Your search keyword '"Luo, Christine"' showing total 6 results

1. Spinal Epidural Abscess

Author

Luo, Christine T and Yee, Jennifer

Published

2020

2. Isolation of Plasma Extracellular Vesicles for High-Depth Analysis of Proteomic Biomarkers in Metastatic Castration-Resistant Prostate Cancer Patients.

Author

Arafa, Ali T., Ludwig, Megan, Tuncer, Onur, Kollitz, Lily, Gustafson, Ava, Boytim, Ella, Luo, Christine, Sabal, Barbara, Steinberger, Daniel, Zhao, Yingchun, Dehm, Scott M., Cayci, Zuzan, Hwang, Justin, Villalta, Peter W., Antonarakis, Emmanuel S., and Drake, Justin M.

Subjects

CASTRATION-resistant prostate cancer, EXTRACELLULAR vesicles, CENTRIFUGATION, PROSTATE-specific antigen, STATISTICAL significance, T-test (Statistics), DATA analysis, RESEARCH funding, TUMOR markers, CANCER patients, MANN Whitney U Test, DESCRIPTIVE statistics, METASTASIS, PROTEOMICS, MASS spectrometry, GENE expression profiling, STATISTICS, CELL separation

Abstract

Simple Summary: We explored the potential of using proteins found in extracellular vesicles (EVs), which are tiny particles released by cancer cells, to predict treatment response and identify new drug targets. Unlike traditional tissue biopsies, analyzing EVs from blood samples offers a non-invasive way to obtain valuable information about the cancer. Our findings showed that certain proteins in EVs, such as B7-H3 and LAT1, are correlated with clinical markers such as PSA levels, PET scans, and serum alkaline phosphatase levels that are used to monitor disease burden and cancer progression. This approach could lead to more precise and personalized treatment options for patients with advanced prostate cancer, helping doctors choose the most effective therapies and improve outcomes. Introduction: Prostate cancer treatment has been revolutionized by targeted therapies, including PARP inhibitors, checkpoint immunotherapies, and PSMA-targeted radiotherapies. Despite such advancements, accurate patient stratification remains a challenge, with current methods relying on genomic markers, tissue staining, and imaging. Extracellular vesicle (EV)-derived proteins offer a novel non-invasive alternative for biomarker discovery, holding promise for improving treatment precision. However, the characterization of plasma-derived EVs in prostate cancer patients remains largely unexplored. Methods: We conducted proteomic analyses on EVs isolated from plasma in 27 metastatic castration-resistant prostate cancer (mCRPC) patients. EVs were purified using ultracentrifugation and analyzed via mass spectrometry. Proteomic data were correlated with clinical markers such as serum prostate-specific antigen (PSA) and bone lesion counts. Statistical significance was assessed using Mann–Whitney t-tests and Spearman correlation. Results: The median age of patients was 74 (range: 44–94) years. At the time of blood collection, the median PSA level was 70 (range: 0.5–1000) ng/mL. All patients had bone metastasis. A total of 5213 proteins were detected, including EV-related proteins (CD9, CD81, CD63, FLOT1, TSG101) and cancer-related proteins (PSMA, B7-H3, PD-L1). Proteomic profiling of plasma EVs revealed a significant correlation between specific EV-derived proteins and clinical prognostic markers. B7-H3, LAT1, and SLC29A1 showed a strong association with serum PSA levels and number of bone lesions, indicating potential for these proteins to serve as biomarkers of disease burden and therapy response. Conclusions: Our findings demonstrate the potential of EV-based proteomics for identifying biomarkers in mCRPC patients. Proteins such as B7-H3 and LAT1 could guide precision oncology approaches, improving patient stratification. Future research incorporating outcomes data and EV subpopulation analysis is needed to establish clinical relevance. [ABSTRACT FROM AUTHOR]

Published

2024

3. Essential Foundational Education Research Methods Articles for Graduate Medical Educators: A Delphi Study.

Author

Feig, Ethan, Mayersak, Ryanne, Luo, Christine, Cook, Mackenzie R., Sigman, Lauren, Jordan, Jaime, Riddell, Jeff, Zuo, Leila, Villamagna, Angela Holly, Bonura, Erin, and Yarris, Lalena M.

