Protective Effect of Methanolic Extract of Euglena tuba Against Dalton Lymphoma Induced Oxidative Stress in BALB/c Mice.

The identification and pharmacological validation of plant-based lead compounds for the cure of different diseases including cancer have always been globally strived. In addition to possessing numerous medicinal properties, many of the phytochemicals display antioxidant potential activities. Reactive oxygen species (ROS) causeoxidative stress leading to several severe diseases such as cancer. The antioxidants are substances that fight against ROS to protect the cells from their damaging effects. In the present study, the effects of methanol extract of Euglena tuba(ETME) have been evaluated for its antioxidant and antitumor potential against Dalton's lymphoma (DL) introduced in BALB/cmice. After 24 h of intraperitoneal inoculation of DL cells in mice, ETME (300 mg kg-1 body weight) was administered intraperitoneally upto18 alternative days. On the 18th day, the mice were sacrificed; the blood and tissues (liver and brain) were collected to determine the tumor growth parameters including morphological, behavioural, haematological profile, and antioxidant indices. The results indicated that ETME exhibited significant antioxidative and antitumor properties when compared with the data from DL bearing mice. The results from the present study indicated that ETME contained remarkable antitumor efficacy, which was mediated through amelioration of oxidative stress. The data suggested that ETME could be used as a potential natural anticancer agent.

Phytochemical Profiling of Microalgae Euglena tuba and Its Anticancer Activity in Dalton's Lymphoma Cells.

INTRODUCTION: Natural phytochemicals are considered safe to use as therapeutic agents. There is a growing trend toward exploring anticancer effects of crude algal extracts or their active ingredients. Euglena tuba, a microalga, contains excellent antioxidant potential. However, the anticancer property of E. tuba has not been explored. This study investigates the chemical profiling as well as antitumor property of methanolic extract of E. tuba (ETME) against Dalton's lymphoma (DL) cells. MATERIALS AND METHODS: E. tuba, procured from northern part of India, was extracted in 70% methanol, dried at room temperature, and stored at -20 ∘C for future use. A freshly prepared aqueous solution of ETME of different concentrations was employed into each experiment. The ETME mediated anti-tumor response in Dalton's lymphoma was evaluated in the inbred populations of BALB/c (H2d) strain of mice of either sex at 8-12 weeks of age. The cytotoxicity of ETME in cancer cells, effects on morphology of cell and nucleus, alteration in the mitochondrial membrane potential, and level of expression of proapoptotic proteins (Bcl-2, cyt C, Bax and p53) were done using known procedures. RESULTS: The ETME contained high content of total alkaloids (96.02 ± 3.30 mg/100 mg), flavonoids (15.77 ± 2.38 mg/100 mg), carbohydrate (12.71 ± 0.59 mg/100 mg), ascorbic acid (12.48 ± 2.59 mg/100 mg), and phenolics (0.94 ± 0.05 mg/100 mg). Gas chromatography-mass spectrometry (GC-MS) analysis indicated the presence of 23 phytochemicals with known anticancer properties. DL cells treated with ETME exhibited significant and concentration dependent cytotoxicity. Florescent microscopy and flow cytometry of ETME treated DL cells indicated significant repair in cellular morphology and decreased mitochondrial potential, respectively. Western blot analysis displayed up-regulation of proapoptotic proteins (Bax, Cyt-c, p53) and down regulation of anti-apoptotic protein (Bcl2) in DL cells treated with ETME. CONCLUSIONS: The findings of this study clearly indicated that the anticancer property of ETME was mediated via reduction in mitochondrial potential and induction of apoptotic mechanism. Further studies are warranted to explore the anticancer activities of active ingredients present in this microalga of pharmaceutical importance.

Euglena Species: Bioactive Compounds and their Varied Applications.

Euglena, a microalga, has gained a great attention as it contains several bioactive compounds including food supplements, drugs and biofuels. The genus Euglena includes >300 species of unicellular, fresh water flagellates. The objective of this review article concerns the presentation of updated information on pharmacological and therapeutic properties and industrial implications of molecules isolated from Euglena species. A bibliographic search of scientific literature published till March, 2020 was made from scientific databases using different search engines. Euglena produces several antioxidant molecules, such as ß-carotene, L-ascorbic acid, polymers of unsaturated fatty acids and phytotoxins useful in manufacturing many pharmaceutical, cosmetics, and nutraceutical compounds. It is a rich source of antimicrobial, anticancer, immunomodulatory compounds. Though, several studies have indicated its therapeutic applications, extensive research is needed to explore its efficacy against many pathophysiological conditions including toxicity assessment of compound(s). Nevertheless, the biotechnological influence on industrial production of Euglena has been less exploited.