, Heather Chambers, Nikos L. D. Chatzisarantis, Weston J. Christensen, Samuel L. Clay, Jessica Curtis, Valeria De Cristofaro, Kareena del Rosario, Katharina Diel, Yasemin Do��ruol, Megan Doi, Tina L. Donaldson, Andreas B. Eder, Mia Ersoff, Julie R. Eyink, Angelica Falkenstein, Bob M. Fennis, Matthew B. Findley, Eli J. Finkel, Victoria Forgea, Malte Friese, Paul Fuglestad, Natasha E. Garcia-Willingham, Lea F. Geraedts, Will M. Gervais, Mauro Giacomantonio, Bryan Gibson, Karolin Gieseler, Justina Gineikiene, Elana M. Gloger, Carina M. Gobes, Maria Grande, Martin S. Hagger, Bethany Hartsell, Anthony D. Hermann, Jasper J. Hidding, Edward R. Hirt, Josh Hodge, Wilhelm Hofmann, Jennifer L. Howell, Robert D. Hutton, Michael Inzlicht, Lily James, Emily Johnson, Hannah L. Johnson, Sarah M. Joyce, Yannick Joye, Jan Helge Kaben, Lara K. Kammrath, Caitlin N. Kelly, Brian L. Kissell, Sander L. Koole, Anand Krishna, Christine Lam, Kelemen T. Lee, Nick Lee, Dana C. Leighton, David D. Loschelder, Heather M. Maranges, E. J. Masicampo, Kennedy Mazara, Samantha McCarthy, Ian McGregor, Nicole L. Mead, Wendy B. Mendes, Carine Meslot, Nicholas M. Michalak, Marina Milyavskaya, Akira Miyake, Mehrad Moeini-Jazani, Mark Muraven, Erin Nakahara, Krishna Patel, John V. Petrocelli, Katja M. Pollak, Mindi M. Price, Haley J. Ramsey, Maximilian Rath, Jacob A. Robertson, Rachael Rockwell, Isabella F. Russ, Marco Salvati, Blair Saunders, Anne Scherer, Astrid Sch��tz, Kristin N. Schmitt, Suzanne C. Segerstrom, Benjamin Serenka, Konstantyn Sharpinskyi, Meaghan Shaw, Janelle Sherman, Yu Song, Nicholas Sosa, Kaitlyn Spillane, Julia Stapels, Alec J. Stinnett, Hannah R. Strawser, Kate Sweeny, Dominic Theodore, Karine Tonnu, Yasmijn van Oldenbeuving, Michelle R. vanDellen, Raiza C. Vergara, Jasmine S. Walker, Christian E. Waugh, Feline Weise, Kaitlyn M. Werner, Craig Wheeler, Rachel A. White, Aaron L. Wichman, Bradford J. Wiggins, Julian A. Wills, Janie H. Wilson, Eric-Jan Wagenmakers and Dolores Albarrac��n in Psychological Science

Published

2021

19. sj-docx-1-pss-10.1177_0956797621989733 ��� Supplemental material for A Multisite Preregistered Paradigmatic Test of the Ego-Depletion Effect

Author

Vohs, Kathleen D., Schmeichel, Brandon J., Lohmann, Sophie, Gronau, Quentin F., Finley, Anna J., Ainsworth, Sarah E., Alquist, Jessica L., Baker, Michael D., Brizi, Ambra, Bunyi, Angelica, Butschek, Grant J., Campbell, Collier, Capaldi, Jonathan, Cau, Chuting, Chambers, Heather, Chatzisarantis, Nikos L. D., Christensen, Weston J., Clay, Samuel L., Curtis, Jessica, De Cristofaro, Valeria, del Rosario, Kareena, Diel, Katharina, Do��ruol, Yasemin, Doi, Megan, Donaldson, Tina L., Eder, Andreas B., Ersoff, Mia, Eyink, Julie R., Falkenstein, Angelica, Fennis, Bob M., Findley, Matthew B., Finkel, Eli J., Forgea, Victoria, Friese, Malte, Fuglestad, Paul, Garcia-Willingham, Natasha E., Geraedts, Lea F., Gervais, Will M., Giacomantonio, Mauro, Gibson, Bryan, Gieseler, Karolin, Gineikiene, Justina, Gloger, Elana M., Gobes, Carina M., Grande, Maria, Hagger, Martin S., Hartsell, Bethany, Hermann, Anthony D., Hidding, Jasper J., Hirt, Edward R., Hodge, Josh, Hofmann, Wilhelm, Howell, Jennifer L., Hutton, Robert D., Inzlicht, Michael, James, Lily, Johnson, Emily, Johnson, Hannah L., Joyce, Sarah M., Joye, Yannick, Kaben, Jan Helge, Kammrath, Lara K., Kelly, Caitlin N., Kissell, Brian L., Koole, Sander L., Krishna, Anand, Lam, Christine, Lee, Kelemen T., Lee, Nick, Leighton, Dana C., Loschelder, David D., Maranges, Heather M., Masicampo, E. J., Mazara, Kennedy, McCarthy, Samantha, McGregor, Ian, Mead, Nicole L., Mendes, Wendy B., Meslot, Carine, Michalak, Nicholas M., Milyavskaya, Marina, Miyake, Akira, Moeini-Jazani, Mehrad, Muraven, Mark, Nakahara, Erin, Patel, Krishna, Petrocelli, John V., Pollak, Katja M., Price, Mindi M., Ramsey, Haley J., Rath, Maximilian, Robertson, Jacob A., Rockwell, Rachael, Russ, Isabella F., Salvati, Marco, Saunders, Blair, Scherer, Anne, Sch��tz, Astrid, Schmitt, Kristin N., Segerstrom, Suzanne C., Serenka, Benjamin, Sharpinskyi, Konstantyn, Shaw, Meaghan, Sherman, Janelle, Song, Yu, Sosa, Nicholas, Spillane, Kaitlyn, Stapels, Julia, Stinnett, Alec J., Strawser, Hannah R., Sweeny, Kate, Theodore, Dominic, Tonnu, Karine, van Oldenbeuving, Yasmijn, vanDellen, Michelle R., Vergara, Raiza C., Walker, Jasmine S., Waugh, Christian E., Weise, Feline, Werner, Kaitlyn M., Wheeler, Craig, White, Rachel A., Wichman, Aaron L., Wiggins, Bradford J., Wills, Julian A., Wilson, Janie H., Wagenmakers, Eric-Jan, and Albarrac��n, Dolores

