Sphingosine simultaneously inhibits nuclear import and activates PP2A by binding importins and PPP2R1A.

The EMBO Journal Pub Date : 2025-06-30 DOI:10.1038/s44318-025-00490-5

Vaishali Jayashankar,Peter Kubiniok,Alison N McCracken,Rebeca G Gentry,Kazumi H Eckenstein,Lorenzo Sernissi,Vito Vece,Jean-Baptiste Garsi,Sarah Y Valles,Sunhee Jung,Natalie C Hoffman,Arielle S Perrochon,Elizabeth M Selwan,Brendan T Finicle,Mary Pitman,DaWei Lin,Éric Bonneil,Ruijuan Xu,Cungui Mao,Peter Kaiser,David A Fruman,David Mobley,Cholsoon Jang,Stephen Hanessian,Pierre Thibault,Aimee L Edinger

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Abstract

Sphingosine and constrained analogs like FTY720 and SH-BC-893 restrain tumor growth through incompletely defined mechanisms that include protein phosphatase 2A (PP2A) activation. Here we show that these compounds directly bind not only the PP2A scaffolding subunit PPP2R1A, but also the structurally related karyopherins importin-β1 (KPNB1), transportin-1 (TNPO1), importin-5 (IPO5), and importin-7 (IPO7). Binding to sphingosine-like molecules triggers reversible unfolding of these target proteins, resulting in activation of PP2A and inhibition of importins. Although sphingosine engages these proteins, ceramide does not, suggesting that these two endogenous tumor-suppressive sphingolipids work through distinct mechanisms. Simultaneous PP2A activation and importin inhibition reduces nuclear levels of proteins that drive cancer progression and therapeutic resistance such as JUN, YAP, MYC, androgen receptor, hnRNPA1, and NF-κB under conditions where compounds that target PP2A or KPNB1 individually are inactive. These findings provide new insights into sphingolipid biology and highlight a possible path toward cancer therapeutics that could overcome drug resistance.

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鞘氨醇同时抑制核进口并通过结合进口蛋白和PPP2R1A激活PP2A。

鞘氨醇和受限类似物如FTY720和SH-BC-893通过不完全确定的机制抑制肿瘤生长，包括蛋白磷酸酶2A （PP2A）激活。在这里，我们发现这些化合物不仅直接结合PP2A支架亚基PPP2R1A，还直接结合结构相关的核蛋白导入蛋白-β1 （KPNB1）、转运蛋白-1 （TNPO1）、importin-5 （IPO5）和importin-7 （IPO7）。与鞘氨醇类分子结合可触发这些靶蛋白的可逆展开，从而激活PP2A和抑制进口蛋白。尽管鞘磷脂参与这些蛋白，神经酰胺不参与，这表明这两种内源性肿瘤抑制鞘脂通过不同的机制起作用。在靶向PP2A或KPNB1的化合物分别失活的条件下，PP2A激活和进口蛋白抑制同时降低了驱动癌症进展和治疗耐药的核蛋白水平，如JUN、YAP、MYC、雄激素受体、hnRNPA1和NF-κB。这些发现为鞘脂生物学提供了新的见解，并强调了克服耐药性的癌症治疗方法的可能途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The EMBO Journal

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