Your search keyword '"Snead, Kelly"' showing total 22 results

1. Structure of the SHOC2-MRAS-PP1C complex provides insights into RAF activation and Noonan syndrome.

Author

Bonsor, Daniel, Alexander, Patrick, Snead, Kelly, Hartig, Nicole, Drew, Matthew, Messing, Simon, Finci, Lorenzo, Nissley, Dwight, Esposito, Dominic, Rodriguez-Viciana, Pablo, Stephen, Andrew, Simanshu, Dhirendra, and Mccormick, Frank

Subjects

Humans, Intracellular Signaling Peptides and Proteins, MAP Kinase Signaling System, Mitogen-Activated Protein Kinase Kinases, Noonan Syndrome, Phosphoserine, Protein Phosphatase 1, Proto-Oncogene Proteins p21(ras), raf Kinases, ras Proteins

Abstract

SHOC2 acts as a strong synthetic lethal interactor with MEK inhibitors in multiple KRAS cancer cell lines. SHOC2 forms a heterotrimeric complex with MRAS and PP1C that is essential for regulating RAF and MAPK-pathway activation by dephosphorylating a specific phosphoserine on RAF kinases. Here we present the high-resolution crystal structure of the SHOC2-MRAS-PP1C (SMP) complex and apo-SHOC2. Our structures reveal that SHOC2, MRAS, and PP1C form a stable ternary complex in which all three proteins synergistically interact with each other. Our results show that dephosphorylation of RAF substrates by PP1C is enhanced upon interacting with SHOC2 and MRAS. The SMP complex forms only when MRAS is in an active state and is dependent on SHOC2 functioning as a scaffolding protein in the complex by bringing PP1C and MRAS together. Our results provide structural insights into the role of the SMP complex in RAF activation and how mutations found in Noonan syndrome enhance complex formation, and reveal new avenues for therapeutic interventions.

Published

2022

2. Producing recombinant proteins in Vibrio natriegens

Author

Smith, Matthew, primary, Hernández, José Sánchez, additional, Messing, Simon, additional, Ramakrishnan, Nitya, additional, Higgins, Brianna, additional, Perkins, Shelley, additional, Cregger, Julia, additional, Le, Phuong Vi, additional, Wall, Vanessa, additional, Grose, Carissa, additional, Mehalko, Jennifer, additional, Johnson, Adam, additional, Frank, Peter, additional, Sherekar, Mukul, additional, Pagonis, Morgan, additional, Widmeyer, Stephanie, additional, Denson, J-P, additional, Snead, Kelly, additional, Drew, Matt, additional, Hong, Min, additional, Poon, Ivy, additional, Waybright, Timothy, additional, Champagne, Allison, additional, Esposito, Dominic, additional, Jones, Jane, additional, Taylor, Troy, additional, and Gillette, William, additional

Published

2024

3. Serologic Cross-Reactivity of SARS-CoV-2 with Endemic and Seasonal Betacoronaviruses

Author

Hicks, Jennifer, Klumpp-Thomas, Carleen, Kalish, Heather, Shunmugavel, Anandakumar, Mehalko, Jennifer, Denson, John-Paul, Snead, Kelly R., Drew, Matthew, Corbett, Kizzmekia S., Graham, Barney S., Hall, Matthew D., Memoli, Matthew J., Esposito, Dominic, and Sadtler, Kaitlyn

Published

2021

4. Producing recombinant proteins in Vibrio natriegens.

Author

Smith, Matthew, Hernández, José Sánchez, Messing, Simon, Ramakrishnan, Nitya, Higgins, Brianna, Mehalko, Jennifer, Perkins, Shelley, Wall, Vanessa E., Grose, Carissa, Frank, Peter H., Cregger, Julia, Le, Phuong Vi, Johnson, Adam, Sherekar, Mukul, Pagonis, Morgan, Drew, Matt, Hong, Min, Widmeyer, Stephanie R. T., Denson, John-Paul, and Snead, Kelly

Subjects

RECOMBINANT proteins, PROTEIN expression, CHO cell, ESCHERICHIA coli, CYTOSKELETAL proteins, BACTERIAL proteins