Subjects

FOS: Psychology, FOS: Clinical medicine, 170199 Psychology not elsewhere classified, 110319 Psychiatry (incl. Psychotherapy), 110904 Neurology and Neuromuscular Diseases, Neuroscience

Abstract

Supplemental material, sj-docx-1-pss-10.1177_0956797621989733 for A Multisite Preregistered Paradigmatic Test of the Ego-Depletion Effect by Kathleen D. Vohs, Brandon J. Schmeichel, Sophie Lohmann, Quentin F. Gronau, Anna J. Finley, Sarah E. Ainsworth, Jessica L. Alquist, Michael D. Baker, Ambra Brizi, Angelica Bunyi, Grant J. Butschek, Collier Campbell, Jonathan Capaldi, Chuting Cau, Heather Chambers, Nikos L. D. Chatzisarantis, Weston J. Christensen, Samuel L. Clay, Jessica Curtis, Valeria De Cristofaro, Kareena del Rosario, Katharina Diel, Yasemin Do��ruol, Megan Doi, Tina L. Donaldson, Andreas B. Eder, Mia Ersoff, Julie R. Eyink, Angelica Falkenstein, Bob M. Fennis, Matthew B. Findley, Eli J. Finkel, Victoria Forgea, Malte Friese, Paul Fuglestad, Natasha E. Garcia-Willingham, Lea F. Geraedts, Will M. Gervais, Mauro Giacomantonio, Bryan Gibson, Karolin Gieseler, Justina Gineikiene, Elana M. Gloger, Carina M. Gobes, Maria Grande, Martin S. Hagger, Bethany Hartsell, Anthony D. Hermann, Jasper J. Hidding, Edward R. Hirt, Josh Hodge, Wilhelm Hofmann, Jennifer L. Howell, Robert D. Hutton, Michael Inzlicht, Lily James, Emily Johnson, Hannah L. Johnson, Sarah M. Joyce, Yannick Joye, Jan Helge Kaben, Lara K. Kammrath, Caitlin N. Kelly, Brian L. Kissell, Sander L. Koole, Anand Krishna, Christine Lam, Kelemen T. Lee, Nick Lee, Dana C. Leighton, David D. Loschelder, Heather M. Maranges, E. J. Masicampo, Kennedy Mazara, Samantha McCarthy, Ian McGregor, Nicole L. Mead, Wendy B. Mendes, Carine Meslot, Nicholas M. Michalak, Marina Milyavskaya, Akira Miyake, Mehrad Moeini-Jazani, Mark Muraven, Erin Nakahara, Krishna Patel, John V. Petrocelli, Katja M. Pollak, Mindi M. Price, Haley J. Ramsey, Maximilian Rath, Jacob A. Robertson, Rachael Rockwell, Isabella F. Russ, Marco Salvati, Blair Saunders, Anne Scherer, Astrid Sch��tz, Kristin N. Schmitt, Suzanne C. Segerstrom, Benjamin Serenka, Konstantyn Sharpinskyi, Meaghan Shaw, Janelle Sherman, Yu Song, Nicholas Sosa, Kaitlyn Spillane, Julia Stapels, Alec J. Stinnett, Hannah R. Strawser, Kate Sweeny, Dominic Theodore, Karine Tonnu, Yasmijn van Oldenbeuving, Michelle R. vanDellen, Raiza C. Vergara, Jasmine S. Walker, Christian E. Waugh, Feline Weise, Kaitlyn M. Werner, Craig Wheeler, Rachel A. White, Aaron L. Wichman, Bradford J. Wiggins, Julian A. Wills, Janie H. Wilson, Eric-Jan Wagenmakers and Dolores Albarrac��n in Psychological Science

Published

2021

20. sj-pdf-2-pss-10.1177_0956797621989733 ��� Supplemental material for A Multisite Preregistered Paradigmatic Test of the Ego-Depletion Effect

