Department of Biochemical Science and Technology, National Chiayi University, Chiayi 600, Taiwan.
Biomed Pharmacother. 2012 Jul;66(5):378-83. doi: 10.1016/j.biopha.2011.12.008. Epub 2012 Feb 16.
Bcr-Abl fusion protein activates tyrosine kinase, resulting in the proliferation of leukemia cells, especially chronic myeloid leukemia (CML) cells. Imatinib (IM) effectively targets Bcr-Abl tyrosine kinase, but development of resistance to IM occurs with varying frequency.
Elucidation of the common regulatory pathway upstream of Bcr-Abl in IM-sensitive and IM-resistant CML cells is important for developing novel therapeutics against CML.
This study demonstrated that IM preferentially inhibited the viability and Bcr-Abl expression in IM-sensitive K562 (K562) cells, but not in Bcr-Abl overexpressing IM-resistant K562 (K562R) cells. Both K562 and K562R cells expressed Shh preproprotein, cleaved Shh C-terminal and N-terminal peptides, as well as mRNA level of major Shh signaling molecules, including sonic hedgehog (Shh), patched (PTCH), smoothened (Smo) and Gli-1. Moreover, Gli-1 translocation into nucleus was evident in these two cell lines, suggesting that both K562 and K562R cells possess activated and major components of the Shh signaling pathway. Silencing of Gli-1 by interference RNA was accompanied by inhibition of Bcr-Abl protein expression. Pharmacological suppression of Bcr-Abl expression was restored by the Smo agonist purmorpharmine. Treatment of Shh peptide in both K562 and K562R cells not only increased Shh and Gli-1 expression, but also up-regulated Bcr-Abl expression. Resveratrol, a known Bcr-Abl inhibitor, reduced Gli-1 activation and inhibited the viability of CML cells.
Shh signaling may regulate Bcr-Abl expression in human chronic myeloid leukemia cells. Novel compounds inhibiting both Shh signaling and Bcr-Abl expression, such as resveratrol, may have potential to be effective agents against CML independent of IM resistance.
Bcr-Abl 融合蛋白激活酪氨酸激酶,导致白血病细胞,特别是慢性髓性白血病(CML)细胞的增殖。伊马替尼(IM)能有效地靶向 Bcr-Abl 酪氨酸激酶,但 IM 耐药的发生频率各不相同。
阐明 IM 敏感和 IM 耐药 CML 细胞中 Bcr-Abl 上游的共同调控途径对于开发针对 CML 的新型治疗方法非常重要。
本研究表明,IM 优先抑制 IM 敏感的 K562(K562)细胞的活力和 Bcr-Abl 表达,但不抑制 Bcr-Abl 过表达的 IM 耐药 K562(K562R)细胞。K562 和 K562R 细胞均表达 Shh 前蛋白、裂解的 Shh C 端和 N 端肽,以及主要 Shh 信号分子的 mRNA 水平,包括 sonic hedgehog(Shh)、patched(PTCH)、smoothened(Smo)和 Gli-1。此外,这两种细胞系中均有 Gli-1 易位入核,表明 K562 和 K562R 细胞均具有激活的和主要的 Shh 信号通路成分。干扰 RNA 沉默 Gli-1 伴随着 Bcr-Abl 蛋白表达的抑制。Bcr-Abl 表达的药理学抑制被 Smo 激动剂 purmorpharmine 恢复。Shh 肽处理 K562 和 K562R 细胞不仅增加了 Shh 和 Gli-1 的表达,还上调了 Bcr-Abl 的表达。白藜芦醇是一种已知的 Bcr-Abl 抑制剂,它降低了 Gli-1 的激活并抑制了 CML 细胞的活力。
Shh 信号可能调节人慢性髓性白血病细胞中的 Bcr-Abl 表达。新型化合物如白藜芦醇,既能抑制 Shh 信号又能抑制 Bcr-Abl 表达,可能成为独立于 IM 耐药的有效 CML 治疗药物。
