Abstract
Yellow Monascus pigments can be of two kinds: Natural and reduced, in which natural yellow Monascus pigments (NYMPs) attract widespread attention for their bioactivities. In this study, the antioxidative and antibreast cancer effects of the water-soluble NYMPs fermented by Monascus ruber CGMCC 10910 were evaluated. Results showed that water-soluble NYMPs had a significantly improved antioxidative activities compared to the reduced yellow Monascus pigments (RYMPs) that were chemically derived from orange or red Monascus pigments. Furthermore, NYMPs exhibited a concentration-dependent inhibition activity on MCF-7 cell growth (p < 0.001). After a 48-h incubation, a 26.52% inhibition yield was determined with 32 μg/mL of NYMPs. NYMPs also significantly inhibited the migration and invasion of MCF-7 cells. Mechanisms of the activities were associated with a down-regulation of the expression of matrix metalloproteinases and vascular endothelial growth factor. Rather than being alternatively used as natural colorants or antioxidants, this work suggested that NYMPs could be selected as potential functional additives in further test of breast cancer prevention and adjuvant therapy.
Highlights
Monascus metabolites are popular bioactive candidates for the development of functional foods
Previous work has verified that water-soluble natural yellow Monascus pigments (NYMPs) could be produced by the M. ruber CGMCC
The antioxidant activities of water-soluble NYMPs were assessed by DPPH and ABTS+
Summary
Monascus metabolites are popular bioactive candidates for the development of functional foods. Monascus-fermented pigments have shown bioactivities of antioxidation [1,2] and anticancer [3]. Natural yellow Monascus pigments (NYMPs) have attracted great attention due to their beneficial effects for human healthcare [1,2,4]. Alcohol-soluble NYMPs, such as ankaflavin [5], monascin [6], monascuspiloin [7], monapurpyridine A [8], and monaphilones A [9], are reported with remarkable anticancer activities. Shi et al [11] reported that the monascin increased the survival of Caenorhabditis elegans under juglone-induced oxidative stress and attenuated endogenous levels of reactive oxygen species
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