Author

Vohs, Kathleen D., Schmeichel, Brandon J., Lohmann, Sophie, Gronau, Quentin F., Finley, Anna J., Ainsworth, Sarah E., Alquist, Jessica L., Baker, Michael D., Brizi, Ambra, Bunyi, Angelica, Butschek, Grant J., Campbell, Collier, Capaldi, Jonathan, Cau, Chuting, Chambers, Heather, Chatzisarantis, Nikos L. D., Christensen, Weston J., Clay, Samuel L., Curtis, Jessica, De Cristofaro, Valeria, del Rosario, Kareena, Diel, Katharina, Do��ruol, Yasemin, Doi, Megan, Donaldson, Tina L., Eder, Andreas B., Ersoff, Mia, Eyink, Julie R., Falkenstein, Angelica, Fennis, Bob M., Findley, Matthew B., Finkel, Eli J., Forgea, Victoria, Friese, Malte, Fuglestad, Paul, Garcia-Willingham, Natasha E., Geraedts, Lea F., Gervais, Will M., Giacomantonio, Mauro, Gibson, Bryan, Gieseler, Karolin, Gineikiene, Justina, Gloger, Elana M., Gobes, Carina M., Grande, Maria, Hagger, Martin S., Hartsell, Bethany, Hermann, Anthony D., Hidding, Jasper J., Hirt, Edward R., Hodge, Josh, Hofmann, Wilhelm, Howell, Jennifer L., Hutton, Robert D., Inzlicht, Michael, James, Lily, Johnson, Emily, Johnson, Hannah L., Joyce, Sarah M., Joye, Yannick, Kaben, Jan Helge, Kammrath, Lara K., Kelly, Caitlin N., Kissell, Brian L., Koole, Sander L., Krishna, Anand, Lam, Christine, Lee, Kelemen T., Lee, Nick, Leighton, Dana C., Loschelder, David D., Maranges, Heather M., Masicampo, E. J., Mazara, Kennedy, McCarthy, Samantha, McGregor, Ian, Mead, Nicole L., Mendes, Wendy B., Meslot, Carine, Michalak, Nicholas M., Milyavskaya, Marina, Miyake, Akira, Moeini-Jazani, Mehrad, Muraven, Mark, Nakahara, Erin, Patel, Krishna, Petrocelli, John V., Pollak, Katja M., Price, Mindi M., Ramsey, Haley J., Rath, Maximilian, Robertson, Jacob A., Rockwell, Rachael, Russ, Isabella F., Salvati, Marco, Saunders, Blair, Scherer, Anne, Sch��tz, Astrid, Schmitt, Kristin N., Segerstrom, Suzanne C., Serenka, Benjamin, Sharpinskyi, Konstantyn, Shaw, Meaghan, Sherman, Janelle, Song, Yu, Sosa, Nicholas, Spillane, Kaitlyn, Stapels, Julia, Stinnett, Alec J., Strawser, Hannah R., Sweeny, Kate, Theodore, Dominic, Tonnu, Karine, van Oldenbeuving, Yasmijn, vanDellen, Michelle R., Vergara, Raiza C., Walker, Jasmine S., Waugh, Christian E., Weise, Feline, Werner, Kaitlyn M., Wheeler, Craig, White, Rachel A., Wichman, Aaron L., Wiggins, Bradford J., Wills, Julian A., Wilson, Janie H., Wagenmakers, Eric-Jan, and Albarrac��n, Dolores

Subjects

FOS: Psychology, FOS: Clinical medicine, 170199 Psychology not elsewhere classified, 110319 Psychiatry (incl. Psychotherapy), 110904 Neurology and Neuromuscular Diseases, Neuroscience

Abstract

Supplemental material, sj-pdf-2-pss-10.1177_0956797621989733 for A Multisite Preregistered Paradigmatic Test of the Ego-Depletion Effect by Kathleen D. Vohs, Brandon J. Schmeichel, Sophie Lohmann, Quentin F. Gronau, Anna J. Finley, Sarah E. Ainsworth, Jessica L. Alquist, Michael D. Baker, Ambra Brizi, Angelica Bunyi, Grant J. Butschek, Collier Campbell, Jonathan Capaldi, Chuting Cau, Heather Chambers, Nikos L. D. Chatzisarantis, Weston J. Christensen, Samuel L. Clay, Jessica Curtis, Valeria De Cristofaro, Kareena del Rosario, Katharina Diel, Yasemin Do��ruol, Megan Doi, Tina L. Donaldson, Andreas B. Eder, Mia Ersoff, Julie R. Eyink, Angelica Falkenstein, Bob M. Fennis, Matthew B. Findley, Eli J. Finkel, Victoria Forgea, Malte Friese, Paul Fuglestad, Natasha E. Garcia-Willingham, Lea F. Geraedts, Will M. Gervais, Mauro Giacomantonio, Bryan Gibson, Karolin Gieseler, Justina Gineikiene, Elana M. Gloger, Carina M. Gobes, Maria Grande, Martin S. Hagger, Bethany Hartsell, Anthony D. Hermann, Jasper J. Hidding, Edward R. Hirt, Josh Hodge, Wilhelm Hofmann, Jennifer L. Howell, Robert D. Hutton, Michael Inzlicht, Lily James, Emily Johnson, Hannah L. Johnson, Sarah M. Joyce, Yannick Joye, Jan Helge Kaben, Lara K. Kammrath, Caitlin N. Kelly, Brian L. Kissell, Sander L. Koole, Anand Krishna, Christine Lam, Kelemen T. Lee, Nick Lee, Dana C. Leighton, David D. Loschelder, Heather M. Maranges, E. J. Masicampo, Kennedy Mazara, Samantha McCarthy, Ian McGregor, Nicole L. Mead, Wendy B. Mendes, Carine Meslot, Nicholas M. Michalak, Marina Milyavskaya, Akira Miyake, Mehrad Moeini-Jazani, Mark Muraven, Erin Nakahara, Krishna Patel, John V. Petrocelli, Katja M. Pollak, Mindi M. Price, Haley J. Ramsey, Maximilian Rath, Jacob A. Robertson, Rachael Rockwell, Isabella F. Russ, Marco Salvati, Blair Saunders, Anne Scherer, Astrid Sch��tz, Kristin N. Schmitt, Suzanne C. Segerstrom, Benjamin Serenka, Konstantyn Sharpinskyi, Meaghan Shaw, Janelle Sherman, Yu Song, Nicholas Sosa, Kaitlyn Spillane, Julia Stapels, Alec J. Stinnett, Hannah R. Strawser, Kate Sweeny, Dominic Theodore, Karine Tonnu, Yasmijn van Oldenbeuving, Michelle R. vanDellen, Raiza C. Vergara, Jasmine S. Walker, Christian E. Waugh, Feline Weise, Kaitlyn M. Werner, Craig Wheeler, Rachel A. White, Aaron L. Wichman, Bradford J. Wiggins, Julian A. Wills, Janie H. Wilson, Eric-Jan Wagenmakers and Dolores Albarrac��n in Psychological Science

Published

2021

21. The human nose organoid respiratory virus model: an ex-vivo human challenge model to study RSV and SARS-CoV-2 pathogenesis and evaluate therapeutics

Author

Rajan, Anubama, primary, Weaver, Ashley Morgan, additional, Aloisio, Gina Marie, additional, Jelinski, Joseph, additional, Johnson, Hannah L., additional, Venable, Susan F., additional, McBride, Trevor, additional, Aideyan, Letisha, additional, Piedra, Felipe-Andrés, additional, Ye, Xunyan, additional, Melicoff-Portillo, Ernestina, additional, Yerramilli, Malli Rama Kanthi, additional, Zeng, Xi-Lei, additional, Mancini, Michael A, additional, Stossi, Fabio, additional, Maresso, Anthony W., additional, Kotkar, Shalaka A., additional, Estes, Mary K., additional, Blutt, Sarah, additional, Avadhanula, Vasanthi, additional, and Piedra, Pedro A., additional

