The synthesis of high-value bioproducts has attracted immense attention in the scientific and industrial fields due to its health and economic benefits. Such bioactive compounds are typically manufactured by either synthetic approaches from petrochemical sources or biogenetic pathways existing in living organisms. Herein, we report a hybrid bioinorganic light-driven cell factory by integrating microalgae Chlorella zofingiensis with efficient light-harvesting gold nanoparticles (AuNPs) and demonstrate the enhanced photosynthesis of natural bioproducts (i.e., carotenoids) for the first time. Our results show that smaller AuNPs (5 nm) can be internalized by C. zofingiensis and increase the production of carotenoids to 10.7 ± 1.2 mg/L, 42.7% higher than the native microalgae. We confirm that AuNPs can significantly improve the relative electron transport rate in photosystem II and reactive oxygen species (ROS) levels in microalgae, thus elevating the overall photosynthesis toward carotenoids. This rationally designed biohybrid system provides a promising alternative to produce high-value bioproducts of interest.
Accumulation of high-value products in microalgae is not conducive with rapid cell growth, which is the potential conflict in microalgal production. Overcoming such conflict faces numerous challenges in comprehensively understanding cell behavior and metabolism. Here, we show a fully integrated interaction between cell behavior, carbon partitioning, carbon availability and path rate of central carbon metabolism, and have practically overcome the production conflict of Chromochloris zofingiensis. We demonstrate that elevated carbon availability and active path rate of precursors are determinants for product biosynthesis, and the former exhibits a superior potential. As protein content reaches a threshold value to confer survival advantages, carbon availability becomes the major limiting factor for product biosynthesis and cell reproduction. Based on integrated interaction, regulating the C/N balance by feeding carbon source under excess light increases content of high-value products without inhibiting cell growth. Our findings provide a new orientation to achieve great productivity improvements in microalgal production.
The photothermal cancer therapeutic effect of the AuNR-Glu nanohybrids produced by coating native gold nanorods (AuNRs) with a natural mushroom biopolymer from the Pleurotus tuber-regium sclerotia (Glu) were studied in the second near-infrared window (NIR-II). The AuNR-Glu exhibited low cytotoxicity and high biocompatibility due to the surface modification of Glu when compared with the native AuNRs. AuNR-Glu nanohybrids had a high photothermal transduction efficiency (η) of 43.12%, causing effective in vitro cell ablation in both HT-29 (94.2 ± 0.8% cell death) and SW480 (94.8 ± 1.1% cell death) colon cancer cells under 1064 nm NIR-II laser irradiation at 1.0 W/cm. Intravenous injection of AuNR-Glu nanohybrids followed by irradiation from a NIR-II laser at a safe dose (1.0 W/cm for 5 min) in nude mice implanted with HT-29 tumors was effective in significantly reducing the tumor growth, with no obvious harmful side effects, as evidenced by histological analysis of major organs. The present results have shown that AuNRs modified by natural biopolymers from mushroom β-glucans are novel nanomaterials with low cytotoxicity and effective photothermal anticancer agents with potential biomedical applications.
The reactive oxygen radicals produced from human polymorphonuclear leukocytes (PMN) stimulated with PMA (phorbol myristate acetate), hydroxyl radicals generated by a Fenton reaction, and superoxide anion radicals produced by irradiating solutions of riboflavin in the presence of EDTA have been taken as the models for production of oxygen radicals. With the use of the electron spin resonance spin trapping method, the scavenging effects of schizandrol A (solA) (5 x 10(-4) M) and schizandrin B (sinB) (5 x 10(-4) M) have been studied and compared with the effects of vitamin E (5 x 10(-4) M) and vitamin C (5 x 10(-4) M). It has been found that in cell system the scavenging effects of sinB and solA, as judged by ESR spin trappings, on hydrpxyl radicals (.OH) are greater than vitamin E and vitamin C and the scavenging effects on superoxide anion (O2) are greater than vitamin E but lower than vitamin C. With respect to the Fenton reaction, sinB has the strogest scavenging effect on .OH (77%) and solA has strong scavenging effect on .OH (63%), both of them larger than that of vitamin E (35%) and vitamin C (56%). In the riboflavin/EDTA system, the scavenging effect of sinB (46%) is smaller than that of vitamin C (96%) but larger than that of vitamin E (23%); the scavenging effect of solA is not obvious (14%). With the use of spin probe oximetry, the oxygen consumption during the respiratory burst of stimulated PMN has been measured when exposed to schizandrins. The experiment results demonstrated that they do not affect the activity of production of active oxygen radicals in the respiratory burst of PMN stimulated with PMA.
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