Brine Shrimp Lethality Assay of the Aqueous and Ethanolic Extracts of the Selected Species of Medicinal Plants

: The present study was conducted to test for in vivo Brine Shrimp Lethality Assay (BSLA) of the Aqueous and ethanolic extracts of Annona reticulata with Allium fistolisum and Brassica oleraceaeand correlate cytotoxicity results with known pharmacological activities of the plants. Cytotoxicity was evaluated in terms of LC 50 (lethality concentration). Ten nauplii were added into three replicates of each concentration of the plant extract. After 24 h the surviving brine shrimp larvae were counted and LC 50 was assessed. Results showed that the extracts of Annona reticulata with Allium fistolisumand Brassica oleraceaewere potent against the brine shrimp when compared alone with combined extracts. It indicated that bioactive components are present in these plants that could be accounted for its pharmacological effects. Thus, the results support the uses of these plant species in traditional medicine.


Introduction
The crushed leaves of A. reticulata are used as poultice on boils, ulcers and abscesses and leaf decoction is used as vermifuge. The tree is not especially attractive. It is erect, with a rounded or spreading crown and trunk 10 to 14 in (25-35 cm) thick. Height ranges from 15 to 35 ft (4.5-10 m). The ill-smelling leaves are deciduous, alternate, oblong or narrow-lanceolate, 4 to 8 in (10-20 cm) long, 3/4 to 2 in (2-5 cm) wide, with conspicuous veins.
Taking all the above concerns into account, we conducted this study to find out more about A. reticulata leaves. We studied the antioxidant effects with presence of such phytochemical constituents as equivalent to standards in different extracts, the cytotoxic effect, and hence antitumor effect.
Spring Onion (Allium fistolisum) is a promising source of bioactive moieties such as quercetin and flavonoids that exhibited various biological activities such as anticancer, antioxidant, antimicrobial [1] antiplatelet, antidiabetic, anti-inflammatory, and antiasthmatic effects, antithrombotic, antihyperlipidemic, and antihypertensive [2][3][4]. These biological activities are performed due to the presence of high content of sulfur compounds and flavonoids [5].
Bioactive compounds of spring onion suppress the inducible nitric oxide synthase (iNOS), cyclooxygenase-2 (COX-2), and inhibit the development of different cellular markers, which are responsible for tumor apoptosis, proliferation, the development of new blood vessels (angiogenesis) and tumor invasion [6]. These compounds also lower the risk of gastrointestinal tract cancer through repressing Helicobacter pylori and other bacterial action, and lowering the endogenous arrangement of compounds cancer-causing N-nitroso [7].
Cruciferous vegetables are one of the dominant food crops which have high vitamin C, soluble fibre and contain multiple nutrients and phytochemicals with potential anticancer properties. Brassica oleracea (Cauliflower) belongs to the family Brassicaceae is an annual plant that reproduces by seed. The plant have leaves which are more divided and petiolate. The main head consists of clusters of fully differentiated flower buds which are less densely arranged with longer peduncles. It is an annual herb reaching 400 mm during vegetative stage and 1-2 m at the end of flowering [8]. Cauliflower is low in fat, but high in dietary fibre, potassium, folate, water and vitamin and possesses a high nutritional density. Cauliflower contains several phytochemicals which are beneficial to human health [9]. It has antimicrobial [10,11] and antioxidant [12] activities. The present study was undertaken to investigate the cytotoxic and thrombolytic activity of flower extract of the plant.
Red cabbage is the member of Brassicaceae family. It is a cool season cruciferous vegetable. Red cabbage (Brassica oleracea var. capitata f. rubra) is type of cabbage, also well-known as purple cabbage, blue kraut, or red kraut and is widespread in the Mediterranean region [13]. Red Cabbage is a herbaceous, biennial, dicotyledonous flowering plant. Its leaves are red or purple in colour and are normally consumed as coleslaw, salad and beverage [14].
The principle "bioactive components of red cabbage are isothiocyanates, vitamins A, B, C and anthocyanins" [15][16][17]. Anthocynanins, a natural pigment present in Red cabbage, were found to have the strongest antioxidant power of 150 flavonoids [18]. They are water soluble pigments it can be red, blue or purple depending on the pH. They are dominant antioxidants that have antiinflammatory properties which help to protect cells. Along with the "substances that seem to be responsible for the biological activities of red cabbage, are polyphenols" [19]. "Polyphenols are antioxidants that are helpful in reversing the problems caused by oxidative stress to the walls of arteries. Create a heart healthy environment by curbing the oxidation of LDL cholesterol and they help to relieve chronic pain, as seen in condition like rheumatoid arthritis, due to their antiinflammatory properties."