Abstract

The diversity of chemical and structural attributes of proteins makes it inherently difficult to produce a wide range of proteins in a single recombinant protein production system. The nature of the target proteins themselves, along with cost, ease of use, and speed, are typically cited as major factors to consider in production. Despite a wide variety of alternative expression systems, most recombinant proteins for research and therapeutics are produced in a limited number of systems: Escherichia coli, yeast, insect cells, and the mammalian cell lines HEK293 and CHO. Recent interest in Vibrio natriegens as a new bacterial recombinant protein expression host is due in part to its short doubling time of ≤ 10 min but also stems from the promise of compatibility with techniques and genetic systems developed for E. coli. We successfully incorporated V. natriegens as an additional bacterial expression system for recombinant protein production and report improvements to published protocols as well as new protocols that expand the versatility of the system. While not all proteins benefit from production in V. natriegens, we successfully produced several proteins that were difficult or impossible to produce in E. coli. We also show that in some cases, the increased yield is due to higher levels of properly folded protein. Additionally, we were able to adapt our enhanced isotope incorporation methods for use with V. natriegens. Taken together, these observations and improvements allowed production of proteins for structural biology, biochemistry, assay development, and structure-based drug design in V. natriegens that were impossible and/or unaffordable to produce in E. coli. Highlights: Production of proteins with reduced aggregation compared to E. coli. Optimized protocols for efficiency and protein expression. Improved yield for specific proteins compared to E. coli. [ABSTRACT FROM AUTHOR]

Published

2024

5. Improved Production of Class I Phosphatidylinositol 4,5-Bisphosphate 3-Kinase

Author

Messing, Simon, primary, Wimeyer, Stephanie, additional, Denson, John-Paul, additional, Mehalko, Jennifer, additional, Wall, Vanessa, additional, Drew, Matthew, additional, Snead, Kelly, additional, Hong, Min, additional, Grose, Carissa, additional, Esposito, Dominic, additional, and Gillette, William, additional

Published

2024

6. Standardization of ELISA protocols for serosurveys of the SARS-CoV-2 pandemic using clinical and at-home blood sampling

Author

Klumpp-Thomas, Carleen, Kalish, Heather, Drew, Matthew, Hunsberger, Sally, Snead, Kelly, Fay, Michael P., Mehalko, Jennifer, Shunmugavel, Anandakumar, Wall, Vanessa, Frank, Peter, Denson, John-Paul, Hong, Min, Gulten, Gulcin, Messing, Simon, Hicks, Jennifer, Michael, Sam, Gillette, William, Hall, Matthew D., Memoli, Matthew J., Esposito, Dominic, and Sadtler, Kaitlyn

Published

2021

7. Structure of the SHOC2–MRAS–PP1C complex provides insights into RAF activation and Noonan syndrome

Author

Bonsor, Daniel A., primary, Alexander, Patrick, additional, Snead, Kelly, additional, Hartig, Nicole, additional, Drew, Matthew, additional, Messing, Simon, additional, Finci, Lorenzo I., additional, Nissley, Dwight V., additional, McCormick, Frank, additional, Esposito, Dominic, additional, Rodriguez-Viciana, Pablo, additional, Stephen, Andrew G., additional, and Simanshu, Dhirendra K., additional

Published

2022

8. Polycistronic baculovirus expression of SUGT1 enables high-yield production of recombinant leucine-rich repeat proteins and protein complexes

Author

Snead, Kelly, primary, Wall, Vanessa, additional, Ambrose, Hannah, additional, Esposito, Dominic, additional, and Drew, Matthew, additional

Published

2022

9. Refining the N-Termini of the SARS-CoV-2 Spike Protein and Its Discrete Receptor-Binding Domain

Author

D’Ippolito, Robert A., primary, Drew, Matthew R., additional, Mehalko, Jennifer, additional, Snead, Kelly, additional, Wall, Vanessa, additional, Putman, Zoe, additional, Esposito, Dominic, additional, and DeHart, Caroline J., additional

