Karbowniczek Magdalena, Kalvala Anil, Silwal Ashok, Patel Bhaumik, Kasetti Apoorva, Shetty Kirti, Cho Jung-Hung, Lara Gerard, Daugherity Beth, Diesler Remi, Pooladanda Venkatesh, Rueda Bo, Henske Elizabeth, Yu Jane, Markiewski Maciej
Texas Tech University Health Sciences Center.
TEXAS TECH UNIVERSITY HEALTH SCIENCES CENTER.
Res Sq. 2025 Mar 20:rs.3.rs-5390547. doi: 10.21203/rs.3.rs-5390547/v1.
Pulmonary lymphangioleiomyomatosis (LAM) is metastatic sarcoma but mechanisms of LAM metastasis are unknown. Extracellular vesicles (EV) regulate cancer metastasis but their roles in LAM have not yet been thoroughly investigated. Here, we report the discovery of distinct LAM-EV subtypes derived from primary tumor or metastasizing LAM cells that promote LAM metastasis through ITGα6/β1-c-Src-FAK signaling, triggered by shuttling ATP synthesis to cell pseudopodia or the activation of integrin adhesion complex, respectively. This signaling leads to increased LAM cell migration, invasiveness, and stemness and regulates metastable (hybrid) phenotypes that are all pivotal for metastasis. Mouse models corroborate data by demonstrating a significant increase in metastatic burden upon the exposure to EV through distinct mechanisms involving either lung resident fibroblasts or metalloproteinases' activation that are EV subtype dependent. The clinical relevance of these findings is underscored by increased EV biogenies in LAM patients and the enrichment of these EV cargo with lung tropic integrins and metalloproteinases. These findings establish EV as novel therapeutic target in LAM, warranting the future clinical studies.
肺淋巴管平滑肌瘤病(LAM)是一种转移性肉瘤,但其转移机制尚不清楚。细胞外囊泡(EV)可调节癌症转移,但其在LAM中的作用尚未得到充分研究。在此,我们报告发现了源自原发性肿瘤或转移性LAM细胞的不同LAM-EV亚型,它们分别通过将ATP合成转运至细胞伪足或激活整合素黏附复合体,经由ITGα6/β1-c-Src-FAK信号通路促进LAM转移。该信号通路导致LAM细胞迁移、侵袭能力及干性增强,并调节对转移至关重要的亚稳态(混合)表型。小鼠模型通过不同机制证实了相关数据,即暴露于EV后转移负担显著增加,这些机制涉及肺驻留成纤维细胞或金属蛋白酶的激活,且均依赖于EV亚型。LAM患者中EV生物合成增加以及这些EV货物中肺靶向整合素和金属蛋白酶的富集突出了这些发现的临床相关性。这些发现确立了EV作为LAM新型治疗靶点的地位,值得未来开展临床研究。