Published

2021

22. Abstract LB216: Targeted brachyury degradation disrupts a highly specific autoregulatory program controlling chordoma cell identity

Author

Sheppard, Hadley E., primary, Dall'Agnese, Alessandra, additional, Park, Woojun D., additional, Shamim, Hamza, additional, Dubrulle, Julien, additional, Johnson, Hannah L., additional, Stossi, Fabio, additional, Cogswell, Patricia, additional, Sommer, Josh, additional, Levy, Joan, additional, Sharifnia, Tanaz, additional, Wawer, Mathias J., additional, Clemons, Paul A., additional, Nabet, Behnam, additional, Gray, Nathanael S., additional, Schreiber, Stuart L., additional, Workman, Paul, additional, Young, Richard A., additional, and Lin, Charles Y., additional

Published

2021

23. A Multisite Preregistered Paradigmatic Test of the Ego-Depletion Effect

Author

Vohs, Kathleen D., Schmeichel, Brandon J., Lohmann, Sophie, Gronau, Quentin F., Finley, Anna J., Ainsworth, Sarah E., Alquist, Jessica L., Baker, Michael D., Brizi, Ambra, Bunyi, Angelica, Butschek, Grant J., Campbell, Collier, Capaldi, Jonathan, Cau, Chuting, Chambers, Heather, Chatzisarantis, Nikos L.D., Christensen, Weston J., Clay, Samuel L., Curtis, Jessica, De Cristofaro, Valeria, del Rosario, Kareena, Diel, Katharina, Doğruol, Yasemin, Doi, Megan, Donaldson, Tina L., Eder, Andreas B., Ersoff, Mia, Eyink, Julie R., Falkenstein, Angelica, Fennis, Bob M., Findley, Matthew B., Finkel, Eli J., Forgea, Victoria, Friese, Malte, Fuglestad, Paul, Garcia-Willingham, Natasha E., Geraedts, Lea F., Gervais, Will M., Giacomantonio, Mauro, Gibson, Bryan, Gieseler, Karolin, Gineikiene, Justina, Gloger, Elana M., Gobes, Carina M., Grande, Maria, Hagger, Martin S., Hartsell, Bethany, Hermann, Anthony D., Hidding, Jasper J., Hirt, Edward R., Hodge, Josh, Hofmann, Wilhelm, Howell, Jennifer L., Hutton, Robert D., Inzlicht, Michael, James, Lily, Johnson, Emily, Johnson, Hannah L., Joyce, Sarah M., Joye, Yannick, Kaben, Jan Helge, Kammrath, Lara K., Kelly, Caitlin N., Kissell, Brian L., Koole, Sander L., Krishna, Anand, Lam, Christine, Lee, Kelemen T., Lee, Nick, Leighton, Dana C., Loschelder, David D., Maranges, Heather M., Masicampo, E. J., Mazara, Kennedy, McCarthy, Samantha, McGregor, Ian, Mead, Nicole L., Mendes, Wendy B., Meslot, Carine, Michalak, Nicholas M., Milyavskaya, Marina, Miyake, Akira, Moeini-Jazani, Mehrad, Muraven, Mark, Nakahara, Erin, Patel, Krishna, Petrocelli, John V., Pollak, Katja M., Price, Mindi M., Ramsey, Haley J., Rath, Maximilian, Robertson, Jacob A., Rockwell, Rachael, Russ, Isabella F., Salvati, Marco, Saunders, Blair, Scherer, Anne, Schütz, Astrid, Schmitt, Kristin N., Segerstrom, Suzanne C., Serenka, Benjamin, Sharpinskyi, Konstantyn, Shaw, Meaghan, Sherman, Janelle, Song, Yu, Sosa, Nicholas, Spillane, Kaitlyn, Stapels, Julia, Stinnett, Alec J., Strawser, Hannah R., Sweeny, Kate, Theodore, Dominic, Tonnu, Karine, van Oldenbeuving, Yasmijn, vanDellen, Michelle R., Vergara, Raiza C., Walker, Jasmine S., Waugh, Christian E., Weise, Feline, Werner, Kaitlyn M., Wheeler, Craig, White, Rachel A., Wichman, Aaron L., Wiggins, Bradford J., Wills, Julian A., Wilson, Janie H., Wagenmakers, Eric Jan, Albarracín, Dolores, Vohs, Kathleen D., Schmeichel, Brandon J., Lohmann, Sophie, Gronau, Quentin F., Finley, Anna J., Ainsworth, Sarah E., Alquist, Jessica L., Baker, Michael D., Brizi, Ambra, Bunyi, Angelica, Butschek, Grant J., Campbell, Collier, Capaldi, Jonathan, Cau, Chuting, Chambers, Heather, Chatzisarantis, Nikos L.D., Christensen, Weston J., Clay, Samuel L., Curtis, Jessica, De Cristofaro, Valeria, del Rosario, Kareena, Diel, Katharina, Doğruol, Yasemin, Doi, Megan, Donaldson, Tina L., Eder, Andreas B., Ersoff, Mia, Eyink, Julie R., Falkenstein, Angelica, Fennis, Bob M., Findley, Matthew B., Finkel, Eli J., Forgea, Victoria, Friese, Malte, Fuglestad, Paul, Garcia-Willingham, Natasha E., Geraedts, Lea F., Gervais, Will M., Giacomantonio, Mauro, Gibson, Bryan, Gieseler, Karolin, Gineikiene, Justina, Gloger, Elana M., Gobes, Carina M., Grande, Maria, Hagger, Martin S., Hartsell, Bethany, Hermann, Anthony D., Hidding, Jasper J., Hirt, Edward R., Hodge, Josh, Hofmann, Wilhelm, Howell, Jennifer L., Hutton, Robert D., Inzlicht, Michael, James, Lily, Johnson, Emily, Johnson, Hannah L., Joyce, Sarah M., Joye, Yannick, Kaben, Jan Helge, Kammrath, Lara K., Kelly, Caitlin N., Kissell, Brian L., Koole, Sander L., Krishna, Anand, Lam, Christine, Lee, Kelemen T., Lee, Nick, Leighton, Dana C., Loschelder, David D., Maranges, Heather M., Masicampo, E. J., Mazara, Kennedy, McCarthy, Samantha, McGregor, Ian, Mead, Nicole L., Mendes, Wendy B., Meslot, Carine, Michalak, Nicholas M., Milyavskaya, Marina, Miyake, Akira, Moeini-Jazani, Mehrad, Muraven, Mark, Nakahara, Erin, Patel, Krishna, Petrocelli, John V., Pollak, Katja M., Price, Mindi M., Ramsey, Haley J., Rath, Maximilian, Robertson, Jacob A., Rockwell, Rachael, Russ, Isabella F., Salvati, Marco, Saunders, Blair, Scherer, Anne, Schütz, Astrid, Schmitt, Kristin N., Segerstrom, Suzanne C., Serenka, Benjamin, Sharpinskyi, Konstantyn, Shaw, Meaghan, Sherman, Janelle, Song, Yu, Sosa, Nicholas, Spillane, Kaitlyn, Stapels, Julia, Stinnett, Alec J., Strawser, Hannah R., Sweeny, Kate, Theodore, Dominic, Tonnu, Karine, van Oldenbeuving, Yasmijn, vanDellen, Michelle R., Vergara, Raiza C., Walker, Jasmine S., Waugh, Christian E., Weise, Feline, Werner, Kaitlyn M., Wheeler, Craig, White, Rachel A., Wichman, Aaron L., Wiggins, Bradford J., Wills, Julian A., Wilson, Janie H., Wagenmakers, Eric Jan, and Albarracín, Dolores

