Department of Pediatric Hematology, Guiyang Maternal and Child Health Care Hospital, Guiyang Children's Hospital, Guiyang, 550002, China.
Department of Hematology, Affiliated Hospital of Guizhou Medical University, Guiyang, 550004, China.
Ann Hematol. 2024 Aug;103(8):3015-3027. doi: 10.1007/s00277-024-05830-9. Epub 2024 Jun 7.
Bone marrow stromal cells (BMSCs) can promote the growth of Philadelphia chromosome-positive (Ph+) acute lymphoblastic leukemia (ALL). Histone deacetylases (HDACs) play essential roles in the proliferation and apoptosis resistance of Ph + ALL cells. In our previous study, inhibiting histone deacetylase 1 (HDAC1) decreases the proliferation of Ph + ALL cells. However, little is known regarding how HDAC1 in BMSCs of Ph + ALL patients affects the imatinib (IM) resistance. Therefore, the present work examined the roles of HDAC1 in BMSCs. Overexpression of HDAC1 was found in BMSCs of Ph + ALL patients with IM resistance. In addition, the Ph + ALL cell line SUP-B15 was co-cultured with BMSCs after lentivirus transfection for regulating HDAC1 expression. Knockdown of HDAC1 within BMSCs elevated the IM-mediated SUP-B15 cell apoptosis, while increasing HDAC1 expression had an opposite effect. IL-6 in BMSCs, which is an important factor for the microenvironment-associated chemoresistance, showed evident up-regulation in HDAC1-upregulated BMSCs and down-regulation in HDAC1-downregulated BMSCs. While recombinant IL-6 (rIL-6) can reversed the sensitivity of SUP-B15 cells to IM induced by downregulating HDAC1 expression in BMSCs. HDAC1 showed positive regulation on IL-6 transcription and secretion. Moreover, IL-6 secretion induced by HDAC1 in BMSCs might enhance IM resistance in Ph + ALL cells. With regard to the underlying molecular mechanism, NF-κB, an important signal responsible for IL-6 transcription in BMSCs, mediated the HDAC1-regulated IL-6 expression. Collectively, this study facilitated to develop HDAC1 inhibitors based not only the corresponding direct anti-Ph + ALL activity but also the regulation of bone marrow microenvironment.
骨髓基质细胞(BMSCs)可促进费城染色体阳性(Ph+)急性淋巴细胞白血病(ALL)的生长。组蛋白去乙酰化酶(HDACs)在 Ph+ALL 细胞的增殖和抗凋亡中发挥重要作用。在我们之前的研究中,抑制组蛋白去乙酰化酶 1(HDAC1)可降低 Ph+ALL 细胞的增殖。然而,对于 Ph+ALL 患者的 BMSCs 中的 HDAC1 如何影响伊马替尼(IM)耐药性知之甚少。因此,本研究探讨了 HDAC1 在 BMSCs 中的作用。发现 Ph+ALL 患者的 BMSCs 中 HDAC1 过表达,且 Ph+ALL 细胞系 SUP-B15 在转染慢病毒后与 BMSCs 共培养,调节 HDAC1 的表达。BMSCs 中 HDAC1 的敲低可提高 IM 介导的 SUP-B15 细胞凋亡,而增加 HDAC1 的表达则产生相反的效果。BMSCs 中白细胞介素 6(IL-6)是微环境相关化疗耐药的重要因素,在 HDAC1 上调的 BMSCs 中明显上调,在 HDAC1 下调的 BMSCs 中下调。而重组白细胞介素 6(rIL-6)可逆转下调 BMSCs 中 HDAC1 表达对 SUP-B15 细胞对 IM 敏感性的影响。HDAC1 对 IL-6 的转录和分泌具有正向调节作用。此外,BMSCs 中 HDAC1 诱导的 IL-6 分泌可能增强 Ph+ALL 细胞对 IM 的耐药性。就潜在的分子机制而言,NF-κB 是 BMSCs 中负责 IL-6 转录的重要信号,介导了 HDAC1 调节的 IL-6 表达。总之,本研究不仅促进了基于相应的直接抗 Ph+ALL 活性,而且还促进了骨髓微环境调节的 HDAC1 抑制剂的开发。
