Nanoscale Epigenetic Profiling of Colorectal Cancer Cell-Derived Exosomes via Single-Vesicle Nanoscopy

Abstract

Exosomes play critical roles in cancer diagnosis and treatment as they carry molecular information that reflects the epigenetic state of their parent cells. For the first time, nanoscale epigenetic profiling of individual exosomes derived from colorectal cancer cell lines is demonstrated via photo-induced force microscopy (PiFM). Exosomes from three cell lines with distinct CpG island methylator phenotype (CIMP) status are analyzed at the single-vesicle level. The nano-IR method provides simultaneous high-resolution topographical and spectroscopic data, revealing detailed vibrational signatures that distinguish CIMP-high (HCT116 and HT29) exosomes from CIMP-negative (SW480) ones. Notably, exosomes from CIMP-high cells exhibit red-shifted amide I and nucleic acid region compared to those from CIMP-negative cells, a shift attributed to increased 5-methylcytosine (5mC) modifications, as verified by quantum chemical calculations. Furthermore, these measurements reveal heterogeneity among individual exosomes, suggesting the presence of distinct subpopulations with unique epigenetic profiles, demonstrating the importance of single-vesicle resolution to detect molecular variations that remain obscured in ensemble studies. These findings present the potential of PiFM-based single-vesicle analysis to identify epigenetic markers in exosomes, laying the groundwork for its application in refined cancer diagnostics and targeted therapeutic strategies.