Plant Materials
Random samples of spring onion samples were collected from local retail markets of Karjat, Maharashtra, India. Samples were then washed thoroughly with tap water to remove dust and dirt particles. Afterwards, the outer skin of the samples were removed and then divided into small sections and they were placed into hot oven, for drying at 40 °C. The dried samples were grinded into fine powder by using a grinder and then were put in glass bottles [20]. Plant materials were authenticated at "The Blatter Herbarium"-St. Xavier's College, Mumbai.
Ten grams of spring onion's leaves or bulb were soaked in 100 mL of methanol and water, respectively. The prepared samples were shake using orbital shaker for 7 h followed by centrifugation for 15 min at 7000 rpm. The extracts were then filtered using vacuum filtration assembly. The extracts were assessed Brine shrimp lethality bioassay Red cabbage leaves were shade dried followed by hot air oven drying at 50° centigrade and then ground to a fine powder and stored in air tight container for the analysis. Fresh red cabbage leaves were grinded in the mixer for the collection of juice.
The coarse powder and juice of red cabbage was extracted with methanol and water. The extracts of red cabbage powder and juice were collected separately and filtered using Whatman filter paper. All the extracts were concentrated and the excessive solvents were evaporated under vacuum.

Brine Shrimp Lethality Bioassay
The extracts, fractions and pure isolated compounds were routinely evaluated in a test for lethality to brine shrimp larvae ( Figure 1). Toxicities of compounds were tested at 1, 10, 100, and 1000 ppm in 10 mL sea-water solutions with 1% DMSO (v/v). Ten, nauplii were used in each test and survivors counted after 24 h (Figure 2). Three replications were used for each concentration. The blank control is conducted with Distilled water. The lethal concentration for 50% mortality after 24 h of exposure, the chronic LC50 was determined using the probit method, as the measure of toxicity of the extract or fractions. LC50 values greater than 1000 ppm for plant extracts were considered inactive.
The brine shrimp lethality assay (BSLA) is a simple and inexpensive bioassay used for testing the efficacy of phytochemical present in the plant extracts. The present study determined that the extent of lethality was directly proportional to the concentration of the extract. After 24 h of observation all the shrimp were survived in the control. Even though, maximum mortalities were observed upto a concentration of 1000 μg/mL and least mortality at 1 μg/mL concentrations. It was observed that in higher concentration of treatment extracts, the shrimps were start dying only after 8 h and after 24 h all the shrimps died. The lethality concentration (LC50) was calculated by using probit analysis. The LC50 (median lethal concentration) values were calculated by using the regression line obtained by plotting the concentration against the death percentage on a probit scale.

Significance of Brine Shrimp Lethality Assay of the Plant
The evolution of the toxic action of plant extracts is indispensable to consider a treatment safe; it enables the definition of the intrinsic toxicity of the plant, and the effects of acute overdose [10], a cheap and general bioassay that appears capable of detecting a spectrum of bioactivity present in crude extract is the brine shrimp lethality test. The lethality of the test sample in a simple zoological organism like the brine shrimp (Artemia salina) has been utilised by many researchers and has proven to be a useful tool in screening various chemical compounds found in various bioactivities. After 24 h the number of survival of nauplii was counted and percentage of mortality was determined using the equation: [20][21][22][23] % mortality = (no. of dead nauplii/initial no. of live nauplli) × 100.

Result and Discussion
The brine shrimp lethality assay (BSLA) is a simple and inexpensive bioassay used for testing the efficacy of phytochemical present in the plant extracts. The present study determined that the extent of lethality was directly proportional to the concentration of the extract. After 24 h of observation all the shrimp were survived in the control. Even though, maximum mortalities were observed at a concentration of 1000 μg/mL and least mortality at 10 μg/mL concentrations. It was observed that in higher concentration of treatment extracts, the shrimps were start dying only after 8 h and after 24 h all the shrimps died.
The result on the lethality of Alcoholic and aqueous extract of Allium fistolisum on brine shrimps is with LC50 values (Tables 1 and 2) are 13.433mg/mL and 1846.550 mg/mL. Alcoholic and aqueous extract Brassica oleraceae was recorded LC50 values of 10.818 and 64.839 mg/mL against brine shrimps. The presence of alkaloids, tannins, and flavonoids could be accounted for its cytotoxic properties. Therefore, combined alcoholic extracts and aqueous extracts of Allium fistolisum and Annona reticulata recorded LC50 values of 0.500 and 284.674 mg/mL respectively. In the other hand, studies have shown that the extracts of Alcoholic and aqueous extract of Annona reticulata and Brassica oleraceae extracts exhibited LC50 values of 28.287 and 129.025 mg/mL which are selective cytotoxicity against several cancer cell lines. Thus, the results shows Alcoholic and aqueous extract of Annona reticulate, Allium fistolisum and Brassica oleraceae exhibited cytotoxic activity support its use in traditional medicine.

Conclusions
Alcoholicand aqueous extract of Allium fistolisum and Brassica oleraceaeexhibited cytotoxic activity against the brine shrimp and considered as containing active or potent components. The ethnopharmacological activities of these plant species are due to the different bioactive compounds present in these plants. Although, BSLA is inadequate in determining the mechanism of action of the bioactive substances in the plant, it is very useful by providing a preliminary screening that can be supported by a more specific bioassay, once the active compound has been isolated. Thus, some useful drugs of therapeutic importance may develop out of the research work.