Subjects

MEDICAL teaching personnel, EDUCATION research, RESEARCH personnel, MEDICAL education, GENERAL education

Abstract

Background Graduate medical educators interested in designing and conducting education research may seek foundational general overview articles on education research methods. Objective We aimed to identify the most useful foundational education research methods articles for medical educators. Methods We identified candidate articles through a 2020 Ovid MEDLINE literature search augmented by the authors' personal files and by cross-checking references of included articles. Articles that were primarily about general education research principles were included; articles were excluded if they were not focused on medical education research methods, were published prior to the year 2000, were written in a non-English language, or had no available abstracts. We conducted a modified Delphi study with 10 participants representing a range of specialties and education research experience to find consensus about the most useful articles. We planned 3 rounds of the Delphi process, the first to eliminate any articles not deemed useful for this audience, and the second and third rounds to include articles that at least 80% of the panel deemed "most useful" to education researchers. Results Of 25 relevant articles identified in the literature search: one was excluded in round 1, 7 met the a priori threshold of 80% agreement for inclusion in round 2, and an additional 2 met inclusion in round 3. These 9 foundational education research methods articles relevant to graduate medical educators are described, along with a capsule summary and specific use for education researchers. Conclusions Our modified Delphi study of foundational education research methods articles identified 9 articles deemed useful for graduate medical educators who are seeking methods resources. [ABSTRACT FROM AUTHOR]

Published

2024

4. Top emergency medicine faculty development papers since 2000: A Delphi study

Author

Luo, Christine T., primary, Bailey, Jessica A., additional, Yarris, Lalena M., additional, Kornegay, Joshua G., additional, Regner, Kimberly A., additional, and Mayersak, Ryanne J., additional

Published

2023

5. Larger active site in an ancestral hydroxynitrile lyase increases catalytically promiscuous esterase activity

Author

Jones, Bryan J., primary, Evans, Robert L., additional, Mylrea, Nathan J., additional, Chaudhury, Debayan, additional, Luo, Christine, additional, Guan, Bo, additional, Pierce, Colin T., additional, Gordon, Wendy R., additional, Wilmot, Carrie M., additional, and Kazlauskas, Romas J., additional

Published

2020

6. Early Drug Discovery and Development of Novel Cancer Therapeutics Targeting DNA Polymerase Eta (POLH).

Author

Wilson III, David M., Duncton, Matthew A. J., Chang, Caleb, Lee Luo, Christine, Georgiadis, Taxiarchis M., Pellicena, Patricia, Deacon, Ashley M., Gao, Yang, and Das, Debanu

Subjects

POLYMERASES, DNA polymerases, DNA repair, BLADDER cancer, CARCINOGENESIS, DRUG development, COMPUTATIONAL chemistry, THERAPEUTICS, PHARMACEUTICAL chemistry

Abstract

Polymerase eta (or Pol η or POLH) is a specialized DNA polymerase that is able to bypass certain blocking lesions, such as those generated by ultraviolet radiation (UVR) or cisplatin, and is deployed to replication foci for translesion synthesis as part of the DNA damage response (DDR). Inherited defects in the gene encoding POLH (a.k.a., XPV) are associated with the rare, sun-sensitive, cancer-prone disorder, xeroderma pigmentosum, owing to the enzyme's ability to accurately bypass UVR-induced thymine dimers. In standard-of-care cancer therapies involving platinum-based clinical agents, e.g., cisplatin or oxaliplatin, POLH can bypass platinum-DNA adducts, negating benefits of the treatment and enabling drug resistance. POLH inhibition can sensitize cells to platinum-based chemotherapies, and the polymerase has also been implicated in resistance to nucleoside analogs, such as gemcitabine. POLH overexpression has been linked to the development of chemoresistance in several cancers, including lung, ovarian, and bladder. Co-inhibition of POLH and the ATR serine/threonine kinase, another DDR protein, causes synthetic lethality in a range of cancers, reinforcing that POLH is an emerging target for the development of novel oncology therapeutics. Using a fragment-based drug discovery approach in combination with an optimized crystallization screen, we have solved the first X-ray crystal structures of small novel drug-like compounds, i.e., fragments, bound to POLH, as starting points for the design of POLH inhibitors. The intrinsic molecular resolution afforded by the method can be quickly exploited in fragment growth and elaboration as well as analog scoping and scaffold hopping using medicinal and computational chemistry to advance hits to lead. An initial small round of medicinal chemistry has resulted in inhibitors with a range of functional activity in an in vitro biochemical assay, leading to the rapid identification of an inhibitor to advance to subsequent rounds of chemistry to generate a lead compound. Importantly, our chemical matter is different from the traditional nucleoside analog-based approaches for targeting DNA polymerases. [ABSTRACT FROM AUTHOR]

Published

2021