Abstract
The wastewater from the distillation of rose oils is discharged directly into the soil because it has a limited potential for future applications. The aim of the present study was to determine in vitro the chromatographic profile, redox-modulating capacity, and antineoplastic activity of wastewater obtained by distillation of essential oils from the Bulgarian Rosa alba L., Rosa damascena Mill., Rosa gallica L., and Rosa centifolia L. We applied UHPLC-HRMS for chromatographic analysis of rose wastewaters, studied their metal-chelating and Fe(III)-reducing ability, and performed MTT assay for the evaluation of cytotoxic potential against three tumorigenic (HEPG2—hepatocellular adenocarcinoma, A-375—malignant melanoma, A-431—non-melanoma epidermoid squamous skin carcinoma) and one non-tumorigenic human cell lines (HaCaT—immortalized keratinocytes). The median inhibitory concentrations (IC50) were calculated with nonlinear modeling using the MAPLE® platform. The potential of the wastewaters to induce apoptosis was also examined. Mono-, di-, and acylated glycosides of quercetin and kaempferol, ellagic acid and its derivatives as main chemical components, and gallic acid and its derivatives—such as catechin and epicatechin—were identified. The redox-modulating capacity of the samples (TPTZ test) showed that all four wastewaters exhibited the properties of excellent heavy metal cleaners, but did not exert very strong cytotoxic effects. The lowest IC50 rate was provided in wastewater from R. centifolia (34–35 µg/mL of gallic acid equivalents after a 72 h period for all cell lines). At 24 and 48 hours, the most resistant cell line was HEPG2, followed by HaCaT. After 72 h of exposure, the IC50 values were similar for tumor and normal cells. Still, R. damascena had a selectivity index over 2.0 regarding A-431 non-melanoma skin cancer cells, showing a good toxicological safety profile in addition to moderate activity—IC50 of 35 µg/mL polyphenols. The obtained results related to wastewaters acquired after the distillation of essential oils from the Bulgarian R. alba, R. damascena, R. gallica, and R. centifolia direct our attention to further studies for in-depth elucidation of their application as detoxifying agents under oxidative damage conditions in other experimental datasets.
Highlights
It is very interesting that plants from the Rosaceae family have a great influence on world history and are among the most valuable oil-bearing plants
The aim of the present study was to determine in vitro the chromatographic profiles, redox-modulating capacity, and antineoplastic activity of WWs obtained via the distillation of essential oils from the Bulgarian Rosa alba, Rosa damascena, Rosa gallica, and Rosa centifolia
It is high time that we revived the hidden wonders of the plant world, hidden in waste products that we have not appreciated for a long time—they must not be considered mere biological contaminants
Summary
It is very interesting that plants from the Rosaceae family have a great influence on world history and are among the most valuable oil-bearing plants. Antioxidants 2021, 10, 1615 civilizations have used them to condiment the foods of kings and nobles, and applied them as embalming preservatives, perfumes, cosmetics, and medicines in various regions of the world [1,2,3,4]. These plants have formed the basis of traditional medicine, and some of their derived substances have been utilized to treat different human diseases. In Bulgaria, the cultivation and processing of roses is a tradition and livelihood of a large part of the population and is very important for the agricultural economy of the country. Rosa damascena Mill., Rosa alba L., Rosa gallica L., and Rosa centifolia L. are the main species grown [5,6]
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