Targeting p300 and CBP abolishes HOXB13-loss-induced lipogenesis and tumor metastasis
Xiaodong Lu, Liu Peng, Qi Chu, Samantha Ye, Mingyang Liu, Maha Hussain, Mehmet A. Bilen, Lara R. Harik, Jonathan Melamed, Jonathan C. Zhao, Jindan Yu
Xiaodong Lu, Liu Peng, Qi Chu, Samantha Ye, Mingyang Liu, Maha Hussain, Mehmet A. Bilen, Lara R. Harik, Jonathan Melamed, Jonathan C. Zhao, Jindan Yu
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Research Article Genetics Oncology

Targeting p300 and CBP abolishes HOXB13-loss-induced lipogenesis and tumor metastasis

Abstract

HOXB13 is a prostate-specific transcription factor best known for its role as an androgen receptor (AR) cofactor. Recent evidence suggests that HOXB13 plays critical AR-independent functions in repressing lipogenic programs and promoting prostate cancer (PCa) metastasis. However, the mechanisms linking HOXB13 loss to tumor metastasis remain unclear. Here, we show that p300 and CBP co-occupy lipogenic enhancers suppressed by HOXB13 and HDAC3 and are essential for enhancer activation and target gene expression following HOXB13 depletion. Loss of HOXB13 induces lipid-sensitive matrix metalloproteinases (MMPs), promoting increased cell motility. Importantly, pharmacological inhibition of p300 and CBP blocks HOXB13-loss-driven lipogenesis, reduces MMP expression, and decreases cell migration in vitro and tumor metastasis in vivo. Analysis of clinical samples revealed that HOXB13 expression is reduced in metastatic hormone-sensitive PCa compared with matched primary tumors, further supporting its role in tumor metastasis. These findings demonstrate that HOXB13 downregulation promotes PCa metastasis through p300- and CBP-dependent lipogenic and motility pathways, which may be targeted by p300 inhibition.

Authors

Xiaodong Lu, Liu Peng, Qi Chu, Samantha Ye, Mingyang Liu, Maha Hussain, Mehmet A. Bilen, Lara R. Harik, Jonathan Melamed, Jonathan C. Zhao, Jindan Yu

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Figure 2

p300 and CBP are required for HOXB13-loss-induced lipogenic program.

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p300 and CBP are required for HOXB13-loss-induced lipogenic program. (A)...
(A) Heatmap showing shHOXB13-induced genes that are dependent on p300 and CBP in LNCaP cells with HOXB13 KD and/or p300/CBP KD. HOXB13-repressed genes were identified by DESeq2 with fold change ≥ 1.5 and adjusted P < 0.05. Color bar: z-score. (B) GO analysis of the genes identified in A. Top enriched molecular concepts are shown on the y-axis, while the x-axis indicates number of genes in each significant GO term. (C) Genome browser showing mRNA expression of HOXB13-target genes KLK3 and FASN in LNCaP cells with indicated treatment. (D) Western blot analysis of FASN, PSA, and HOXB13 expression in LNCaP cells with HOXB13 KD and/or p300/CBP KD. (E) Heatmap showing shHOXB13-induced genes that are repressed by CCS1477 in LNCaP cells with HOXB13 KD and/or CCS1477 treatment. Control (shCtrl) or HOXB13-KD (shHOXB13) cells were subjected to control (DMSO) or CCS1477 (250 nM) treatment for 48 hours, and RNA-seq was performed in triplicate. HOXB13-repressed genes were identified by DESeq2 with fold change ≥ 2 and adjusted P < 0.05. Color bar: z-score. (F) Western blot analysis of FASN, PSA, and HOXB13 expression in control or HOXB13-KD LNCaP cells treated with DMSO or CCS1477. (G) GO analysis of the genes identified in E. Top enriched molecular concepts are shown on the y-axis, while the x-axis indicates enrichment significance. Lipid- and cell cycle–related GO terms are highlighted in Red. P values by 1-sided hypergeometric test.