Published

2021

10. Undiagnosed SARS-CoV-2 seropositivity during the first 6 months of the COVID-19 pandemic in the United States

Author

Kalish, Heather, primary, Klumpp-Thomas, Carleen, additional, Hunsberger, Sally, additional, Baus, Holly Ann, additional, Fay, Michael P., additional, Siripong, Nalyn, additional, Wang, Jing, additional, Hicks, Jennifer, additional, Mehalko, Jennifer, additional, Travers, Jameson, additional, Drew, Matthew, additional, Pauly, Kyle, additional, Spathies, Jacquelyn, additional, Ngo, Tran, additional, Adusei, Kenneth M., additional, Karkanitsa, Maria, additional, Croker, Jennifer A., additional, Li, Yan, additional, Graubard, Barry I., additional, Czajkowski, Lindsay, additional, Belliveau, Olivia, additional, Chairez, Cheryl, additional, Snead, Kelly R., additional, Frank, Peter, additional, Shunmugavel, Anandakumar, additional, Han, Alison, additional, Giurgea, Luca T., additional, Rosas, Luz Angela, additional, Bean, Rachel, additional, Athota, Rani, additional, Cervantes-Medina, Adriana, additional, Gouzoulis, Monica, additional, Heffelfinger, Brittany, additional, Valenti, Shannon, additional, Caldararo, Rocco, additional, Kolberg, Michelle M., additional, Kelly, Andrew, additional, Simon, Reid, additional, Shafiq, Saifullah, additional, Wall, Vanessa, additional, Reed, Susan, additional, Ford, Eric W., additional, Lokwani, Ravi, additional, Denson, John-Paul, additional, Messing, Simon, additional, Michael, Sam G., additional, Gillette, William, additional, Kimberly, Robert P., additional, Reis, Steven E., additional, Hall, Matthew D., additional, Esposito, Dominic, additional, Memoli, Matthew J., additional, and Sadtler, Kaitlyn, additional

Published

2021

11. Improved production of SARS-CoV-2 spike receptor-binding domain (RBD) for serology assays

Author

Mehalko, Jennifer, primary, Drew, Matthew, additional, Snead, Kelly, additional, Denson, John-Paul, additional, Wall, Vanessa, additional, Taylor, Troy, additional, Sadtler, Kaitlyn, additional, Messing, Simon, additional, Gillette, William, additional, and Esposito, Dominic, additional

Published

2021

12. Mapping a Pandemic: SARS-CoV-2 Seropositivity in the United States

Author

Kalish, Heather, primary, Klumpp-Thomas, Carleen, additional, Hunsberger, Sally, additional, Baus, Holly Ann, additional, Fay, Michael P, additional, Siripong, Nalyn, additional, Wang, Jing, additional, Hicks, Jennifer, additional, Mehalko, Jennifer, additional, Travers, Jameson, additional, Drew, Matthew, additional, Pauly, Kyle, additional, Spathies, Jacquelyn, additional, Ngo, Tran, additional, Adusei, Kenneth M., additional, Karkanitsa, Maria, additional, Croker, Jennifer A, additional, Li, Yan, additional, Graubard, Barry I., additional, Czajkowski, Lindsay, additional, Belliveau, Olivia, additional, Chairez, Cheryl, additional, Snead, Kelly, additional, Frank, Peter, additional, Shunmugavel, Anandakumar, additional, Han, Alison, additional, Giurgea, Luca T., additional, Rosas, Luz Angela, additional, Bean, Rachel, additional, Athota, Rani, additional, Cervantes-Medina, Adriana, additional, Gouzoulis, Monica, additional, Heffelfinger, Brittany, additional, Valenti, Shannon, additional, Caldararo, Rocco, additional, Kolberg, Michelle M., additional, Kelly, Andrew, additional, Simon, Reid, additional, Shafiq, Saifullah, additional, Wall, Vanessa, additional, Reed, Susan, additional, Ford, Eric W, additional, Lokwani, Ravi, additional, Denson, John-Paul, additional, Messing, Simon, additional, Michael, Sam G., additional, Gillette, William, additional, Kimberly, Robert P., additional, Reis, Steven E., additional, Hall, Matthew D., additional, Esposito, Dominic, additional, Memoli, Matthew J., additional, and Sadtler, Kaitlyn, additional

