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Aim: The aim of the present study was to characterize Lepidium sativum seed for phytochemicals, fatty acid composition and antioxidant properties.Methodology: Extraction of phytochemicals in different solvents, estimation of phenolics and flavonoids, physio-chemical properties, antioxidant assay by DPPH method was carried out. Seed oil content was determined by modified cold percolation extraction method and TD-NMR, followed by fatty acid compositional analysis using GLC. Results: The perusal of data revealed that the total oil content varied from 21.36% to 24.38%, and the major fatty acids identified were linolenic acid (24.447%) followed by oleic acid (24.413%) and palmitic acid (12.278%) . Physio-chemical and phytochemical characteristics were estimated for useful functional properties and markers viz. alkaloids, sugar and proteins. L. sativum seeds exhibited high antioxidant potential (0.063mg ml-1) compared to standard compounds such as ascorbic acid, rutin and quercetin.
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The objective of this study was to investigate the effect of garden cress (Lepidium sativum L.) seeds on chemicalcomposition, cooking properties of noodle and antioxidant properties. Garden cress (GC) was added to semolina flour atdifferent levels 5, 10, 15 % (w/w), respectively. The chemical composition, cooking properties and sensory values of thesesamples were studied. The results showed an increasing level of protein, fat, ash, and fiber of garden cress noodles (GCN)by increasing the level of addition of garden cress (GC); while, a decrease of moisture content was noticed. The cookingquality properties of GCN were improved also by an increased level of garden cress (GC). Garden cress is a good source ofphenolic acids, flavonoids compound, and unsaturated fatty acids and for these reasons, garden cress is considered as afunctional food for due to health and nutritional values and its high content of protein and dietary fiber.
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OBJECTIVE@#Garden cress (Lepidium sativum L.) is an important herb in traditional medicine used to improve production of breast milk in women and semen in men. In the present research the authors evaluated its ability to destroy leukemic cancer (Jurkat E6-1) cells, using the alkaloid extract of this plant.@*METHODS@#Constituents of the alkaloid extract were analyzed by gas chromatography-mass spectrometry (GC-MS) and their cytotoxicity in leukemic cancer cells and healthy peripheral blood mononuclear cells (PBMCs) was assessed. Cell death via apoptosis was confirmed by DNA laddering, caspase-3 activity, annexin V-fluorescein isothiocyanate and mitochondrial toxicity assays. The specific course of gene activation in treated cells was determined through quantitative polymerase chain reaction (qPCR).@*RESULTS@#GC-MS analysis identified six alkaloids and proto-alkaloids, namely, benzyl isothiocyanate (1), 2-ethoxy-4H-3,1-benzoxazin-4-one (2), (4R)-2-(2-aminophenyl)-4-phenyloxazoline (3), 5-acetyl-1,2-dihydro-6-methyl-2-oxo-4-phenyl-3-pyridinecarbonitrile (4), benzo[b][1,8]-naphthyridin-5(10H)-one,2,4,7-trimethyl (5) and 1,4-diaminoanthraquinone (6), in the alkaloid extract of L. sativum. Of these, compound 1 was previously identified in the seeds of L. sativum. Exposure to the alkaloid extract caused death of Jurkat E6-1 cells, with median lethal concentration (LC) of 75.25 µg/mL. However, the alkaloid extract also showed a nontoxic and proliferative (1.6-fold) effect in healthy PBMCs. Further experiments performed with Jurkat cells at LC and sub-LC doses demonstrated DNA fragmentation, activation of caspase-3 and time-dependant phosphatidylserine translocation (apoptosis) from inner to outer cell membranes. Cell toxicity and assessment of adenosine triphosphate level, together with using qPCR to evaluate expression profile of major apoptosis genes, revealed that apoptosis may be induced by disruption in the mitochondrial outer membrane potential, through activation of extrinsic and intrinsic apoptosis pathways in Jurkat cells.@*CONCLUSION@#The ability of the alkaloid extract of L. sativum seeds to induce apoptosis indicates a potential pharmacological use in cancer chemotherapy. The separation of individual active compounds and further in-depth exploration of the molecular mechanism of apoptosis may lead to novel chemotherapeutic compounds in our future antineoplastic research.
