JEM:HSP90抑制物延缓乳腺癌和血癌生长
2012-02-06 MedSci MedSci原创
HSP90分子伴侣循环,图片来自维基共享资源。 根据2012年1月23日在线发表在Journal of Experimental Medicine期刊上的两篇论文,靶向单个蛋白能够有助于对抗乳腺癌和白血病(leukemia, 译者注:也常译作血癌)。 这种单个蛋白是HSP90,它在细胞中作为分子伴侣保护其他蛋白。 德国哥廷根大学(University of G?ttingen) Ute
HSP90分子伴侣循环,图片来自维基共享资源。
根据2012年1月23日在线发表在Journal of Experimental Medicine期刊上的两篇论文,靶向单个蛋白能够有助于对抗乳腺癌和白血病(leukemia, 译者注:也常译作血癌)。
这种单个蛋白是HSP90,它在细胞中作为分子伴侣保护其他蛋白。
德国哥廷根大学(University of Göttingen) Ute Moll领导的一个研究小组发现阻断HSP90活性使得正常情况下得到保护的蛋白容易遭受攻击和破坏。这些蛋白之一就是移动抑制因子(migration inhibitory factor, MIF),它促进乳腺肿瘤生长。在小鼠中,HSP90抑制物延缓表达MIF的乳腺肿瘤的生长,但是对缺乏MIF的肿瘤没有影响。
根据美国达纳法伯癌症研究所(Dana-Farber Cancer Institute) David Weinstock和同事们开展的一项研究, HSP90抑制物对治疗某些白血病形式也是大有希望的。他们证实HSP90抑制物延缓由于过度活性的酶JAK2版本促进的血癌生长,其中很多过度活性的 JAK2版本抵抗阻断JAK2的药物。在小鼠中,HSP90抑制物延迟抗性白血病细胞生长。
这两项研究综合在一起意味着在很多癌症中HSP90可能代表着一种治疗性靶标。(生物谷:towersimper编译)
Inhibiting the HSP90 chaperone destabilizes macrophage migration inhibitory factor and thereby inhibits breast tumor progression
Ramona Schulz, Natalia D. Marchenko, Lena Holembowski, Günter Fingerle-Rowson, Marina Pesic, Lars Zender, Matthias Dobbelstein, and Ute M. Moll
Intracellular macrophage migration inhibitory factor (MIF) often becomes stabilized in human cancer cells. MIF can promote tumor cell survival, and elevated MIF protein correlates with tumor aggressiveness and poor prognosis. However, the molecular mechanism facilitating MIF stabilization in tumors is not understood. We show that the tumor-activated HSP90 chaperone complex protects MIF from degradation. Pharmacological inhibition of HSP90 activity, or siRNA-mediated knockdown of HSP90 or HDAC6, destabilizes MIF in a variety of human cancer cells. The HSP90-associated E3 ubiquitin ligase CHIP mediates the ensuing proteasome-dependent MIF degradation. Cancer cells contain constitutive endogenous MIF–HSP90 complexes. siRNA-mediated MIF knockdown inhibits proliferation and triggers apoptosis of cultured human cancer cells, whereas HSP90 inhibitor-induced apoptosis is overridden by ectopic MIF expression. In the ErbB2 transgenic model of human HER2-positive breast cancer, genetic ablation of MIF delays tumor progression and prolongs overall survival of mice. Systemic treatment with the HSP90 inhibitor 17AAG reduces MIF expression and blocks growth of MIF-expressing, but not MIF-deficient, tumors. Together, these findings identify MIF as a novel HSP90 client and suggest that HSP90 inhibitors inhibit ErbB2-driven breast tumor growth at least in part by destabilizing MIF.
Genetic resistance to JAK2 enzymatic inhibitors is overcome by HSP90 inhibition
Oliver Weigert, Andrew A. Lane, Liat Bird, Nadja Kopp, Bjoern Chapuy, Diederik van Bodegom, Angela V. Toms, Sachie Marubayashi, et al.
Enzymatic inhibitors of Janus kinase 2 (JAK2) are in clinical development for the treatment of myeloproliferative neoplasms (MPNs), B cell acute lymphoblastic leukemia (B-ALL) with rearrangements of the cytokine receptor subunit cytokine receptor–like factor 2 (CRLF2), and other tumors with constitutive JAK2 signaling. In this study, we identify G935R, Y931C, and E864K mutations within the JAK2 kinase domain that confer resistance across a panel of JAK inhibitors, whether present in cis with JAK2 V617F (observed in MPNs) or JAK2 R683G (observed in B-ALL). G935R, Y931C, and E864K do not reduce the sensitivity of JAK2-dependent cells to inhibitors of heat shock protein 90 (HSP90), which promote the degradation of both wild-type and mutant JAK2. HSP90 inhibitors were 100–1,000-fold more potent against CRLF2-rearranged B-ALL cells, which correlated with JAK2 degradation and more extensive blockade of JAK2/STAT5, MAP kinase, and AKT signaling. In addition, the HSP90 inhibitor AUY922 prolonged survival of mice xenografted with primary human CRLF2-rearranged B-ALL further than an enzymatic JAK2 inhibitor. Thus, HSP90 is a promising therapeutic target in JAK2-driven cancers, including those with genetic resistance to JAK enzymatic inhibitors.
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One or two to remerbem, that is.
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