Extracellular vesicle–packaged PIAT from cancer-associated fibroblasts drives neural remodeling by mediating m5C modification in pancreatic cancer mouse models

Zheng, Shangyou; Hu, Chonghui; Lin, Qing; Li, Tingting; Li, Guolin; Tian, Qing; Zhang, Xiang; Huang, Tianhao; Ye, Yuancheng; He, Rihua; Chen, Changhao; Zhou, Yu; Chen, Rufu

doi:10.1126/scitranslmed.adi0178

Cited by 6 publications

References 54 publications

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Endosomal Trafficking Bypassed by the RAB5B‐CD109 Interplay Promotes Axonogenesis in KRAS‐Mutant Pancreatic Cancer

Zhang,

Luo,

Lin

et al. 2024

Advanced Science

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Perineural invasion (PNI) represents a unique biological feature associated with poor prognosis in pancreatic ductal adenocarcinoma (PDAC), especially in the presence of KRAS mutations. Extracellular vesicle (EV)‐packaged circular RNAs (circRNAs) function as essential mediators of tumor microenvironment communication, triggering PDAC cell invasion and distant metastasis. However, the regulatory mechanisms of EV‐packaged circRNAs in the PNI of KRAS‐mutant PDAC have not yet been elucidated. Herein, a KRASG12D mutation‐responsive EV‐packaged circRNA, circPNIT, which positively correlated with PNI in PDAC patients is identified. Functionally, KRASG12D PDAC‐derived EV‐packaged circPNIT promoted axonogenesis and PNI both in vitro and in vivo. Mechanistically, the circPNIT‐mediated Rab5B‐CD109 interplay bypassed traditional endosomal trafficking to anchor Rab5B to the lipid rafts of multivesicular bodies and packaged circPNIT into CD109+ EVs. Subsequently, CD109+ EVs delivered circPNIT to neurons by binding to TRPV1 and facilitating DSCAML1 transcription‐induced axonogenesis, which in turn enhanced the PNI by activating the GFRα1/RET pathway. Importantly, circPNIT‐loaded CD109+ EVs are established to dramatically promote PNI in a KRASG12D/+ Trp53R172H/+ Pdx‐1‐Cre mouse model. Collectively, the findings highlight the mechanism underlying how EV‐packaged circRNAs mediate the PNI of KRAS‐mutant PDAC cells through the Rab5B endosomal bypass, identifying circPNIT as an effective target for the treatment of neuro‐metastatic PDAC.

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Endosomal Trafficking Bypassed by the RAB5B‐CD109 Interplay Promotes Axonogenesis in KRAS‐Mutant Pancreatic Cancer

Zhang,

Luo,

Lin

et al. 2024

Advanced Science

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Post‐Translational Modifications of RNA‐Modifying Proteins in Cellular Dynamics and Disease Progression

Lin,

et al. 2024

Advanced Science

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RNA‐modifying proteins, classified as “writers,” “erasers,” and “readers,” dynamically modulate RNA by adding, removing, or interpreting chemical groups, thereby influencing RNA stability, functionality, and interactions. To date, over 170 distinct RNA chemical modifications and more than 100 RNA‐modifying enzymes have been identified, with ongoing research expanding these numbers. Although significant progress has been made in understanding RNA modification, the regulatory mechanisms that govern RNA‐modifying proteins themselves remain insufficiently explored. Post‐translational modifications (PTMs) such as phosphorylation, ubiquitination, and acetylation are crucial in modulating the function and behavior of these proteins. However, the full extent of PTM influence on RNA‐modifying proteins and their role in disease development remains to be fully elucidated. This review addresses these gaps by offering a comprehensive analysis of the roles PTMs play in regulating RNA‐modifying proteins. Mechanistic insights are provided into how these modifications alter biological processes, contribute to cellular function, and drive disease progression. In addition, the current research landscape is examined, highlighting the therapeutic potential of targeting PTMs on RNA‐modifying proteins for precision medicine. By advancing understanding of these regulatory networks, this review seeks to facilitate the development of more effective therapeutic strategies and inspire future research in the critical area of PTMs in RNA‐modifying proteins.

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Integrin α6‐containing extracellular vesicles promote lymphatic remodelling for pre‐metastatic niche formation in lymph nodes via interplay with CD151

Lin,

Zheng,

Jia

et al. 2024

J of Extracellular Vesicle

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Heterogeneous extracellular vesicles (EVs) from various types of tumours are acknowledged for inducing the formation of pre‐metastatic “niches” in draining lymph nodes (LNs) to promote lymphatic metastasis. In order to identify the specific subpopulations of EVs involved, we performed high‐resolution proteomic analysis combined with nanoflow cytometry of bladder cancer (BCa) tissue‐derived EVs to identify a novel subset of tumour‐derived EVs that contain integrin α6 (ITGA6+EVs) and revealed the positive correlation of ITGA6+EVs with the formation of pre‐metastatic niche in draining LNs and lymphatic metastasis in multicentre clinical analysis of 820‐case BCa patients. BCa‐derived ITGA6+EVs induced E‐selectin (SELE)‐marked lymphatic remodelling pre‐metastatic niche and promoted metastasis in draining LNs through delivering cargo circRNA‐LIPAR to lymphatic endothelial cells in vivo and in vitro. Mechanistically, LIPAR linked ITGA6 to the switch II domain of RAB5A and sustained RAB5A GTP‐bound activated state, thus maintaining the production of ITGA6+EVs loaded with LIPAR through endosomal trafficking. ITGA6+EVs targeted lymphatic vessels through ITGA6‐CD151 interplay and released LIPAR to induce SELE overexpression‐marked lymphatic remodelling pre‐metastatic niche. Importantly, we constructed engineered‐ITGA6 EVs to inhibit lymphatic pre‐metastatic niche, which suppressed lymphatic metastasis and prolonged survival in preclinical models. Collectively, our study uncovers the mechanism of BCa‐derived ITGA6+EVs mediating pre‐metastatic niche and provides an engineered‐EV‐based strategy against BCa lymphatic metastasis.

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Extracellular vesicle–packaged PIAT from cancer-associated fibroblasts drives neural remodeling by mediating m5C modification in pancreatic cancer mouse models

Cited by 6 publications

References 54 publications

Endosomal Trafficking Bypassed by the RAB5B‐CD109 Interplay Promotes Axonogenesis in KRAS‐Mutant Pancreatic Cancer

Endosomal Trafficking Bypassed by the RAB5B‐CD109 Interplay Promotes Axonogenesis in KRAS‐Mutant Pancreatic Cancer

Post‐Translational Modifications of RNA‐Modifying Proteins in Cellular Dynamics and Disease Progression

Integrin α6‐containing extracellular vesicles promote lymphatic remodelling for pre‐metastatic niche formation in lymph nodes via interplay with CD151

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