Latese Evans scite author profile

Latese Evans

3Publications

13Citation Statements Received

247Citation Statements Given

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147

247

Affiliations

Thomas Jefferson University, Sidney Kimmel Cancer Center

Publications

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STEAP1–4 (Six-Transmembrane Epithelial Antigen of the Prostate 1–4) and Their Clinical Implications for Prostate Cancer

Evans

Bizzaro

et al. 2022

Cancers

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Six-Transmembrane Epithelial Antigen of the Prostate 1–4 (STEAP1–4) compose a family of metalloproteinases involved in iron and copper homeostasis and other cellular processes. Thus far, five homologs are known: STEAP1, STEAP1B, STEAP2, STEAP3, and STEAP4. In prostate cancer, STEAP1, STEAP2, and STEAP4 are overexpressed, while STEAP3 expression is downregulated. Although the metalloreductase activities of STEAP1–4 are well documented, their other biological functions are not. Furthermore, the properties and expression levels of STEAP heterotrimers, homotrimers, heterodimers, and homodimers are not well understood. Nevertheless, studies over the last few decades have provided sufficient impetus to investigate STEAP1–4 as potential biomarkers and therapeutic targets for prostate cancer. In particular, STEAP1 is the target of many emerging immunotherapies. Herein, we give an overview of the structure, physiology, and pathophysiology of STEAP1–4 to provide context for past and current efforts to translate STEAP1–4 into the clinic.

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Abstract B063: Interplay between PARP and the RB/E2F axis in prostate cancer

Evans

Cunningham

González

et al. 2023

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Retinoblastoma (RB) protein is a tumor suppressor that represses the transcriptional activity of E2Fs by forming an RB-E2F repressor complex. The phosphorylation of RB by CDK4/6 results in dissociation of the complex and subsequent E2F transcriptional activity, leading to cell cycle progression. RB loss occurs in 10-15% of castration-resistant prostate cancer (CRPC) which is associated tumor aggressiveness and poor clinical outcomes. RB loss is also associated differential treatment response to an array of treatment modalities, including hormone therapy and DNA damage inducing chemotherapy. RB depletion leads to enhanced expression of DNA repair proteins due to increased transcriptional activity of E2F1. PARP-1 is an enzyme that plays a role in multiple nuclear processes including DNA repair, transcriptional regulation, and chromatin dynamics. Increased PARP-1 activity is associated with and correlates to poor clinical outcomes in CRPC. E2F1 transcriptional activity is supported by PARP enzymatic activity, but the consequences of the functional interaction between the RB/E2F axis and PARP remains an open line of inquiry, which may yield novel treatment strategies and/or biomarkers of response. Isogenic models of RB1 knockdown were used to evaluate the impact of RB loss on PARP enzymatic activity. PARP-1 protein increases upon RB1 depletion with a concomitant increase in PARP activity. Growth curve assays were conducted to examine the biological response to PARP inhibition in the isogenic models. Results suggest a differential response between control and RB1 depleted cells when treated with Olaparib. RB1depleted cells also exhibit differential PARP activity in response to treatment with the IC50 dose of Olaparib. Future studies have been designed to evaluate the impact of RB alteration and manipulation of PARP activity on biological and molecular processes that are governed by RB/E2F and PARP. Citation Format: Latese Evans, Moriah Cunningham, Jasibel Vasquez Gonzalez, Matthew Schiewer. Interplay between PARP and the RB/E2F axis in prostate cancer [abstract]. In: Proceedings of the AACR Special Conference: Advances in Prostate Cancer Research; 2023 Mar 15-18; Denver, Colorado. Philadelphia (PA): AACR; Cancer Res 2023;83(11 Suppl):Abstract nr B063.

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STEAP1-4 (Six-Transmembrane Epithelial Antigen of the Prostate 1-4) and their Clinical Implications for Prostate Cancer

Xu¹,

Evans²,

Bizzaro³

et al. 2022

Preprint

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Six-Transmembrane Epithelial Antigen of the Prostate 1-4 (STEAP1-4) compose a family of metalloproteinases involved in iron and copper homeostasis and other cellular processes. Thus far, five homologs are known: STEAP1, STEAP1B, STEAP2, STEAP3, and STEAP4. In prostate cancer, STEAP1, STEAP2, and STEAP4 are overexpressed while STEAP3 expression is downregulated. Although the metalloreductase activities of STEAP1-4 are well-documented, their other biological functions are not. Furthermore, the properties and expression levels of STEAP heterotrimers, homotrimers, heterodimers, and homodimers are not well-understood. Nevertheless, studies over the last few decades have provided sufficient impetus to investigate STEAP1-4 as potential biomarkers and therapeutic targets for prostate cancer. In particular, STEAP1 is the target of many emerging immunotherapies. Herein, we give an overview of the structure, physiology, and pathophysiology of STEAP1-4 to provide context for past and current efforts to translate STEAP1-4 into the clinic.

show abstract

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Latese Evans

STEAP1–4 (Six-Transmembrane Epithelial Antigen of the Prostate 1–4) and Their Clinical Implications for Prostate Cancer

Abstract B063: Interplay between PARP and the RB/E2F axis in prostate cancer

STEAP1-4 (Six-Transmembrane Epithelial Antigen of the Prostate 1-4) and their Clinical Implications for Prostate Cancer

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