Proteomic analysis of chemically transformed NIH-3T3 cells reveals novel mechanisms of action of amaranth lunasin-like peptide

Abstract

Food-derived biopeptides can interact with genes and proteins to preserve health and prevent the development of diseases. Lunasin is a soybean cancer-preventive peptide that has been well characterized; however, few studies have been carried out to characterize the function of amaranth lunasin-like peptide (AhLun). The aim of this work was to analyze the proteomic profile changes in NIH-3T3 cells when they are chemically transformed with the carcinogen 3-methylcholanthrene (3MC) in the absence or presence of AhLun. The addition of AhLun into the culture medium did not affect the cell morphology; however, as a chemopreventive agent, it significantly reduced anisokaryosis formation when cells were treated with 3MC. Changes in protein accumulation in NIH-3T3 cells were evaluated by gel-based proteomics analysis. Differentially accumulated protein spots that exhibited at least a twofold change in spot intensity (p < 0.05), when compared with control cells, were analyzed by LC-MS/MS. Successfully identified proteins were grouped into six main categories according to their localization and function (nuclear, ribosomal, mitochondrial, metabolism, cytoskeletal, and miscellaneous). The gel-based proteomic approach for the evaluation of the chemopreventive potential of AhLun reveals novel pathways of action and provides new clues about the possible mechanisms of action of this bioactive peptide present in amaranth seeds.