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276 results on '"Ashfeld, Brandon L."'

1. Targeting the chromatin effector Pygo2 promotes cytotoxic T cell responses and overcomes immunotherapy resistance in prostate cancer

Author

Zhu, Yini, Zhao, Yun, Wen, Jiling, Liu, Sheng, Huang, Tianhe, Hatial, Ishita, Peng, Xiaoxia, Al Janabi, Hawraa, Huang, Gang, Mittlesteadt, Jackson, Cheng, Michael, Bhardwaj, Atul, Ashfeld, Brandon L, Kao, Kenneth R, Maeda, Dean Y, Dai, Xing, Wiest, Olaf, Blagg, Brian SJ, Lu, Xuemin, Cheng, Liang, Wan, Jun, and Lu, Xin

Subjects
Aging, Immunization, Vaccine Related, Urologic Diseases, Cancer, Prostate Cancer, Genetics, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, 2.1 Biological and endogenous factors, Aetiology, Male, Mice, Animals, Humans, T-Lymphocytes, Cytotoxic, Chromatin, CD8-Positive T-Lymphocytes, Prostatic Neoplasms, Immunotherapy, Mice, Transgenic, Tumor Microenvironment, Intracellular Signaling Peptides and Proteins
Abstract

The noninflamed microenvironment in prostate cancer represents a barrier to immunotherapy. Genetic alterations underlying cancer cell-intrinsic oncogenic signaling are increasingly appreciated for their role in shaping the immune landscape. Recently, we identified Pygopus 2 (PYGO2) as the driver oncogene for the amplicon at 1q21.3 in prostate cancer. Here, using transgenic mouse models of metastatic prostate adenocarcinoma, we found that Pygo2 deletion decelerated tumor progression, diminished metastases, and extended survival. Pygo2 loss augmented the activation and infiltration of cytotoxic T lymphocytes (CTLs) and sensitized tumor cells to T cell killing. Mechanistically, Pygo2 orchestrated a p53/Sp1/Kit/Ido1 signaling network to foster a microenvironment hostile to CTLs. Genetic or pharmacological inhibition of Pygo2 enhanced the antitumor efficacy of immunotherapies using immune checkpoint blockade (ICB), adoptive cell transfer, or agents inhibiting myeloid-derived suppressor cells. In human prostate cancer samples, Pygo2 expression was inversely correlated with the infiltration of CD8+ T cells. Analysis of the ICB clinical data showed association between high PYGO2 level and worse outcome. Together, our results highlight a potential path to improve immunotherapy using Pygo2-targeted therapy for advanced prostate cancer.

Published
2023

8. Evaluation of the Mammalian Aquaporin Inhibitors Auphen and Z433927330 in Treating Breast Cancer.

Author

Charlestin, Verodia, Tan, Elijah, Arias-Matus, Carlos Eduardo, Wu, Junmin, Miranda-Vergara, Maria Cristina, Lee, Mijoon, Wang, Man, Nannapaneni, Dharma T., Tennakoon, Parinda, Blagg, Brian S. J., Ashfeld, Brandon L., Kaliney, William, Li, Jun, and Littlepage, Laurie E.

Subjects
THERAPEUTIC use of antineoplastic agents, PROTEINS, CARRIER proteins, CANCER invasiveness, GOLD compounds, MITOCHONDRIA, RESEARCH funding, RECEIVER operating characteristic curves, BREAST tumors, ANTINEOPLASTIC agents, CELL physiology, POLYMERASE chain reaction, TRANSCRIPTION factors, TAMOXIFEN, DESCRIPTIVE statistics, METASTASIS, GENE expression, MICE, CELL lines, EXPERIMENTAL design, RNA, IMMUNOHISTOCHEMISTRY, ANIMAL experimentation, MOLECULAR structure, WESTERN immunoblotting, DRUG efficacy, CELL survival, OVERALL survival, PHARMACODYNAMICS, CHEMICAL inhibitors
Abstract