Published

2021

24. Targeted brachyury degradation disrupts a highly specific autoregulatory program controlling chordoma cell identity

Author

Massachusetts Institute of Technology. Department of Biology, Whitehead Institute for Biomedical Research, Sheppard, Hadley E, Dall’Agnese, Alessandra, Park, Woojun D, Shamim, M Hamza, Dubrulle, Julien, Johnson, Hannah L, Stossi, Fabio, Cogswell, Patricia, Sommer, Josh, Levy, Joan, Sharifnia, Tanaz, Wawer, Mathias J, Nabet, Behnam, Gray, Nathanael S, Clemons, Paul A, Schreiber, Stuart L, Workman, Paul, Young, Richard A, Lin, Charles Y, Massachusetts Institute of Technology. Department of Biology, Whitehead Institute for Biomedical Research, Sheppard, Hadley E, Dall’Agnese, Alessandra, Park, Woojun D, Shamim, M Hamza, Dubrulle, Julien, Johnson, Hannah L, Stossi, Fabio, Cogswell, Patricia, Sommer, Josh, Levy, Joan, Sharifnia, Tanaz, Wawer, Mathias J, Nabet, Behnam, Gray, Nathanael S, Clemons, Paul A, Schreiber, Stuart L, Workman, Paul, Young, Richard A, and Lin, Charles Y

Abstract

© 2020 The Authors Sheppard et al. map the brachyury regulatory landscape in chordoma and explore its targeting using transcriptional CDK inhibition and targeted brachyury degradation. Brachyury is a highly selective transcriptional regulator of chordoma identity, and they confirm that brachyury targeting is a promising therapeutic strategy.

Published

2021

25. Multiple RSV strains infecting HEp-2 and A549 cells reveal cell line-dependent differences in resistance to RSV infection

Author

Rajan, Anubama, primary, Piedra, Felipe-Andrés, additional, Aideyan, Letisha, additional, McBride, Trevor, additional, Robertson, Matthew, additional, Johnson, Hannah L., additional, Aloisio, Gina Marie, additional, Henke, David, additional, Coarfa, Cristian, additional, Stossi, Fabio, additional, Menon, Vipin Kumar, additional, Doddapaneni, Harshavardhan, additional, Muzny, Donna Marie, additional, Cregeen, Sara Joan Javornik, additional, Hoffman, Kristi Louise, additional, Petrosino, Joseph, additional, Gibbs, Richard A, additional, Avadhanula, Vasanthi, additional, and Piedra, Pedro A., additional

Published

2021

26. Oncogenic Mutations in PI3K/AKT/mTOR Pathway Effectors Associate with Worse Prognosis in BRAFV600E-Driven Papillary Thyroid Cancer Patients

Author

Pappa, Theodora, primary, Ahmadi, Sara, additional, Marqusee, Ellen, additional, Johnson, Hannah L., additional, Nehs, Matthew A., additional, Cho, Nancy L., additional, Barletta, Justine A., additional, Lorch, Jochen H., additional, Doherty, Gerard M., additional, Lindeman, Neal I., additional, Alexander, Erik K., additional, and Landa, Iñigo, additional

Published

2021

27. Phenotypic and protein localization heterogeneity associated with AHDC1 pathogenic protein‐truncating alleles in Xia–Gibbs syndrome

Author

Khayat, Michael M., primary, Li, He, additional, Chander, Varuna, additional, Hu, Jianhong, additional, Hansen, Adam W., additional, Li, Shoudong, additional, Traynelis, Josh, additional, Shen, Hua, additional, Weissenberger, George, additional, Stossi, Fabio, additional, Johnson, Hannah L., additional, Lupski, James R., additional, Posey, Jennifer E., additional, Sabo, Aniko, additional, Meng, Qingchang, additional, Murdock, David R., additional, Wangler, Michael, additional, and Gibbs, Richard A., additional

Published

2021

28. Supplemental_Material_Stossi_Resubmission – Supplemental material for Single-Cell Distribution Analysis of AR Levels by High-Throughput Microscopy in Cell Models: Application for Testing Endocrine-Disrupting Chemicals

Author

Stossi, Fabio, Mistry, Ragini M., Singh, Pankaj K., Johnson, Hannah L., Mancini, Maureen G., Szafran, Adam T., and Mancini, Michael A.