Published

2021

13. Improved production of SARS-CoV-2 spike receptor-binding domain (RBD) for serology assays

Author

Mehalko, Jennifer, primary, Drew, Matthew, additional, Snead, Kelly, additional, Denson, John-Paul, additional, Wall, Vanessa, additional, Taylor, Troy, additional, Sadtler, Kaitlyn, additional, Messing, Simon, additional, Gillette, William, additional, and Esposito, Dominic, additional

Published

2020

14. Optimizing high-yield production of SARS-CoV-2 soluble spike trimers for serology assays

Author

Esposito, Dominic, primary, Mehalko, Jennifer, additional, Drew, Matthew, additional, Snead, Kelly, additional, Wall, Vanessa, additional, Taylor, Troy, additional, Frank, Peter, additional, Denson, John-Paul, additional, Hong, Min, additional, Gulten, Gulcin, additional, Sadtler, Kaitlyn, additional, Messing, Simon, additional, and Gillette, William, additional

Published

2020

15. Serologic cross-reactivity of SARS-CoV-2 with endemic and seasonal Betacoronaviruses

Author

Hicks, Jennifer, primary, Klumpp-Thomas, Carleen, additional, Kalish, Heather, additional, Shunmugavel, Anandakumar, additional, Mehalko, Jennifer, additional, Denson, John-Paul, additional, Snead, Kelly, additional, Drew, Matthew, additional, Corbett, Kizzmekia, additional, Graham, Barney, additional, Hall, Matthew D, additional, Memoli, Matthew J, additional, Esposito, Dominic, additional, and Sadtler, Kaitlyn, additional

Published

2020

16. Standardization of enzyme-linked immunosorbent assays for serosurveys of the SARS-CoV-2 pandemic using clinical and at-home blood sampling

Author

Klumpp-Thomas, Carleen, primary, Kalish, Heather, additional, Drew, Matthew, additional, Hunsberger, Sally, additional, Snead, Kelly, additional, Fay, Michael P, additional, Mehalko, Jennifer, additional, Shunmugavel, Anandakumar, additional, Wall, Vanessa, additional, Frank, Peter, additional, Denson, John-Paul, additional, Hong, Min, additional, Gulten, Gulcin, additional, Messing, Simon, additional, Hicks, Jennifer, additional, Michael, Sam, additional, Gillette, William, additional, Hall, Matthew D, additional, Memoli, Matthew, additional, Esposito, Dominic, additional, and Sadtler, Kaitlyn, additional

Published

2020

17. Refining the N-Termini of the SARS-CoV-2 Spike Protein and Its Discrete Receptor-Binding Domain.

Author

D'Ippolito RA, Drew MR, Mehalko J, Snead K, Wall V, Putman Z, Esposito D, and DeHart CJ

Subjects

Humans, Protein Binding, Protein Domains, SARS-CoV-2, Tandem Mass Spectrometry, COVID-19, Spike Glycoprotein, Coronavirus genetics, Spike Glycoprotein, Coronavirus metabolism

Abstract

Previous work employing five SARS-CoV-2 spike protein receptor-binding domain (RBD) constructs, comprising versions originally developed by Mt. Sinai or the Ragon Institute and later optimized in-house, revealed potential heterogeneity which led to questions regarding variable seropositivity assay performance. Each construct was subjected to N-deglycosylation and subsequent intact mass analysis, revealing significant deviations from predicted theoretical mass for all five proteins. Complementary tandem MS/MS analysis revealed the presence of an additional pyroGlu residue on the N-termini of the two Mt. Sinai RBD constructs, as well as on the N-terminus of the full-length spike protein from which they were derived, thus explaining the observed mass shift and definitively establishing the spike protein N-terminal sequence. Moreover, the observed mass additions for the three Ragon Institute RBD constructs were identified as variable N-terminal cleavage points within the signal peptide sequence employed for recombinant expression. To resolve this issue and minimize heterogeneity for further seropositivity assay development, the best-performing RBD construct was further optimized to exhibit complete homogeneity, as determined by both intact mass and tandem MS/MS analysis. This new RBD construct has been validated for seropositivity assay performance, is available to the greater scientific community, and is recommended for use in future assay development.