Simple Summary: Aquaporins (AQPs) have emerged as potential predictors of response to cancer therapy and as targets for increasing sensitivity to treatment. However, systemic therapeutic inhibition using pan-AQP or AQP-specific inhibitors has not been characterized for efficacy in treating breast cancer or as a component of combination treatment. We evaluated AQP inhibition using established AQP inhibitors in cytotoxicity and pharmacologic assays. This study identified AQPs as a targetable vulnerability in breast cancer. AQP inhibitors can increase therapeutic efficacy, both as single agents and in a combination therapy strategy, in treating breast cancer progression and metastasis. These results provide significant insights that support the future development of improved AQP inhibitors. AQPs contribute to breast cancer progression and metastasis. We previously found that genetic inhibition of Aqp7 reduces primary tumor burden and metastasis in breast cancer. In this study, we utilized two AQP inhibitors, Auphen and Z433927330, to evaluate the efficacy of therapeutic inhibition of AQPs in breast cancer treatment. The inhibitors were evaluated in breast cancer for both cytotoxicity and metabolic stability assays across both murine and human breast cancer cell lines. Both AQP inhibitors also affected the expression of other AQP transcripts and proteins, which demonstrates compensatory regulation between AQP family members. As a single agent, Auphen treatment in vivo extended overall survival but did not impact primary or metastatic tumor burden. However, Auphen treatment made cells more responsive to chemotherapy (doxorubicin) or endocrine treatment (tamoxifen, fulvestrant). In fact, treatment with Tamoxifen reduced overall AQP7 protein expression. RNA-seq of breast cancer cells treated with Auphen identified mitochondrial metabolism genes as impacted by Auphen and may contribute to reducing mammary tumor progression, lung metastasis, and increased therapeutic efficacy of endocrine therapy in breast cancer. Interestingly, we found that Auphen and tamoxifen cooperate to reduce breast cancer cell viability, which suggests that Auphen treatment makes the cells more susceptible to Tamoxifen. Together, this study highlights AQPs as therapeutic vulnerabilities of breast cancer metastasis that are promising and should be exploited. However, the pharmacologic results suggest additional chemical refinements and optimization of AQP inhibition are needed to make these AQP inhibitors appropriate to use for therapeutic benefit in overcoming endocrine therapy resistance. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Front Cover: Rational Design and Identification of Harmine‐Inspired, N ‐Heterocyclic DYRK1A Inhibitors Employing a Functional Genomic In Vivo Drosophila Model System (ChemMedChem 4/2022)

Author

Huizar, Francisco J., primary, Hill, Harrison M., additional, Bacher, Emily P., additional, Eckert, Kaitlyn E., additional, Gulotty, Eva M., additional, Rodriguez, Kevin X., additional, Tucker, Zachary D., additional, Banerjee, Monimoy, additional, Liu, Haining, additional, Wiest, Olaf, additional, Zartman, Jeremiah, additional, and Ashfeld, Brandon L., additional

Published
2022
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21. Rational Design and Identification of Harmine‐Inspired, N ‐Heterocyclic DYRK1A Inhibitors Employing a Functional Genomic In Vivo Drosophila Model System**

Author

Huizar, Francisco J., primary, Hill, Harrison M., additional, Bacher, Emily P., additional, Eckert, Kaitlyn E., additional, Gulotty, Eva M., additional, Rodriguez, Kevin X., additional, Tucker, Zachary D., additional, Banerjee, Monimoy, additional, Liu, Haining, additional, Wiest, Olaf, additional, Zartman, Jeremiah, additional, and Ashfeld, Brandon L., additional

Published
2022
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25. An unusual stereoretentive 1,3-quaternary carbon shift resulting in an enantioselective RhII-catalyzed formal [4+1]-cycloaddition between diazo compounds and vinyl ketenes† †Electronic supplementary information (ESI) available. CCDC 1557298 and 1557297. For ESI and crystallographic data in CIF or other electronic format see DOI: 10.1039/c8sc00020d

Author

Rodriguez, Kevin X., Pilato, Tara C., and Ashfeld, Brandon L.

Subjects
Chemistry
Abstract

A Rh2(S-TCPTTL)4-catalyzed cyclopropanation of a vinyl ketene with a disubstituted diazo compound initiates a stereorententive, accelerated ring expansion to provide the cycloadduct in good to excellent yields and enantioselectivity., Enantioselective quaternary carbon construction in the assembly of cyclopentenones employing a RhII-catalyzed, formal [4+1]-cycloaddition is described. A Rh2(S-TCPTTL)4-catalyzed cyclopropanation of a vinyl ketene with a disubstituted diazo compound initiates a stereoretentive, accelerated ring expansion to provide the cycloadduct in good to excellent yields and enantioselectivity.

Published
2018

31. (4+1)-Cycloadditions Exploiting the Biphilicity of Oxyphosphonium Enolates and RhII /PdII -Stabilized Metallocarbenes for the Construction of Five-Membered Frameworks.

Author

Tucker, Zachary D. and Ashfeld, Brandon L.

