AML-derived extracellular vesicles negatively regulate stem cell pool size: A step toward bone marrow failure

IF 3.2 4区医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL

Current Research in Translational Medicine Pub Date : 2023-01-01 DOI:10.1016/j.retram.2022.103375

Bahrampour Shahrokh , Farsani Mehdi Allahbakhshian , Gharehbaghian Ahmad , Feizi Fatemeh , Mohammadi Mohammad Hossein

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引用次数: 1

Abstract

Purpose of the study

Long-term repopulating hematopoietic stem cells (LTR-HSCs) have been previously shown to reside in close proximity to osteoblasts, where they take shelter in the bone marrow (BM) microenvironment against cytotoxic and apoptotic stimuli. Nevertheless, the function of the HSC niche is believed to undergo an adaptive evolutionary modification during leukemogenesis. Recent studies have demonstrated that leukemic clones can impact BM homing through extracellular vesicle (EV) secretion. However, the exact mechanism driving BM conversion is still unclear. In the present study, the human osteoblast cell line (MG-63) were subjected to various concentration of sera-derived EVs of patients with acute myeloid leukemia (AML) and healthy volunteers to assess if they are associated strongly enough to alter the expression pattern of cross-talk molecules involved in niche interactions.

Method

To gain a brief insight into the EVs secretion criteria, we first conducted a comparative analysis of sera-derived EVs by dynamic light scattering (DLS), transmission electron microscopy (TEM), and Bradford assay. After incubating MG-63 cell lines with increasing concentrations of the EVs, Trypan-blue and microculture tetrazolium test (MTT) assays were used to evaluate the cell survival, logarithmic growth, and metabolic activity. Finally, the expression levels of OPN, ANGPT-1, and JAG-1 transcripts were evaluated through the qRT-PCR technique.

Results

Here, we report that AML-derived EVs can affect the viability, cell growth, and metabolic activity of the human osteoblasts cell line (MG-63) compared to those that received healthy-derived EVs. We also found that leukemic EVs tend to induce overexpression of OPN but reduce the expression of ANGPT-1 and JAG-1 genes in the osteoblast transcriptome, which may provide a potential context imposing selective suppression of HSC pool size.

Conclusion

These findings extend the general concept of a novel mechanism in which leukemic EVs would make it possible to create a specialized pre-metastatic microenvironment in the interest of tumor expansion, allowing leukemic clones to overcome their HSCs counterparts.

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aml衍生的细胞外囊泡负向调节干细胞池大小:迈向骨髓衰竭的一步

本研究的目的长期再生造血干细胞（LTR-HSC）先前已被证明位于成骨细胞附近，它们在骨髓（BM）微环境中躲避细胞毒性和凋亡刺激。然而，HSC生态位的功能被认为在白血病发生过程中经历了适应性进化修饰。最近的研究表明，白血病克隆可以通过细胞外小泡（EV）分泌影响BM归巢。然而，驱动BM转换的确切机制仍然不清楚。在本研究中，对人成骨细胞系（MG-63）进行不同浓度的急性髓细胞白血病（AML）患者和健康志愿者的血清衍生EVs，以评估它们是否具有足够强的相关性，从而改变参与小生境相互作用的串扰分子的表达模式。方法为了简要了解EVs的分泌标准，我们首先通过动态光散射（DLS）、透射电子显微镜（TEM）和Bradford分析对血清来源的EVs进行了比较分析。在用增加浓度的EVs孵育MG-63细胞系后，使用台盼蓝和微培养四氮唑试验（MTT）测定来评估细胞存活率、对数生长和代谢活性。最后，通过qRT-PCR技术评估OPN、ANGPT-1和JAG-1转录物的表达水平。结果在这里，我们报道了AML衍生的EVs可以影响人成骨细胞系（MG-63）的生存能力、细胞生长和代谢活性，与接受健康衍生EVs的细胞系相比。我们还发现，白血病EVs倾向于诱导OPN的过度表达，但降低成骨细胞转录组中ANGPT-1和JAG-1基因的表达，这可能提供了一种对HSC池大小进行选择性抑制的潜在环境。结论这些发现扩展了一种新机制的一般概念，在这种机制中，白血病EVs将有可能创造一个专门的转移前微环境，以促进肿瘤扩展，使白血病克隆能够克服其HSC对应物。

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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来源期刊

Current Research in Translational Medicine Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology

CiteScore

7.00

自引率

4.90%

发文量

审稿时长

45 days

期刊介绍： Current Research in Translational Medicine is a peer-reviewed journal, publishing worldwide clinical and basic research in the field of hematology, immunology, infectiology, hematopoietic cell transplantation, and cellular and gene therapy. The journal considers for publication English-language editorials, original articles, reviews, and short reports including case-reports. Contributions are intended to draw attention to experimental medicine and translational research. Current Research in Translational Medicine periodically publishes thematic issues and is indexed in all major international databases (2017 Impact Factor is 1.9). Core areas covered in Current Research in Translational Medicine are: Hematology, Immunology, Infectiology, Hematopoietic, Cell Transplantation, Cellular and Gene Therapy.