Transcriptomic and functional characterization of megakaryocytic-derived platelet-like particles: impaired aggregation and prominent anti-tumor effects.

IF 2.5 3区医学 Q3 CELL BIOLOGY Platelets Pub Date : 2025-12-01 Epub Date: 2025-01-15 DOI:10.1080/09537104.2024.2449344

Kaitlin Garofano, Vera Mariani, Kameron Rashid, Sumanun Suwunnakorn, Alfateh Sidahmed, Anelia Horvath, Sanjay B Maggirwar, Travis J O'Brien, Minoli A Perera, Michael Whalen, Norman H Lee

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引用次数: 0

Abstract

Platelet-like particles (PLPs), derived from megakaryocytic cell lines MEG-01 and K-562, are widely used as a surrogate to study platelet formation and function. We demonstrate by RNA-Seq that PLPs are transcriptionally distinct from platelets. Expression of key genes in signaling pathways promoting platelet activation/aggregation, such as the PI3K/AKT, protein kinase A, phospholipase C, and α-adrenergic and GP6 receptor pathways, was missing or under-expressed in PLPs. Functionally, PLPs do not aggregate following epinephrine, collagen, or ADP stimulation. While PLPs aggregated in response to thrombin, they did not display enhanced expression of surface markers P-selectin and activated α_2bβ₃, in contrast to platelets. We have previously demonstrated that platelets physically couple to MDA-PCa-2b and RC77T/E prostate cancer (PCa) cells via specific ligand-receptor interactions, leading to platelet-stimulated cell invasiveness and apoptotic resistance, and reciprocal cell-induced platelet aggregation. In contrast, PLP interactions with PCa cells inhibited both cell invasion and apoptotic resistance while failing to promote PLP aggregation. Moreover, PLPs reduced platelet-PCa cell interactions and antagonized platelet-stimulated oncogenic effects in PCa cells. RNA-Seq analysis identified candidate ligand-transmembrane protein combinations involved in anti-tumorigenic signaling of PLPs to PCa cells. Antibody neutralization of the TIMP3-MMP15 and VEGFB-FGFR1 signaling axes reversed PLP-mediated anti-invasion and apoptotic sensitization, respectively. In summary, PLPs lack many transcriptomic, molecular and functional features of platelets and possess novel anti-tumorigenic properties. These findings indicate that PLPs may have a potential therapeutic role in targeting and disrupting the oncogenic signaling between platelets and cancer cells, offering a new avenue for anti-cancer strategies.

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巨核细胞衍生的血小板样颗粒的转录组学和功能特征：聚集受损和显著的抗肿瘤作用。

血小板样颗粒（PLPs）来源于巨核细胞系 MEG-01 和 K-562，被广泛用作研究血小板形成和功能的替代物。我们通过 RNA-Seq 证明了 PLPs 在转录上有别于血小板。促进血小板活化/聚集的信号通路（如 PI3K/AKT、蛋白激酶 A、磷脂酶 C 以及 α 肾上腺素能和 GP6 受体通路）中的关键基因在 PLPs 中缺失或表达不足。从功能上讲，PLPs 在受到肾上腺素、胶原蛋白或 ADP 刺激后不会聚集。虽然 PLPs 在凝血酶的作用下会聚集，但与血小板相比，它们的表面标志物 P-选择素和活化的 α2bβ3 的表达并没有增强。我们以前曾证实，血小板通过特定配体-受体相互作用与 MDA-PCa-2b 和 RC77T/E 前列腺癌（PCa）细胞发生物理耦合，导致血小板刺激的细胞侵袭性和凋亡抵抗，以及细胞诱导的血小板相互聚集。与此相反，PLP 与 PCa 细胞的相互作用抑制了细胞侵袭和细胞凋亡抵抗，但却不能促进 PLP 的聚集。此外，PLPs 还能减少血小板与 PCa 细胞的相互作用，并拮抗血小板刺激 PCa 细胞的致癌作用。RNA-Seq分析确定了参与PLPs向PCa细胞传递抗肿瘤信号的候选配体-跨膜蛋白组合。TIMP3-MMP15和VEGFB-FGFR1信号轴的抗体中和分别逆转了PLP介导的抗侵袭和凋亡敏感性。总之，PLPs 缺乏血小板的许多转录组、分子和功能特征，却具有新的抗肿瘤特性。这些发现表明，PLPs 在靶向和破坏血小板与癌细胞之间的致癌信号传导方面可能具有潜在的治疗作用，为抗癌策略提供了一条新途径。

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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来源期刊

Platelets 医学-细胞生物学

CiteScore

6.70

自引率

3.00%

发文量

审稿时长

1 months

期刊介绍： Platelets is an international, peer-reviewed journal covering all aspects of platelet- and megakaryocyte-related research. Platelets provides the opportunity for contributors and readers across scientific disciplines to engage with new information about blood platelets. The journal’s Methods section aims to improve standardization between laboratories and to help researchers replicate difficult methods. Research areas include: Platelet function Biochemistry Signal transduction Pharmacology and therapeutics Interaction with other cells in the blood vessel wall The contribution of platelets and platelet-derived products to health and disease The journal publishes original articles, fast-track articles, review articles, systematic reviews, methods papers, short communications, case reports, opinion articles, commentaries, gene of the issue, and letters to the editor. Platelets operates a single-blind peer review policy. Authors can choose to publish gold open access in this journal.