preprints.org > medicine and pharmacology > oncology and oncogenics > doi: 10.20944/preprints202212.0400.v1

Preprint Article Version 1 Preserved in Portico This version is not peer-reviewed

Version 1 : Received: 19 December 2022 / Approved: 21 December 2022 / Online: 21 December 2022 (11:43:52 CET)

Background: Liquid biopsy is widely recognised as an efficient diagnostic method in oncology for disease detection and monitoring. Though examination of circulating tumor cell (CTC) is mostly implemented for assessment of genomic aberrations, need of complex methodologies for their detection has impeded its acceptance in low resource settings. We evaluated the cell free DNA (cfDNA) as a liquid biopsy tool and investigated its utility in breast cancer patients. Methods: Total cell free DNA was extracted from plasma of breast cancer patients (n=167) with median follow up of more than 5 years, at various stages of the disease. Quantitative PCR was performed to estimate the copy numbers of two fractions of ALU repetitive elements (ALU 115 and ALU 247) and DNA Integrity (DI) was calculated as the ratio of ALU 247/115. Mutations in TP53 and PIK3CA in the cfDNA was estimated by next-gen sequencing (NGS) in a subset of samples. Association of the levels of both the ALU fragments with various clinico-pathological factors and disease-free survival at various stages were examined. Nomogram models were constructed with clinical variables and ALU 247 levels to predict disease-free survival and best performing model was evaluated by decision curve analysis. Results: DI and ALU 247 levels were significantly lower (p<0.0001) in the post-operative plasma when compared to their pre-surgery levels. DI and ALU 247 were found to be significantly higher in patients with metastasis (p<0.05). Patients with higher levels of ALU 247 in their post-operative plasma had significantly poor disease-free survival (p=0.005). Higher level of ALU 247 in circulation also correlated with low tumor-infiltrating lymphocytes (TIL) within their primary tumors in the ER-negative breast cancer subtype (p=0.01). Cox proportional hazard analysis confirmed ALU 247 as an independent variable of disease-free survival both in univariate and multivariate analysis [HR 1.3 (95% CI 1.047 to 1.613, p= 0.017)]. Nomogram model showed addition of ALU 247 with other variables significantly improved (C-index-0.823) the predictive ability of the model. Conclusion: Our results confirm the utility of cfDNA as an evolving liquid biopsy tool for molecular analysis. Evaluation of larger fragment of cfDNA estimated through ALU 247 can provide vital information concurrent with the pathological process of disease evolution in breast cancer and warrants expansion to other cancer types.

Breast Cancer; Liquid biopsy; ctDNA; ALU 247; Disease progression; Prognosis

Medicine and Pharmacology, Oncology and Oncogenics

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