WDR5 通过促进 H3K4 的甲基化和抑制 DNA 损伤来支持结肠癌细胞。

WDR5 supports colon cancer cells by promoting methylation of H3K4 and suppressing DNA damage.

机构信息

Eppley Institute, Fred & Pamela Buffett Cancer Center, University of Nebraska Medical Center, Omaha, NE, 68198, USA.

Present address: Department of Pharmacology, Duke University School of Medicine, Durham, NC, 27710, USA.

出版信息

BMC Cancer. 2018 Jun 20;18(1):673. doi: 10.1186/s12885-018-4580-6.

DOI:10.1186/s12885-018-4580-6

PMID:29925347

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6011590/

Abstract

BACKGROUND

KMT2/MLL proteins are commonly overexpressed or mutated in cancer and have been shown to support cancer maintenance. These proteins are responsible for methylating histone 3 at lysine 4 and promoting transcription and DNA synthesis; however, they are inactive outside of a multi-protein complex that requires WDR5. WDR5 has been implicated in cancer for its role in the COMPASS complex and its interaction with Myc; however, the role of WDR5 in colon cancer has not yet been elucidated.

METHODS

WDR5 expression was evaluated using RT-qPCR and western blot analysis. Cell viability and colony forming assays were utilized to evaluate the effects of WDR5 depletion or inhibition in colon cancer cells. Downstream effects of WDR5 depletion and inhibition were observed by western blot.

RESULTS

WDR5 is overexpressed in colon tumors and colon cancer cell lines at the mRNA and protein level. WDR5 depletion reduces cell viability in HCT116, LoVo, RKO, HCT15, SW480, SW620, and T84 colon cancer cells. Inhibition of the WDR5:KMT2/MLL interaction using OICR-9429 reduces cell viability in the same panel of cell lines albeit not to the same extent as RNAi-mediated WDR5 depletion. WDR5 depletion reduced H3K4Me3 and increased phosphorylation of H2AX in HCT116, SW620, and RKO colon cancer cells; however, OICR-9429 treatment did not recapitulate these effects in all cell lines potentially explaining the reduced toxicity of OICR-9429 treatment as compared to WDR5 depletion. WDR5 depletion also sensitized colon cancer cells to radiation-induced DNA damage.

CONCLUSIONS

These data demonstrate a clear role for WDR5 in colon cancer and future studies should examine its potential to serve as a therapeutic target in cancer. Additional studies are needed to fully elucidate if the requirement for WDR5 is independent of or consistent with its role within the COMPASS complex. OICR-9429 treatment was particularly toxic to SW620 and T84 colon cancer cells, two cell lines without mutations in WDR5 and KMT2/MLL proteins suggesting COMPASS complex inhibition may be particularly effective in tumors lacking KMT2 mutations. Additionally, the ability of WDR5 depletion to amplify the toxic effects of radiation presents the possibility of targeting WDR5 to sensitize cells to DNA-damaging therapies.

摘要

背景

KMT2/MLL 蛋白在癌症中普遍过表达或突变，并被证实支持癌症的维持。这些蛋白负责在赖氨酸 4 上甲基化组蛋白 3，并促进转录和 DNA 合成；然而，它们在需要 WDR5 的多蛋白复合物之外是无活性的。WDR5 因其在 COMPASS 复合物中的作用及其与 Myc 的相互作用而与癌症有关；然而，WDR5 在结肠癌中的作用尚未阐明。

方法

使用 RT-qPCR 和 Western blot 分析评估 WDR5 的表达。细胞活力和集落形成测定用于评估结肠癌细胞中 WDR5 耗竭或抑制的影响。通过 Western blot 观察 WDR5 耗竭和抑制的下游效应。

结果

WDR5 在结肠癌肿瘤和结肠癌细胞系中在 mRNA 和蛋白质水平上过度表达。WDR5 耗竭降低 HCT116、LoVo、RKO、HCT15、SW480、SW620 和 T84 结肠癌细胞的细胞活力。使用 OICR-9429 抑制 WDR5:KMT2/MLL 相互作用降低了同一细胞系面板中的细胞活力，但不如 RNAi 介导的 WDR5 耗竭程度大。WDR5 耗竭降低了 HCT116、SW620 和 RKO 结肠癌细胞中的 H3K4Me3 并增加了 H2AX 的磷酸化；然而，OICR-9429 处理并未在所有细胞系中再现这些效应，这可能解释了与 WDR5 耗竭相比 OICR-9429 处理的毒性降低。WDR5 耗竭还使结肠癌细胞对辐射诱导的 DNA 损伤敏感。

结论

这些数据表明 WDR5 在结肠癌中具有明确的作用，未来的研究应检查其作为癌症治疗靶点的潜力。需要进一步的研究来充分阐明 WDR5 的需求是否独立于或与其在 COMPASS 复合物中的作用一致。OICR-9429 处理对 SW620 和 T84 结肠癌细胞特别有毒，这两种细胞系没有 WDR5 和 KMT2/MLL 蛋白的突变，这表明 COMPASS 复合物抑制可能在缺乏 KMT2 突变的肿瘤中特别有效。此外，WDR5 耗竭增强辐射毒性的能力提出了靶向 WDR5 以使细胞对 DNA 损伤疗法敏感的可能性。

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WDR5 通过促进 H3K4 的甲基化和抑制 DNA 损伤来支持结肠癌细胞。

WDR5 supports colon cancer cells by promoting methylation of H3K4 and suppressing DNA damage.

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