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Diabetes mellitus is a frequent and serious metabolic illness all over the world and plants have been a desirable source of medicine recently. Diabetes has unpleasant effect on male reproductive system and it may lead to male infertility. It causes erectile dysfunction and reduces ejaculate volume by affecting the health of small blood vessels and the small nerves that control ejaculation and also decreases libido by decreasing testosterone levels. Current study evaluated the possible protective efficiency of Lepidium sativum (Garden cress) seed extract on fasting blood sugar (FBS) and then assessed histopathological change of epididymis in streptozotocine (STZ)-induced diabetic rats. We randomly categorized 50 adult male Wistar rats into five groups (each 10 rats). Group 1 was control placebo group receiving only 0.1 ml normal saline via gastric gavages, Group 2 as control diabetic rats received an intraperitoneal (IP) injection of STZ 60 mg/kg body weight. Rats with FBS >250 mg/dl were considered as diabetic. Group 3 were diabetic rats receiving insulin in dose 3U/100 g body weight and Groups 4 and 5 were diabetic rats that received 0.1 cc of 200 and 400 mg/kg, ethanol extract of Lepidium sativum seed by gavages daily. One day after the last gavages, rats were anesthetized by chloroform. Epididymis duct was removed from abdomen and weighed with a digital scale. Afterwards, samples were putted in Bouin's solution for histological measurement. Administration of 200 and 400 mg/ml doses of Lepidium sativum seed extract increased epithelium height and decreased interstitial volume density and fibro muscular thickness significantly. Also, volume density of epithelium, fibro muscular, lumen and interstitial decreased significantly. Tubular and lumen diameter did not change significantly in different groups. It appears Lepidium sativum seed extract is a beneficial protective supplementary agent against adverse effects of diabetes on male reproductive system.
La diabetes mellitus es una enfermedad metabólica frecuente y grave que afecta a los hombres en todo el mundo. Recientemente, las plantas han sido una fuente deseable de medicina para este tipo de enfermedad. La diabetes tiene un efecto perjudicial en el sistema reproductivo masculino y puede conducir a la infertilidad. Causa disfunción eréctil y reduce el volumen de la eyaculación al afectar los pequeños vasos sanguíneos y los nervios que controlan la eyaculación. También disminuye la libido reduciendo los niveles de testosterona. El presente estudio evaluó la posible eficacia protectora del extracto de semilla de Lepidium sativum en la glucemia en ayunas y también se evaluó el cambio histopatológico del epidídimo en ratas diabéticas inducidas por estreptozotocina (STZ). Se dividieron aleatoriamente 50 ratas Wistar macho adultas en cinco grupos de 10 ratas cada uno. El grupo 1 recibió 0,1 ml de solución salina normal a través de los gavajes gástricos, el grupo 2 de ratas diabéticas control recibió una inyección intraperitoneal (IP) de STZ 60 mg / kg de peso corporal. Las ratas con FBS> 250 mg / dl se consideraron como diabéticas. El Grupo 3 eran ratas diabéticas que recibieron insulina en dosis de 3 U/ 100 g de peso corporal y los Grupos 4 y 5 estaban compuestos por ratas diabéticas que recibieron 0,1 cc con 200 y 400 mg / kg, de extracto de etanol de semillas de Lepidium sativum por gavajes diarios. Un día después de los últimos gavages, las ratas fueron anestesiadas con cloroformo. Se extrajo el epidídimo y se pesó con una pesa digital. Posteriormente, las muestras se pusieron en solución de Bouin para el estudio histológico. La administración de dosis de 200 y 400 mg / ml de extracto de semilla Lepidium sativum aumentó la altura del epitelio y disminuyó significativamente la densidad volumétrica intersticial y el grosor fibromuscular. Además, la densidad volumétrica del epitelio fibromuscular, lumen e intersticio disminuyeron significativamente. El diámetro tubular y el lumen no cambiaron significativamente en los diferentes grupos. El extracto de semilla de Lepidium sativum es un agente complementario beneficioso protector contra los efectos adversos de la diabetes en el sistema reproductor masculino.
Subject(s)
Animals , Male , Rats , Plant Extracts/administration & dosage , Lepidium sativum/chemistry , Diabetes Mellitus, Experimental/drug therapy , Epididymis/drug effects , Organ Size/drug effects , Seeds , Rats, Wistar , Epididymis/pathologyABSTRACT
Wild crucifers namely Arabidopsis thaliana, Brassica fruticulosa, B. rugosa, B. spinescens, B. tournefortii, Camelina sativa, Capsella bursa-pastoris, Crambe abysinnica, Cronopus didymus, Diplotaxis assurgens, D. gomez-campoi, D. muralis, D. siettiana, D. tenuisiliqua, Enatharocarpus lyratus, Lepidium sativum and Sinapis alba along with five cultivated Brassica species including B. rapa (BSH-1), B. juncea (Rohini), B. napus (GSC-6), B. carinata (DLSC-2) and Eruca sativa (T-27) were screened against mustard aphid Lipaphis erysimi (Kalt.) with a standardized technique under definite level of aphid pressure developed using specially designed cages. Observations have revealed that B. fruticulosa, B. spinescens, Camelina sativa, Crambe abysinnica and Lepidium sativum were resistant to mustard aphid L. erysimi with aphid infestation index (AII) ≤1. Capsella bursa-pastoris was highly susceptible to bean aphid, Aphis fabae during its vegetative stage (with 100% mortality). Other genotypes were found in the range of ‘susceptible’ to ‘highly susceptible’ with AII ranging 3-5.