Upregulated synthesis and production of bioactive compounds in Lotus arabicus L. by in vitro feeding with dried powder of date palm seeds.

BACKGROUND: Plants are considered the primary source of many principal bioactive compounds that have been utilized in a wide range of applications including the pharmaceutical and biotechnological industries. Therefore, there is an imperative need to modulate the production of natural bioactive components. The present study aimed to determine the importance of dried and pulverized date palm seeds (DPS) as a natural elicitor for the synthesis of secondary metabolites in Lotus arabicus L. RESULTS: The presence of various antioxidant compounds, simple sugars, amino acids, fatty acids and reasonable mineral contents was distinct in the phytochemical characterization of DPS. The major components detected in DPS analysis were the 5-(hydroxymethyl) furfural and 2,3-dihydro-3,5-dihydroxy-6-methyl-4H-pyranone. The induced callus of L. arabicus (seven weeks old) was supplemented with DPS at different concentrations (0, 2, 4, 8 and 10 g/l) in culture media. Treatment with 8 g/l DPS induced the highest antioxidant capacity, ascorbic acid content and secondary metabolites (total phenolics and flavonoids) in the produced callus. Stress biomarkers (hydrogen peroxide and malondialdehyde) were found in the control ranges except at 10 g/l DPS. The expression patterns of key genes involoved in secondary metabolism modulation, such as phenylalanine ammonia lyase (PAL), chalcone synthase (CHS), chalcone isomerase (CHI), flavonol synthase (FLS) and deoxyxylulose phosphate reductoisomerase (DXR), were triggered after DPS treatments. Moreover, the quantitative profiling of phenolic and flavonoid compounds showed that supplementation with DPS, especially at 8 g/l, led to pronounced increases in most of the measured compounds. CONCLUSION: The marked upregulation of eliciting-responsive genes and overproduction of secondary metabolites provide molecular-based evidence for intensifying the principal pathways of phenylpropanoid, flavonoid and terpenoid biosynthesis. Overall, the present in vitro study highlights the stimulating capacity of DPS utilization to improve the bioactive components of L. arabicus at the physiological and molecular levels, enhancing its potential as a medicinal herb.

Phytochemistry and Antiviral Properties of Tw o Lotus Species Growing in Egypt / Fitoquímica y propiedades antivirales de dos especies de Lotus que crecen en Egipto

Background:Lotus arabicus L and Lotusglaber Mill. belong to the family Fabaceae, and they grow in the wild in Egypt and have different therapeutic uses in folk medicine. Objectives: This study aimed to evaluate the phytochemical profile, antimicrobial and antiviral properties of the methanolic extracts of two Lotus spp. growing in Egypt, L. arabicus and L. glaber.Material and methods: Gas chromatography-mass spectrometry was used to identify the compounds of the extracts of two Lotus species. An MTT colorimetric assay and the disc diffusion method were performed to investigate the antiviral and antimicrobial activities of two lotus species, respectively. Results: The n-hexane and methanol extracts of L. arabicuscontained high percentages of alkane hydrocarbons, such as 5-methyloctadecane, while L. glaber contained dodecane. The major compounds in the methanol extract of L. arabicuswere hexadecanoic acid methyl ester and dodecanoic acid,2,3-bis(acetyloxy)propyl ester. The major compounds in the methanol extract of L. glaber were palmitic acid and lucenin 2. The indole alkaloid ditaine was found only in L. arabicus. This alkaloid was identified for the first time in the genus Lotus. The antimicrobial properties of the extracts of the two Lotus species showed that the n-hexane extract of both Lotus species may have potential antifungal activity against Candida parapsilosis and Aspergillus flavus. Moreover, the methanolic extracts of both Lotus species have potential antiviral activity against the coxsackie B virus, but only the L. arabicus extract showed activity against the hepatitis A virus. Conclusion:Lotus arabicus might have potential antifungal or antiviral activity greater than L. glaber

Antecedentes:Lotus arabicus L y Lotus glaber Mill. pertenecen a la familia de las fabáceas y crecen en estado silvestre en Egipto y tienen diferentes usos terapéuticos en la medicina popular. Objetivos: El objetivo de este estudio es evaluar el perfil fitoquímico y las propiedades antimicrobianas de los extractos metanólicos de dos especies de Lotus que crecen en Egipto, L. arabicus y L. glaber. Material y métodos: Se utilizó la cromatografía de gases-espectrometría de masas para identificar los compuestos de los extractos de las dos especies de Lotus. Se realizó un ensayo colorimétrico MTT y el método de difusión en disco para investigar las actividades antiviral y antimicrobiana de las dos especies de Lotus, respectivamente. Resultados: Los extractos de n-hexano y metanol de L. arabicus contenían altos porcentajes de hidrocarburos alcanos, como el 5-metiloctadecano, mientras que L. glaber contenía dodecano. Los principales compuestos del extracto de metanol de L. arabicus eran el éster metílico del ácido hexadecanoico y el éster dodecanoico, 2,3-bis(acetiloxi)propilo. Los principales compuestos del extracto de metanol de L. glaber fueron el ácido palmítico y la lucenina 2. El alcaloide indólico ditaína sólo se encontró en L. arabicus. Este alcaloide fue identificado por primera vez en el género Lotus. Las propiedades antimicrobianas de los extractos de las dos especies de Lotus mostraron que el extracto n-hexano de ambas especies de Lotus puede tener una potencial actividad antifúngica contra Candidaparapsilosis y Aspergillus flavus. Además, los extractos metanólicos de ambas especies de Lotustienen una potencial actividad antiviral contra el virus coxsackie B, pero sólo el extracto de L. arabicus mostró actividad contra el virus de la hepatitis A. Conclusión: L. arabicus puede tener una potencial actividad antifúngica o antiviral mayor que L. glaber