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Targeting Smyd3 by next-generation antisense oligonucleotides suppresses liver tumor growth.

ABSTRACT: The oncogenic function of suppressor of variegation, enhancer of zeste and MYeloid-Nervy-DEAF1-domain family methyltransferase Smyd3 has been implicated in various malignancies, including hepatocellular carcinoma (HCC). Here, we show that targeting Smyd3 by next-generation antisense oligonucleotides (Smyd3-ASO) is an efficient approach to modulate its mRNA levels in vivo and to halt the growth of already initiated liver tumors. Smyd3-ASO treatment dramatically decreased tumor burden in a mouse model of chemically induced HCC and negatively affected the growth rates, migration, oncosphere formation, and xenograft growth capacity of a panel of human hepatic cancer cell lines. Smyd3-ASOs prevented the activation of oncofetal genes and the development of cancer-specific gene expression program. The results point to a mechanism by which Smyd3-ASO treatment blocks cellular de-differentiation, a hallmark feature of HCC development, and, as a result, it inhibits the expansion of hepatic cancer stem cells, a population that has been presumed to resist chemotherapy.

SUBMITTER: Kontaki H

PROVIDER: S-EPMC8169948 | biostudies-literature |

REPOSITORIES: biostudies-literature

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Project description:Enzalutamide (ENZ) is a potent androgen receptor (AR) antagonist with activity in castration-resistant prostate cancer (CRPC); however, progression to ENZ-resistant (ENZ-R) CRPC frequently occurs with rising serum PSA levels, implicating AR full length (ARFL) or variants (AR-Vs) in disease progression. To define functional roles of ARFL and AR-Vs in ENZ-R CRPC, we designed 3 antisense oligonucleotides (ASO) targeting exon 1, intron 1, and exon 8 in AR pre-mRNA to knockdown either ARFL alone, or ARFL plus AR-Vs, and examined their respective effects in LNCaP-derived ENZ-R, as well as M12 and 22Rv1, cells. ENZ-R LNCaP xenografts express high levels of both ARFL and AR-V7 compared to CRPC LNCaP xenografts. In particular, ARFL levels were ~20-fold higher than AR-V7. ENZ-R LNCaP sub-lines, derived by selection from the ENZ xenografts, also expressed uniformly high levels of ARFL and AR-V7 compared to CRPC LNCaP cells. In addition, both ARFL and AR-V7 are highly expressed in the nuclear fractions of ENZ-R-LNCaP. In ENZ-R LNCaP cells, knockdown of ARFL alone, or ARFL plus AR-Vs, similarly induced apoptosis, suppressed cell growth and AR-regulated gene expression in vitro, and delayed tumour growth in vivo. In 22Rv1 cells that are inherently resistant to ENZ, knockdown of both ARFL and AR-Vs more potently suppressed cell growth, AR transcriptional activity and AR-regulated gene expression than knockdown of ARFL alone. These data indicate the AR is an important driver of ENZ resistance, and while the contributions of ARFL and AR-Vs can vary across cell systems, ARFL is the key driver in the ENZ-R LNCaP model. AR targeting strategies against both ARFL and AR-Vs is a rational approach for AR-dependent CRPC. CRPC and ENZ-R LNCaP xenografts were generated as described in: Gleave, M.E., et al., Serum prostate specific antigen levels in mice bearing human prostate LNCaP tumors are determined by tumor volume and endocrine and growth factors. Cancer Res, 1992. 52(6): p. 1598-605.

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Targeting Smyd3 by next-generation antisense oligonucleotides suppresses liver tumor growth.

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