Background: Ultraviolet radiation has been proven to result in unwarranted effects on the skin through reactive oxygen species (ROS) and direct DNA damage. Lycopene, a naturally occurring substance, acts as an antioxidant by neutralizing ROS. Objective: The objective of the study was to determine the efficacy of oral lycopene supplementation for photoprotection in adult Filipino patients seen in a tertiary hospital in Makati City. Design: The study design involves single-blind, parallel, randomized controlled trial. Methods: Thirty-six Filipino patients aged 18 years old and above with Fitzpatrick Skin Phototype (FSP) III–V were divided into two groups using a computer-generated randomization. Group A received lycopene 500 mg/ soft gel capsule two capsules per orem once daily for 12 weeks, while Group B received no intervention during the entire observation period. Minimal erythema dose (MED) of patients from both groups was assessed by a single treatment-blinded reader at baseline, week 6, and week 12. Results: Group A showed a significant increase in MED across periods, with a 20.83% increase from baseline at week 6 and a 43.06% increase at week 12. Group B MED remained constant from baseline to week 6 and to week 12. These results show that there is a significant effect in the increase in MED as compared to the control group. Conclusion Oral lycopene is effective in increasing the MED of patients and may be used for photoprotection among patients with FSP III–V.
Lycopene

Lycopen - a carotenoid extracted from tomato had antioxidant effect stronger than other carotenoids, lowered the risk of cancer, especially prostate cancer/arteriosclerosis and delayed the development of prostate cancer. When heating tomato into viscous mixture, biological efficacy of lycopen is stronger than raw tomato or tomato juice. This efficacy is stronger when using lycopen combined with some carotenoids such as vitamin E and beta-carotene
Prostatic Neoplasms ; Lycopersicon esculentum ; lycopene ; Therapeutics

Isoprenoids are all derived from two five-carbon building blocks called isopentenyl diphosphate (IPP) and dimethylallyl diphosphate (DMAPP), which are synthesized either by the mevalonate (MVA) pathway or 2-C-methyld-D-erythritol-4-phosphate (MEP) pathway. In this study, the MVA pathway genes were integrated into the chromosome of LYC101, in which the expression of key genes in the MEP synthesis pathway and lycopene synthesis pathway were optimized by artificial regulatory parts, to further improve the production of isoprenoids in Escherichia coli. The plasmids pALV23 and pALV145 were screened from a plasmid library that constructed by using the RBS library to link the genes of the MVA pathway, which greatly increased the production of β-carotene. The effects of plasmids pALV23 and pALV145 on the lycopene production in low and high lycopene production strain, LYC001 and LYC101, were compared, respectively. The production of lycopene was increased by plasmids pALV23 and pALV145 in both strains. In high lycopene production strain LYC101, pALV23 produced more lycopene than pALV145. Then, the MVA gene together of promoter of pALV23 was integrated into the chromosome of LYC101 at poxB site using method of homologous recombination helped by CRISPR-Cas9 system, resulted in genetically stable strain, LYC102. The yield of lycopene of LYC102 was 40.9 mg/g DCW, 1.19-folds higher than that of LYC101, and 20% more than that of LYC101 with pALV23. Simultaneous expression of MVA pathway and MEP pathway in recombinant E. coli can effectively increase the yield of terpenoids. In this study, a plasmid-free, genetically stable, high-yielding lycopene strain was constructed, which could be used for industrialization. Also, the platform strain can be used for the synthesis of other terpenoids.
Chromosomes, Bacterial ; Escherichia coli ; Lycopene ; Mevalonic Acid ; beta Carotene

Lycopene, as a high value-added terpene compound, has been widely concerned by researchers at home and abroad. Firstly, the ability of lycopene synthesis of Saccharomyces cerevisiae model strains S288c and YPH499 was analyzed and compared. The results showed that YPH499 was more suitable for lycopene synthesis as yeast chassis. Subsequently, the effects of constitutive promoters GPDpr, TEF1pr and inducible promoters GAL1pr, GAL10pr on Lycopene synthesis were compared. The results showed that when GPDpr and TEF1pr were used as promoters of crtE, crtB and crtI in lycopene synthesis pathway, the production of lycopene was 15.31 mg/L after 60 h fermentation in shaking flask. When GAL1pr and GAL10pr were used as promoters, the production was 123.89 mg/L, which was 8.09 times higher. In addition, the methylvaleric acid (MVA) pathway was further modified to overexpress the key enzyme gene of N-terminal truncation, tHMG1 (3-hydroxy-3-methylglutaryl coenzyme A reductase). The lycopene production was 265.68 mg/L, and the yield per cell was 72.79 mg/g. The Saccharomyces cerevisiae strain designed and constructed in this study can express lycopene in high yield per cell, thus could be used in the industrial production of lycopene after further construction and optimization.
Biosynthetic Pathways ; genetics ; Fermentation ; Industrial Microbiology ; Lycopene ; metabolism ; Saccharomyces cerevisiae ; genetics ; metabolism ; Species Specificity

Blakeslea trispora is a natural source of carotenoids, including β-carotene and lycopene, which have industrial applications. Therefore, classical selective breeding techniques have been applied to generate strains with increased productivity, and microencapsulated β-carotene preparation has been used in food industry (Li et al., 2019). In B. trispora, lycopene is synthesized via the mevalonate pathway (Venkateshwaran et al., 2015). Lycopene cyclase, which is one of the key enzymes in this pathway, is a bifunctional enzyme that can catalyze the cyclization of lycopene to produce β-carotene and exhibit phytoene synthase activity (He et al., 2017).
Citric Acid Cycle ; Fermentation ; Gas Chromatography-Mass Spectrometry/methods* ; Lycopene/metabolism* ; Mucorales/metabolism* ; Nicotine/pharmacology* ; beta Carotene/biosynthesis*

Lycopene is an antioxidant which has potential anti-diabetic activity, but the cellular mechanisms have not been clarified. In this study, different concentrations of lycopene were used to treat pancreatic alpha and beta cell lines, and the changes of cell growth, cell apoptosis, cell cycle, reactive oxygen species (ROS), ATP levels and expression of related cytokines were determined. The results exhibited that lycopene did not affect cell growth, cell apoptosis, cell cycle, ROS and ATP levels of alpha cells, while it promoted the growth of beta cells, increased the ratio of S phase, reduced the ROS levels and increased the ATP levels of beta cells. At the same time, lycopene treatment elevated the mRNA expression levels of tnfα, tgfβ and hif1α in beta cells. These findings suggest that lycopene plays cell-specific role and activates pancreatic beta cells, supporting its application in diabetes therapy.
Adenosine Triphosphate ; metabolism ; Apoptosis ; Carotenoids ; pharmacology ; Cell Cycle ; Cells, Cultured ; Cytokines ; metabolism ; Glucagon-Secreting Cells ; drug effects ; Humans ; Insulin-Secreting Cells ; drug effects ; Lycopene ; pharmacology ; Reactive Oxygen Species ; metabolism