Effect of Crocus sativus and its active compounds for the treatment of several diseases: A review

the purpose of this article is to use literature search engines such as PubMed and sciFinder to locate scholarly journal articles pertaining saffron, its preparation, analysis, and its use in cancer treatments. saffron comes from the dried red stigmas of the Crocus sativus L. flower. Along with its use in cooking and in traditional medicine, it has numerous applications as an antitoxic, anti-oxidant, and anti-cancer agent, due to its secondary metabolites and their derivatives are safranal, crocins, crocetin and dymethyl-crocetin. this study demonstrate that crocus sativus extract (csE) and its major constituents, crocin, and crocetin, significantly inhibited the growth of certain cancer cells while not effecting normal cells. Crocus sativus L. extract should be investigated further as a viable agent in the treatment of prostate, pancreatic or other types of cancer.


INtroductIoN
Saffron is one of the most expensive spices in the world, derived from the dry stigmata of Crocus sativus L. -a member of the Iridaceae (Iris) family. Saffron is handharvested during the flowering season. This process is very time consuming which involves picking the stigmata by hand and then carefully drying the stigmata to produce a quality product. One stigma of saffron weighs about 2 mg and each flower has three stigmata. In order to obtain 1 kg of spice 150,000 flowers must be picked [1].
Saffron (Crocus sativus L.) is mostly cultivated in Spain, Iran, India, Greece, China and some other European and Asian countries. The quality and chemical composition of saffron are affected by the region in which saffron is grown, the drying process, the conditions of packaging, storage of saffron and the analytical extraction methods which have been used [1,2].
The nutritional supplement value of saffron (Crocus sativus L.) which was provided by pars bioscience LLC in powder form, to Covance, Madison. WI laboratory was analyzed and shown to include the following contents: NL-Proximate (moisture, ash, protein, fat, total carbohydrates, calories, and calories from fat), results of these analyzes are given in Table 1. Vitamins (vitamin A, vitamin C, and folic acid), and minerals (calcium, copper, iron, magnesium, manganese, phosphorus, potassium, sodium, and zinc) are detailed in Table 2. The results of analysis of saffron fatty acid profile are given in Table 3.
The analysis of the saffron was conducted by grinding and extracting saffron, and analyzing the extract using HPLC/UV-MS analysis to identify the major components of saffron (Figure 1).
The main uses of saffron are in cooking, food coloring, in perfume and cosmetics [1,11]. Saffron has also traditionally been regarded as a highly valued medicinal plant to treat wide variety of ailments such as depression, respiratory problems, colds, asthma and heart diseases. [12]. More recently, as the current culture has been changing, more researches have been done analyzing the effects of traditional herbs and spices as treatment for the severe diseases [11].
As the studies have shown, diets rich in antioxidants will lower the risk of several chronic diseases and protect the body against the development and growth of tumor cells. Therefore, saffron and its constituents with their antioxidant properties can act as a protecting agent for the prevention of some serious diseases like cancer [25].
Crocus sativus L. extract used in several studies were prepared from stigmas of Crocus sativus. It contains several pharmacologically active constituents. Saffron has antioxidant properties; these have been showed in humans, where saffron (50 mg, twice a day) decreases the lipoprotein oxidation susceptibility [20]. Also crude methanol extract of saffron and its compound crocin have been exhibited high antioxidant and scavenging properties [21].
The oral administration of the saffron ethanolic extract (200 mg/kg body wt) increased the life span of Swiss albino mice intraperitoneally transplanted with sarcoma-180 (S-180) cells, Ehrlich ascites carcinoma (EAC) or Dalton's lymphoma ascites (DLA) tumors [22], and it has an inhibitory effect on chemical carcinogenesis in mice using two stage assay system [16].
Crocetin protects body against free radicals and the studies have shown its role as an antitumor agent [15] The effect of crocetin on two different types of animal tumors, skin papillomas and Rous sarcoma have been studied and shown that crocetin decreased the number of tumor cells and delayed the onset of the tumors as well [23]. A recent study showed that crocetin (20 mg/ kg) reverted the level of lipid peroxidation induced by Benzo (a) pyrene(B(a)P), also increased the activities of the enzymic antioxidants and glutathione metabolizing enzymes. Showing that crocetin is a scavenger of free radicals and a potent antitumor agent [15].
Many studies during the last decade, demonstrated the inhibitory effect of saffron and its components in vitro, on several cancer types such as carcinoma, leukemia, prostate, pancreatic, and several other tumor cells [26].
sAFEtY: The toxicity of saffron has been studied by many researchers and the levels of toxicity found to be very low. The studies showed that the concentration of 0 to 5 g/kg was non-toxic to mice [7].
Also hematological and biochemical studies on the toxicity of saffron extract indicates that there are no severe toxicological sign found in kidney, liver or bladder within the normal range of use [22].

coNcLusIoN
In summary, our study suggests that crocin and crocetin found in Crocus sativus L. may be efficacious in treating several or certain type of cancer. Considering the popularity of locally used chemical drugs in cancer patients, Crocus sativus L. should be investigated further as a natural viable option in the treatment of prostate, pancreatic, or other types of cancer.