Published

2021

18. Mapping a Pandemic: SARS-CoV-2 Seropositivity in the United States.

Author

Kalish H, Klumpp-Thomas C, Hunsberger S, Baus HA, Fay MP, Siripong N, Wang J, Hicks J, Mehalko J, Travers J, Drew M, Pauly K, Spathies J, Ngo T, Adusei KM, Karkanitsa M, Croker JA, Li Y, Graubard BI, Czajkowski L, Belliveau O, Chairez C, Snead K, Frank P, Shunmugavel A, Han A, Giurgea LT, Rosas LA, Bean R, Athota R, Cervantes-Medina A, Gouzoulis M, Heffelfinger B, Valenti S, Caldararo R, Kolberg MM, Kelly A, Simon R, Shafiq S, Wall V, Reed S, Ford EW, Lokwani R, Denson JP, Messing S, Michael SG, Gillette W, Kimberly RP, Reis SE, Hall MD, Esposito D, Memoli MJ, and Sadtler K

Abstract

Asymptomatic SARS-CoV-2 infection and delayed implementation of diagnostics have led to poorly defined viral prevalence rates. To address this, we analyzed seropositivity in US adults who have not previously been diagnosed with COVID-19. Individuals with characteristics that reflect the US population ( n = 11,382) and who had not previously been diagnosed with COVID-19 were selected by quota sampling from 241,424 volunteers (ClinicalTrials.gov NCT04334954). Enrolled participants provided medical, geographic, demographic, and socioeconomic information and 9,028 blood samples. The majority (88.7%) of samples were collected between May 10 th and July 31 st , 2020. Samples were analyzed via ELISA for anti-Spike and anti-RBD antibodies. Estimation of seroprevalence was performed by using a weighted analysis to reflect the US population. We detected an undiagnosed seropositivity rate of 4.6% (95% CI: 2.6 - 6.5%). There was distinct regional variability, with heightened seropositivity in locations of early outbreaks. Subgroup analysis demonstrated that the highest estimated undiagnosed seropositivity within groups was detected in younger participants (ages 18-45, 5.9%), females (5.5%), Black/African American (14.2%), Hispanic (6.1%), and Urban residents (5.3%), and lower undiagnosed seropositivity in those with chronic diseases. During the first wave of infection over the spring/summer of 2020 an estimate of 4.6% of adults had a prior undiagnosed SARS-CoV-2 infection. These data indicate that there were 4.8 (95% CI: 2.8-6.8) undiagnosed cases for every diagnosed case of COVID-19 during this same time period in the United States, and an estimated 16.8 million undiagnosed cases by mid-July 2020.

Published

2021

19. Improved production of SARS-CoV-2 spike receptor-binding domain (RBD) for serology assays.

Author

Mehalko J, Drew M, Snead K, Denson JP, Wall V, Taylor T, Sadtler K, Messing S, Gillette W, and Esposito D

Abstract

The receptor-binding domain (RBD) of the SARS-CoV-2 spike protein is a commonly used antigen for serology assays critical to determining the extent of SARS-CoV-2 exposure in the population. Different versions of the RBD protein have been developed and utilized in assays, with higher sensitivity attributed to particular forms of the protein. To improve the yield of these high-sensitivity forms of RBD and support the increased demand for this antigen in serology assays, we investigated several protein expression variables including DNA elements such as promoters and signal peptides, cell culture expression parameters, and purification processes. Through this investigation, we developed a simplified and robust purification strategy that consistently resulted in high levels of the high-sensitivity form of RBD and demonstrated that a carboxyterminal tag is responsible for the increased sensitivity in the ELISA. These improved reagents and processes produce high-quality proteins which are functional in serology assays and can be used to investigate seropositivity to SARS-CoV-2 infection. Highlights: Improved yields of SARS-CoV-2 spike RBD through modification of DNA constructs and purification parametersTwo versions of RBD show different sensitivity in serology assaysYields of greater than 50 mg/l obtained under optimal conditionsMagnetic bead purification technology improves throughput of protein production.