Subjects

FOS: Clinical medicine, 111599 Pharmacology and Pharmaceutical Sciences not elsewhere classified

Abstract

Supplemental material, Supplemental_Material_Stossi_Resubmission for Single-Cell Distribution Analysis of AR Levels by High-Throughput Microscopy in Cell Models: Application for Testing Endocrine-Disrupting Chemicals by Fabio Stossi, Ragini M. Mistry, Pankaj K. Singh, Hannah L. Johnson, Maureen G. Mancini, Adam T. Szafran and Michael A. Mancini in SLAS Discovery

Published

2020

29. Quality Control for Single Cell Imaging Analytics Using Endocrine DisruptorInduced Changes in Estrogen Receptor Expression.

Author

Stossi, Fabio, Singh, Pankaj K., Mistry, Ragini M., Johnson, Hannah L., Dandekar, Radhika D., Mancini, Maureen G., Szafran, Adam T., Rao, Arvind U., and Mancini, Michael A.

Subjects

RNA analysis, CELL analysis, PROTEIN analysis, ENDOCRINE disruptors analysis, POLLUTANTS, PREDICTIVE tests, RESEARCH evaluation, CELL culture, MICROSCOPY, CULTURE media (Biology), ESTROGEN receptors, QUALITY control, FLUORESCENCE in situ hybridization, RESEARCH funding, TRANSCRIPTION factors, SENSITIVITY & specificity (Statistics), ENDOCRINE disruptors, ANALYTICAL chemistry

Abstract

BACKGROUND: Diverse toxicants and mixtures that affect hormone responsive cells [endocrine disrupting chemicals (EDCs)] are highly pervasive in the environment and are directly linked to human disease. They often target the nuclear receptor family of transcription factors modulating their levels and activity. Many high-throughput assays have been developed to query such toxicants; however, single-cell analysis of EDC effects on endogenous receptors has been missing, in part due to the lack of quality control metrics to reproducibly measure cell-to-cell variability in responses. OBJECTIVE: We began by developing single-cell imaging and informatic workflows to query whether the single cell distribution of the estrogen receptor-a (ER), used as a model system, can be used to measure effects of EDCs in a sensitive and reproducible manner. METHODS: We used high-throughput microscopy, coupled with image analytics to measure changes in single cell ER nuclear levels on treatment with ~100 toxicants, over a large number of biological and technical replicates. RESULTS: We developed a two-tiered quality control pipeline for single cell analysis and tested it against a large set of biological replicates, and toxicants from the EPA and Agency for Toxic Substances and Disease Registry lists. We also identified a subset of potentially novel EDCs that were active only on the endogenous ER level and activity as measured by single molecule RNA fluorescence in situ hybridization (RNA FISH). DISCUSSION: We demonstrated that the distribution of ER levels per cell, and the changes upon chemical challenges were remarkably stable features; and importantly, these features could be used for quality control and identification of endocrine disruptor toxicants with high sensitivity. When coupled with orthogonal assays, ERsingle cell distribution is a valuable resource for high-throughput screening of environmental toxicants. [ABSTRACT FROM AUTHOR]

Published

2022

30. Morphological screening of mesenchymal mammary tumor organoids to identify drugs that reverse epithelial-mesenchymal transition.

Author

Na Zhao, Powell, Reid T., Xueying Yuan, Bae, Goeun, Roarty, Kevin P., Stossi, Fabio, Strempfl, Martina, Toneff, Michael J., Johnson, Hannah L., Mani, Sendurai A., Jones, Philip, Stephan, Clifford C., and Rosen, Jeffrey M.

Subjects

EPITHELIAL-mesenchymal transition, TRIPLE-negative breast cancer, ORGANOIDS, HISTONE deacetylase inhibitors, CANCER cells, STEM cells

Abstract

The epithelial-mesenchymal transition (EMT) has been implicated in conferring stem cell properties and therapeutic resistance to cancer cells. Therefore, identification of drugs that can reprogram EMT may provide new therapeutic strategies. Here, we report that cells derived from claudin-low mammary tumors, a mesenchymal subtype of triple-negative breast cancer, exhibit a distinctive organoid structure with extended "spikes" in 3D matrices. Upon a miR-200 induced mesenchymal-epithelial transition (MET), the organoids switch to a smoother round morphology. Based on these observations, we developed a morphological screening method with accompanying analytical pipelines that leverage deep neural networks and nearest neighborhood classification to screen for EMT-reversing drugs. Through screening of a targeted epigenetic drug library, we identified multiple class I HDAC inhibitors and Bromodomain inhibitors that reverse EMT. These data support the use of morphological screening of mesenchymal mammary tumor organoids as a platform to identify drugs that reverse EMT. [ABSTRACT FROM AUTHOR]

Published

2021

31. Small Molecule Screening Identifies HSP90 as a Modifier of RNA Foci in Myotonic Dystrophy Type 1.

Author

Johnson SJ, Johnson HL, Powell RT, Stephan C, Stossi F, and Cooper TA

Abstract

Myotonic dystrophy type 1 (DM1) is a multisystemic disorder caused by a CTG triplet repeat expansion within the 3' untranslated region of the DMPK gene. Expression of the expanded allele generates RNA containing long tracts of CUG repeats (CUGexp RNA) that form hairpin structures and accumulate in nuclear RNA foci; however, the factors that control DMPK expression and the formation of CUGexp RNA foci remain largely unknown. We performed an unbiased small molecule screen in an immortalized human DM1 skeletal muscle myoblast cell line and identified HSP90 as a modifier of endogenous RNA foci. Small molecule inhibition of HSP90 leads to enhancement of RNA foci and upregulation of DMPK mRNA levels. Knockdown and overexpression of HSP90 in undifferentiated DM1 myoblasts validated the impact of HSP90 with upregulation and downregulation of DMPK mRNA, respectively. Furthermore, we identified p-STAT3 as a downstream mediator of HSP90 impacting levels of DMPK mRNA and RNA foci. Interestingly, differentiated cells exhibited an opposite effect of HSP90 inhibition displaying downregulation of DMPK mRNA through a mechanism independent of p-STAT3 involvement. This study has revealed a novel mediator for DMPK mRNA and foci regulation in DM1 cells with the potential to identify targets for future therapeutic intervention.

