Document Type
Article
Publication Date
2022
Keywords
Raman spectroscopy; Cancer metastasis; Random forests; Phenotype switch; TWIST
Abstract
The accurate analytical characterization of metastatic phenotype at primary tumor diagnosis and its evolution with time are critical for controlling metastatic progression of cancer. Here, we report a label-free optical strategy using Raman spectroscopy and machine learning to identify distinct metastatic phenotypes observed in tumors formed by isogenic murine breast cancer cell lines of progressively increasing metastatic propensities. Methods: We employed the 4T1 isogenic panel of murine breast cancer cells to grow tumors of varying metastatic potential and acquired label-free spectra using a fiber probe-based portable Raman spectroscopy system. We used MCR-ALS and random forests classifiers to identify putative spectral markers and predict metastatic phenotype of tumors based on their optical spectra. We also used tumors derived from 4T1 cells silenced for the expression of TWIST, FOXC2 and CXCR3 genes to assess their Results: The MCR-ALS spectral decomposition showed consistent differences in the contribution of components that resembled collagen and lipids between the non-metastatic 67NR tumors and the metastatic tumors formed by FARN, 4T07, and 4T1 cells. Our Raman spectra-based random forest analysis provided evidence that machine learning models built on spectral data can allow the accurate identification of metastatic phenotype of independent test tumors. By silencing genes critical for metastasis in highly metastatic cell lines, we showed that the random forest classifiers provided predictions consistent with the observed phenotypic switch of the resultant tumors towards lower metastatic potential. Furthermore, the spectral assessment of lipid and collagen content of these tumors evaluate metastatic risk during primary tumor biopsies in clinical patients.
Citation
Paidi, S. K., Rodriguez Troncoso, J., Harper, M. G., Liu, Z., Nguyen, K. G., Ravindranathan, S., Rebello, L., Lee, D. E., Ivers, J. D., Zaharoff, D. A., Rajaram, N., & Barman, I. (2022). Raman Spectroscopy Reveals Phenotype Switches in Breast Cancer Metastasis. Theranostics, 12 (12), 5351-5363. https://doi.org/10.7150/thno.74002
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.