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Abstract
Androgen deprivation therapy (ADT) is a primary treatment strategy for prostate cancer (PCa), yet many tumors eventually develop androgen independence, leading to treatment resistance. To investigate the molecular changes underlying this transition, we analyzed differential gene expression in four androgen-independent (AI) clones derived from the Myc-CaP prostate cancer cell line using RNA sequencing. Gene expression profiles were compared to the parental Myc-CaP line, and differentially expressed genes (DEGs) were identified using DESeq2 and edgeR. The AI clones exhibited significant downregulation of senescence-associated genes, including Ezh2 and lamin B1, suggesting a loss of senescence-related chromatin repression. Additionally, upregulation of Wnt pathway genes (Wnt2/3/4/6) was observed, although key Hippo pathway regulators YAP (Yap1) and TAZ (Wwtr1) remained unchanged, implying a Hippo-independent role of Wnt signaling in androgen independence. Notably, Igfbp5, a modulator of insulin-like growth factor signaling, was highly upregulated in all AI clones, alongside increased expression of pro-angiogenic factors haptoglobin (Hp) and angiotensinogen (Agt). These findings suggest that chromatin accessibility, growth factor signaling, and angiogenesis play key roles in the development of androgen independence. The observed changes highlight potential therapeutic targets, including CDK inhibitors, Wnt and IGF pathway modulators, and HDAC inhibitors, for combating resistance in androgen-independent prostate cancer.
Publication Date
2025
Subject Major(s)
Physics (Biophysics)
Keywords
Androgen Deprivation Therapy, Prostate Cancer, Androgen Independence, Senescence Escape, WNT Signaling, Hippo Pathway, IGF Signaling, RNA-seq, Differential Gene Expression, Pathway Analysis, Chromatin Remodeling, Tumor Heterogeneity, Bioinformatics, Therapeutic Resistance, Cancer Therapeutics, VCU Massey Comprehensive Cancer Center
Disciplines
Bioinformatics | Biophysics | Cancer Biology | Genomics | Molecular Biology | Oncology | Translational Medical Research
Current Academic Year
Junior
Faculty Advisor/Mentor
Jason Reed
Sponsorship
Virginia Commonwealth University. Undergraduate Research Opportunities Program
Is Part Of
VCU Undergraduate Research Posters
Rights
© The Author(s)
Recommended Citation
Jessie Tignor, Melanie Sinanian, Richard Inho Joh, David Gewirtz, and Jason Reed. Analysis of Differential Gene Expression in Androgen-Independent Clones Derived from the Myc-CaP PCa Cell Line. Virginia Commonwealth University, VCU Massey Comprehensive Cancer Center. Presented at the VCU Poster Symposium for Undergraduate Research, 2025.
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