Published

2024

32. Pediatric human nose organoids demonstrate greater susceptibility, epithelial responses, and cytotoxicity than adults during RSV infection.

Author

Aloisio GM, Nagaraj D, Murray AM, Schultz EM, McBride T, Aideyan L, Nicholson EG, Henke D, Ferlic-Stark L, Rajan A, Kambal A, Johnson HL, Mosa E, Stossi F, Blutt SE, Piedra PA, and Avadhanula V

Abstract

Respiratory syncytial virus (RSV) is a common cause of respiratory infections, causing significant morbidity and mortality, especially in young children. Why RSV infection in children is more severe as compared to healthy adults is not fully understood. In the present study, we infect both pediatric and adult human nose organoid-air liquid interface (HNO-ALIs) cell lines with two contemporary RSV isolates and demonstrate how they differ in virus replication, induction of the epithelial cytokine response, cell injury, and remodeling. Pediatric HNO-ALIs were more susceptible to early RSV replication, elicited a greater overall cytokine response, demonstrated enhanced mucous production, and manifested greater cellular damage compared to their adult counterparts. Adult HNO-ALIs displayed enhanced mucus production and robust cytokine response that was well controlled by superior regulatory cytokine response and possibly resulted in lower cellular damage than in pediatric lines. Taken together, our data suggest substantial differences in how pediatric and adult upper respiratory tract epithelium responds to RSV infection. These differences in epithelial cellular response can lead to poor mucociliary clearance and predispose infants to a worse respiratory outcome of RSV infection., Competing Interests: Conflict of interest: The authors declare no conflicts of interest.

Published

2024

33. Analysis and Modeling of Early Estradiol-induced GREB1 Single Allele Gene Transcription at the Population Level.

Author

Ghasemi SM, Singh PK, Johnson HL, Koksoy A, Mancini MA, Stossi F, and Azencott R

Abstract

Single molecule fluorescence in situ hybridization (smFISH) can be used to visualize transcriptional activation at the single allele level. We and others have applied this approach to better understand the mechanisms of activation by steroid nuclear receptors. However, there is limited understanding of the interconnection between the activation of target gene alleles inside the same nucleus and within large cell populations. Using the GREB1 gene as an early estrogen receptor (ER) response target, we applied smFISH to track E2-activated GREB1 allelic transcription over early time points to evaluate potential dependencies between alleles within the same nucleus. We compared two types of experiments where we altered the initial status of GREB1 basal transcription by treating cells with and without the elongation inhibitor flavopiridol (FV). E2 stimulation changed the frequencies of active GREB1 alleles in the cell population independently of FV pre-treatment. In FV treated cells, the response time to hormone was delayed, albeit still reaching at 90 minutes the same levels as in cells not treated by FV. We show that the joint frequencies of GREB1 activated alleles observed at the cell population level imply significant dependency between pairs of alleles within the same nucleus. We identify probabilistic models of joint alleles activations by applying a principle of maximum entropy. For pairs of alleles, we have then quantified statistical dependency by computing their mutual information. We have then introduced a stochastic model compatible with allelic statistical dependencies, and we have fitted this model to our data by intensive simulations. This provided estimates of the average lifetime for degradation of GREB1 introns and of the mean time between two successive transcription rounds. Our approach informs on how to extract information on single allele regulation by ER from within a large population of cells, and should be applicable to many other genes., Author Summary: After application of a gene transcription stimulus, in this case the hormone 17 β -estradiol, on large populations of cells over a short time period, we focused on quantifying and modeling the frequencies of GREB1 single allele activations. We have established an experimental and computational pipeline to analyze large numbers of high resolution smFISH images to detect and monitor active GREB1 alleles, that can be translatable to any target gene of interest. A key result is that, at the population level, activation of individual GREB1 alleles within the same nucleus do exhibit statistically significant dependencies which we quantify by the mutual information between activation states of pairs of alleles. After noticing that frequencies of joint alleles activations observed over our large cell populations evolve smoothly in time, we have defined a population level stochastic model which we fit to the observed time course of GREB1 activation frequencies. This provided coherent estimates of the mean time between rounds of GREB1 transcription and the mean lifetime of nascent mRNAs. Our algorithmic approach and experimental methods are applicable to many other genes.

Published

2023

34. Oncogenic Mutations in PI3K/AKT/mTOR Pathway Effectors Associate with Worse Prognosis in BRAF V600E -Driven Papillary Thyroid Cancer Patients.

Author

Pappa T, Ahmadi S, Marqusee E, Johnson HL, Nehs MA, Cho NL, Barletta JA, Lorch JH, Doherty GM, Lindeman NI, Alexander EK, and Landa I

Subjects

Adult, Female, Humans, Male, Middle Aged, Prognosis, Signal Transduction physiology, Mutation, Phosphatidylinositol 3-Kinases physiology, Proto-Oncogene Proteins B-raf genetics, Proto-Oncogene Proteins c-akt physiology, TOR Serine-Threonine Kinases physiology, Thyroid Cancer, Papillary genetics, Thyroid Neoplasms genetics