Subjects
*ENOLATES, *RHODIUM, *PALLADIUM, *ORGANOCATALYSIS, *RING formation (Chemistry), *CARBENES
Abstract

(4+1)-Cyclizations are an underutilized disconnect for the formation of five-membered heterocyclic and carbocyclic frameworks. Herein we analyze methods employing oxyphosphonium enolates and RhII /PdII-metallocarbenes as C1 synthons in the presence of several four-atom components for the synthesis of 2,3-dihydrobenzofurans, 2,3-dihydroindoles, oxazolones, cyclopentenones, and pyrrolones. 1 Introduction 2 (4+1)-Cyclizations Employing Kukhtin–Ramirez-Like Reactivity 3 (4+1)-Cyclizations Employing a Cyclopropanation/Ring-Expansion Sequence 4 Pd-Catalyzed (4+1)-Cyclizations through Carbene Migratory Insertion/Reductive Elimination Processes 5 Summary [ABSTRACT FROM AUTHOR]

Published
2021
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32. Front Cover: Combined Scaffold Evaluation and Systems‐Level Transcriptome‐Based Analysis for Accelerated Lead Optimization Reveals Ribosomal Targeting Spirooxindole Cyclopropanes (ChemMedChem 18/2019)

Author

Rodriguez, Kevin X., primary, Howe, Erin N., additional, Bacher, Emily P., additional, Burnette, Miranda, additional, Meloche, Jennifer L., additional, Meisel, Jayda, additional, Schnepp, Patricia, additional, Tan, Xuejuan, additional, Chang, Mayland, additional, Zartman, Jeremiah, additional, Zhang, Siyuan, additional, and Ashfeld, Brandon L., additional

Published
2019
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33. Combined Scaffold Evaluation and Systems‐Level Transcriptome‐Based Analysis for Accelerated Lead Optimization Reveals Ribosomal Targeting Spirooxindole Cyclopropanes

Author

Rodriguez, Kevin X., primary, Howe, Erin N., additional, Bacher, Emily P., additional, Burnette, Miranda, additional, Meloche, Jennifer L., additional, Meisel, Jayda, additional, Schnepp, Patricia, additional, Tan, Xuejuan, additional, Chang, Mayland, additional, Zartman, Jeremiah, additional, Zhang, Siyuan, additional, and Ashfeld, Brandon L., additional

Published
2019
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38. Features and applications of [[Rh[(CO).sub.2]Cl].sub.2]-catalyzed alkylations of unsymmetrical allylic substrates

Author

Ashfeld, Brandon L., Miller, Kenneth A., Smith, Anna J., Tran, Kristy, and Martin, Stephen F.

Subjects
Alkylation -- Research, Catalysis -- Research, Rhodium -- Chemical properties, Allylic compounds -- Chemical properties, Biological sciences, Chemistry
Abstract

A novel regio- and stereoselective [[Rh[(CO).sub.2]Cl].sub.2]-catalyzed allylic alkylation of unsymmetrical allylic carbonates is described. The main aspect of this method is the use of a single catalyst to effect sequential transformations in which the catalytic activity is moderated by controlling the reaction temperature.

Published
2007

43. Diverting β-Hydride Elimination of a π-Allyl PdIICarbene Complex for the Assembly of Disubstituted Indolines via a Highly Diastereoselective (4 + 1)-Cycloaddition

Author

Tucker, Zachary D., Hill, Harrison M., Smith, Andrew L., and Ashfeld, Brandon L.

Abstract

A Pd0-catalyzed formal (4 + 1)-cycloaddition approach to 2,3-disubstituted dihydroindoles is described. The diastereoselective formation of dihydroindoles that is highlighted by a carbene migratory insertion/reductive elimination sequence proceeding via a π-allyl PdII-species compliments existing methods of indoline assembly.

Published
2020
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45. Aroyl Isocyanates as 1,4-Dipoles in a Formal [4 + 1]-Cycloaddition Approach toward Oxazolone Construction

Author

Eckert, Kaitlyn E. and Ashfeld, Brandon L.

Abstract

A formal phosphine-mediated [4 + 1]-cycloaddition between a 1,2-dicarbonyl and an aroyl isocyanate to provide oxazolones bearing a disubstituted C5 center is described. By exploiting the carbene-like reactivity of oxyphosphonium enolates as C1 synthons and aroyl isocyanates as formal 1,4-dipoles, oxazolones and spiroooxindole oxazolones are constructed in high yields (39–99%).

Published
2024
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