Published

2020

20. Serologic cross-reactivity of SARS-CoV-2 with endemic and seasonal Betacoronaviruses.

Author

Hicks J, Klumpp-Thomas C, Kalish H, Shunmugavel A, Mehalko J, Denson JP, Snead K, Drew M, Corbett K, Graham B, Hall MD, Memoli MJ, Esposito D, and Sadtler K

Abstract

In order to properly understand the spread of SARS-CoV-2 infection and development of humoral immunity, researchers have evaluated the presence of serum antibodies of people worldwide experiencing the pandemic. These studies rely on the use of recombinant proteins from the viral genome in order to identify serum antibodies that recognize SARS-CoV-2 epitopes. Here, we discuss the cross-reactivity potential of SARS-CoV-2 antibodies with the full spike proteins of four other Betacoronaviruses that cause disease in humans, MERS-CoV, SARS-CoV, HCoV-OC43, and HCoV-HKU1. Using enzyme-linked immunosorbent assays (ELISAs), we detected the potential cross-reactivity of antibodies against SARS-CoV-2 towards the four other coronaviruses, with the strongest cross-recognition between SARS-CoV-2 and SARS /MERS-CoV antibodies, as expected based on sequence homology of their respective spike proteins. Further analysis of cross-reactivity could provide informative data that could lead to intelligently designed pan-coronavirus therapeutics or vaccines.

Published

2020

21. Optimizing high-yield production of SARS-CoV-2 soluble spike trimers for serology assays.

Author

Esposito D, Mehalko J, Drew M, Snead K, Wall V, Taylor T, Frank P, Denson JP, Hong M, Gulten G, Sadtler K, Messing S, and Gillette W

Abstract

The SARS-CoV-2 spike trimer is the primary antigen for several serology assays critical to determining the extent of SARS-CoV-2 exposure in the population. Until stable cell lines are developed to increase the titer of this secreted protein in mammalian cell culture, the low yield of spike protein produced from transient transfection of HEK293 cells will be a limiting factor for these assays. To improve the yield of spike protein and support the high demand for antigens in serology assays, we investigated several recombinant protein expression variables by altering the incubation temperature, harvest time, chromatography strategy, and final protein manipulation. Through this investigation, we developed a simplified and robust purification strategy that consistently yields 5 mg of protein per liter of expression culture for two commonly used forms of the SARS-CoV-2 spike protein. We show that these proteins form well-behaved stable trimers and are consistently functional in serology assays across multiple protein production lots.

Published

2020

22. Standardization of enzyme-linked immunosorbent assays for serosurveys of the SARS-CoV-2 pandemic using clinical and at-home blood sampling.

Author

Klumpp-Thomas C, Kalish H, Drew M, Hunsberger S, Snead K, Fay MP, Mehalko J, Shunmugavel A, Wall V, Frank P, Denson JP, Hong M, Gulten G, Messing S, Hicks J, Michael S, Gillette W, Hall MD, Memoli M, Esposito D, and Sadtler K

Abstract

The extent of SARS-CoV-2 infection throughout the United States population is currently unknown. High quality serology is a key tool to understanding the spread of infection, immunity against the virus, and correlates of protection. Limited validation and testing of serology assays used for serosurveys can lead to unreliable or misleading data, and clinical testing using such unvalidated assays can lead to medically costly diagnostic errors and improperly informed public health decisions. Estimating prevalence and clinical decision making is highly dependent on specificity. Here, we present an optimized ELISA-based serology protocol from antigen production to data analysis. This protocol defines thresholds for IgG and IgM for determination of seropositivity with estimated specificity well above 99%. Validation was performed using both traditionally collected serum and dried blood on mail-in blood sampling kits, using archival (pre-2019) negative controls and known PCR-diagnosed positive patient controls. Minimal cross-reactivity was observed for the spike proteins of MERS, SARS1, OC43 and HKU1 viruses and no cross reactivity was observed with anti-influenza A H1N1 HAI titer during validation. This strategy is highly specific and is designed to provide good estimates of seroprevalence of SARS-CoV-2 seropositivity in a population, providing specific and reliable data from serosurveys and clinical testing which can be used to better evaluate and understand SARS-CoV-2 immunity and correlates of protection.

Published

2020