Abstract

Purpose: The extent to which routine genomic sequencing can identify relevant secondary genomic alterations among BRAF V600E -mutant papillary thyroid carcinoma (PTC) is unknown. Such markers would prove highly valuable for prognostic purposes., Experimental Design: We reviewed clinicopathologic data of 225 patients with BRAF V600E -mutant PTC and integrated them with genomic data derived from targeted next-generation sequencing (NGS) on tumor specimens. We defined patient subgroups based on bona fide secondary oncogenic events (separate from BRAF V600E ) and compared their clinical features and outcomes with those without additional oncogenic alterations., Results: Additional oncogenic alterations were identified in 16% of tumors. Patients in the " BRAF +additional mutations" group were more likely to be at high American Thyroid Association (ATA) risk of recurrence (48.6% vs. 17.6%; P = 0.0009), had larger baseline tumor (2.7 vs. 1.9 cm; P = 0.0005) and more advanced stage at presentation (14.3% vs. 1.1% stage 4; P < 0.0001). Importantly, over a 65-month follow-up, disease-specific mortality (DSM) was increased when additional mutations were identified (13.8% vs. 1.4% in the BRAF -only group; P = 0.005). Separately, we identified a subcluster of patients harboring oncogenic mutations in key effectors of the PI3K/AKT/mTOR pathway, which were independently associated with DSM (OR = 47.9; 95% confidence interval, 3.5-1,246.5; P = 0.0043)., Conclusions: Identification of additional PIK3/AKT/mTOR alterations in patients with BRAF V600E -mutant PTC provides important and actionable prognostic risk stratification. These data support genomic profiling of PTC tumors to inform prognosis and clinical strategy., (©2021 American Association for Cancer Research.)

Published

2021

35. The human nose organoid respiratory virus model: an ex-vivo human challenge model to study RSV and SARS-CoV-2 pathogenesis and evaluate therapeutics.

Author

Rajan A, Weaver AM, Aloisio GM, Jelinski J, Johnson HL, Venable SF, McBride T, Aideyan L, Piedra FA, Ye X, Melicoff-Portillo E, Yerramilli MRK, Zeng XL, Mancini MA, Stossi F, Maresso AW, Kotkar SA, Estes MK, Blutt S, Avadhanula V, and Piedra PA

Abstract

There is an unmet need for pre-clinical models to understand the pathogenesis of human respiratory viruses; and predict responsiveness to immunotherapies. Airway organoids can serve as an ex-vivo human airway model to study respiratory viral pathogenesis; however, they rely on invasive techniques to obtain patient samples. Here, we report a non-invasive technique to generate human nose organoids (HNOs) as an alternate to biopsy derived organoids. We made air liquid interface (ALI) cultures from HNOs and assessed infection with two major human respiratory viruses, respiratory syncytial virus (RSV) and severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). Infected HNO-ALI cultures recapitulate aspects of RSV and SARS-CoV-2 infection, including viral shedding, ciliary damage, innate immune responses, and mucus hyper-secretion. Next, we evaluated the feasibility of the HNO-ALI respiratory virus model system to test the efficacy of palivizumab to prevent RSV infection. Palivizumab was administered in the basolateral compartment (circulation) while viral infection occurred in the apical ciliated cells (airways), simulating the events in infants. In our model, palivizumab effectively prevented RSV infection in a concentration dependent manner. Thus, the HNO-ALI model can serve as an alternate to lung organoids to study respiratory viruses and testing therapeutics.

Published

2021

36. The Human Nose Organoid Respiratory Virus Model: an Ex Vivo Human Challenge Model To Study Respiratory Syncytial Virus (RSV) and Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) Pathogenesis and Evaluate Therapeutics.

Author

Rajan A, Weaver AM, Aloisio GM, Jelinski J, Johnson HL, Venable SF, McBride T, Aideyan L, Piedra FA, Ye X, Melicoff-Portillo E, Yerramilli MRK, Zeng XL, Mancini MA, Stossi F, Maresso AW, Kotkar SA, Estes MK, Blutt S, Avadhanula V, and Piedra PA

Subjects

Infant, Humans, SARS-CoV-2, Palivizumab, Lung pathology, Organoids pathology, COVID-19, Respiratory Syncytial Virus, Human, Respiratory Syncytial Virus Infections

Abstract

There is an unmet need for preclinical models to understand the pathogenesis of human respiratory viruses and predict responsiveness to immunotherapies. Airway organoids can serve as an ex vivo human airway model to study respiratory viral pathogenesis; however, they rely on invasive techniques to obtain patient samples. Here, we report a noninvasive technique to generate human nose organoids (HNOs) as an alternative to biopsy-derived organoids. We made air-liquid interface (ALI) cultures from HNOs and assessed infection with two major human respiratory viruses, respiratory syncytial virus (RSV) and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Infected HNO-ALI cultures recapitulate aspects of RSV and SARS-CoV-2 infection, including viral shedding, ciliary damage, innate immune responses, and mucus hypersecretion. Next, we evaluated the feasibility of the HNO-ALI respiratory virus model system to test the efficacy of palivizumab to prevent RSV infection. Palivizumab was administered in the basolateral compartment (circulation), while viral infection occurred in the apical ciliated cells (airways), simulating the events in infants. In our model, palivizumab effectively prevented RSV infection in a concentration-dependent manner. Thus, the HNO-ALI model can serve as an alternative to lung organoids to study respiratory viruses and test therapeutics. IMPORTANCE Preclinical models that recapitulate aspects of human airway disease are essential for the advancement of novel therapeutics and vaccines. Here, we report a versatile airway organoid model, the human nose organoid (HNO), that recapitulates the complex interactions between the host and virus. HNOs are obtained using noninvasive procedures and show divergent responses to SARS-CoV-2 and RSV infection. SARS-CoV-2 induces severe damage to cilia and the epithelium, no interferon-λ response, and minimal mucus secretion. In striking contrast, RSV induces hypersecretion of mucus and a profound interferon-λ response with ciliary damage. We also demonstrated the usefulness of our ex vivo HNO model of RSV infection to test the efficacy of palivizumab, an FDA-approved monoclonal antibody to prevent severe RSV disease in high-risk infants. Our study reports a breakthrough in both the development of a novel nose organoid model and in our understanding of the host cellular response to RSV and SARS-CoV-2 infection.

Published

2021