来自梗死和衰竭心脏的小细胞外囊泡加速肿瘤生长。
Small Extracellular Vesicles From Infarcted and Failing Heart Accelerate Tumor Growth.
机构信息
Neufeld and Tamman Cardiovascular Research Institutes, School of Medicine, Tel Aviv University, Israel (T.C., I.R., O.S.-T., D.L., Y.S., R.S., M.N., N.N.-S., J.L.).
Lev Leviev Cardiovascular and Thoracic Center (T.C., I.R., O.S.-T., D.L., Y.S., N.N.-S., J.L.), Sheba Medical Center, Tel Hashomer, Israel.
出版信息
Circulation. 2024 May 28;149(22):1729-1748. doi: 10.1161/CIRCULATIONAHA.123.066911. Epub 2024 Mar 15.
BACKGROUND
Myocardial infarction (MI) and heart failure are associated with an increased incidence of cancer. However, the mechanism is complex and unclear. Here, we aimed to test our hypothesis that cardiac small extracellular vesicles (sEVs), particularly cardiac mesenchymal stromal cell-derived sEVs (cMSC-sEVs), contribute to the link between post-MI left ventricular dysfunction (LVD) and cancer.
METHODS
We purified and characterized sEVs from post-MI hearts and cultured cMSCs. Then, we analyzed cMSC-EV cargo and proneoplastic effects on several lines of cancer cells, macrophages, and endothelial cells. Next, we modeled heterotopic and orthotopic lung and breast cancer tumors in mice with post-MI LVD. We transferred cMSC-sEVs to assess sEV biodistribution and its effect on tumor growth. Finally, we tested the effects of sEV depletion and spironolactone treatment on cMSC-EV release and tumor growth.
RESULTS
Post-MI hearts, particularly cMSCs, produced more sEVs with proneoplastic cargo than nonfailing hearts did. Proteomic analysis revealed unique protein profiles and higher quantities of tumor-promoting cytokines, proteins, and microRNAs in cMSC-sEVs from post-MI hearts. The proneoplastic effects of cMSC-sEVs varied with different types of cancer, with lung and colon cancers being more affected than melanoma and breast cancer cell lines. Post-MI cMSC-sEVs also activated resting macrophages into proangiogenic and protumorigenic states in vitro. At 28-day follow-up, mice with post-MI LVD developed larger heterotopic and orthotopic lung tumors than did sham-MI mice. Adoptive transfer of cMSC-sEVs from post-MI hearts accelerated the growth of heterotopic and orthotopic lung tumors, and biodistribution analysis revealed accumulating cMSC-sEVs in tumor cells along with accelerated tumor cell proliferation. sEV depletion reduced the tumor-promoting effects of MI, and adoptive transfer of cMSC-sEVs from post-MI hearts partially restored these effects. Finally, spironolactone treatment reduced the number of cMSC-sEVs and suppressed tumor growth during post-MI LVD.
CONCLUSIONS
Cardiac sEVs, specifically cMSC-sEVs from post-MI hearts, carry multiple protumorigenic factors. Uptake of cMSC-sEVs by cancer cells accelerates tumor growth. Treatment with spironolactone significantly reduces accelerated tumor growth after MI. Our results provide new insight into the mechanism connecting post-MI LVD to cancer and propose a translational option to mitigate this deadly association.
背景
心肌梗死(MI)和心力衰竭与癌症发病率增加有关。然而,其机制复杂且不明确。在这里,我们旨在检验我们的假设,即心脏小细胞外囊泡(sEVs),特别是心脏间充质基质细胞衍生的 sEVs(cMSC-sEVs),有助于解释 MI 后左心室功能障碍(LVD)与癌症之间的联系。
方法
我们从 MI 后心脏中纯化并表征了 sEVs,并培养了 cMSCs。然后,我们分析了 cMSC-EV 货物和对几种癌细胞、巨噬细胞和内皮细胞的致癌作用。接下来,我们在 MI 后 LVD 的小鼠中建立了异位和原位肺和乳腺癌肿瘤模型。我们转移 cMSC-sEVs 以评估 sEV 的体内分布及其对肿瘤生长的影响。最后,我们测试了 sEV 耗竭和螺内酯治疗对 cMSC-EV 释放和肿瘤生长的影响。
结果
MI 后的心脏,特别是 cMSCs,产生了比非衰竭心脏更多的具有致癌货物的 sEVs。蛋白质组学分析显示,MI 后心脏来源的 cMSC-sEVs 具有独特的蛋白质谱和更高数量的促肿瘤细胞因子、蛋白质和 microRNAs。cMSC-sEVs 的致癌作用因不同类型的癌症而不同,肺和结肠癌细胞比黑色素瘤和乳腺癌细胞系受影响更大。MI 后 cMSC-sEVs 还可将静止的巨噬细胞在体外激活为促血管生成和促肿瘤状态。在 28 天的随访中,与假手术-MI 小鼠相比,MI 后 LVD 的小鼠形成了更大的异位和原位肺肿瘤。来自 MI 心脏的 cMSC-sEVs 的过继转移加速了异位和原位肺肿瘤的生长,并且体内分布分析显示,cMSC-sEVs 在肿瘤细胞中积累,同时加速了肿瘤细胞的增殖。sEV 耗竭降低了 MI 的促肿瘤作用,而来自 MI 心脏的 cMSC-sEVs 的过继转移部分恢复了这些作用。最后,螺内酯治疗减少了 cMSC-sEVs 的数量,并抑制了 MI 后 LVD 期间的肿瘤生长。
结论
心脏 sEVs,特别是 MI 后心脏来源的 cMSC-sEVs,携带多种促肿瘤因子。癌细胞摄取 cMSC-sEVs 可加速肿瘤生长。螺内酯治疗可显著减少 MI 后肿瘤生长的加速。我们的研究结果为连接 MI 后 LVD 与癌症的机制提供了新的见解,并提出了一种减轻这种致命关联的转化选择。
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