Enhanced production of Lovastatin by filamentous fungi through solid state fermentation

Lovastatin is a natural competitive inhibitor of 3-hydroxy-3-methyl glutaryl coenzyme-A [HMG-CoA] reductase and inhibits specifically rate limiting step in cholesterol biosynthesis. Further, lovastatin in comparison with synthetic drugs has no well-reported side effects. Four pure isolated filamentous fungal strains including Aspergillus niger IBL, Aspergillus terreus FFCBP-1053, Aspergillus flavus PML and Aspergillus nidulans FFCBP-014 have been cultured by solid state fermentation [SSF] using rice straw as substrate for the synthesis of lovastatin. After selecting Aspergillus terreus FFCBP-1053 as the best producer of lovastatin, various selected physical parameters including pH, temperature, inoculums size and moisture content were optimized through response surface methodology [RSM] under center composite design [CCD] for lovastatin hyper production. Maximum lovastatin production of 2070+/-91.5 was predicted by the quadratic model in the medium having moisture content 70% and pH 4.5 at 35 degree C which was verified experimentally to be 2140+/-93.25Mug/g DW of FM [microgram/gram dry weight of fermentation medium], significantly [P<0.05] high as compared to un-optimized conditions while it was noted that lovastatin production is independent on inoculum size [P>0.05] measured by spectrophotometer at 245 nm against standard. It was determined that optimized conditions for the hyper-production of lovastatin from fungal sources have a significant effect

Effects of methanolic and aqueous extracts of Ipomoea batatas L on mineral contents level [calcium and magnesium] in alloxan-induced diabetic rats

In diabetic patients, electrolyte disorders frequently occur with the characteristic changes in minerals like calcium and magnesium etc. Several medicines are used to manage diabetes mellitus but they exert adverse effects. Plants are a valuable alternative to synthetic medicines because they are easily available, economical and have fewer side effects. Ipomoea batatas L is a well-known antidiabetic plant [sweet potato] but its effects on calcium and magnesium concentration have not studied. The prime focus of this study is to estimate the potential of Ipomoea batatas L peel-off on magnesium and calcium level in Alloxan-induced diabetic rats. Alloxan monohydrate was mixed in 0.9% NaCl solution and administrated [150 mg/kg [S/C]] to male Wistar rats to induce diabetes. After three days blood samples were collected and blood glucose level was recorded. Wistar rats having a blood glucose level of 200 mg/dl and above were selected for the study. Methanol and water extract of Ipomoea batatas L peel–off was given orally with a dose rate of 4g/day. Calcium and magnesium estimation was done using an atomic absorption spectrophotometer. Our results revealed an increase in both the calcium and magnesium level in heart, brain, liver, hind limb, and forelimb after Ipomoea batatas extract treatment. In kidneys decreased calcium level was noted as they excrete calcium. Mineral [Calcium, magnesium] level was increased in all organs except kidney after both extracts treatment. Ipomoea batatas being anti-diabetic in nature also maintain the homeostasis of calcium and magnesium in diabetes. Therefore, we propose the long-term use of such agents might help in the prevention of diabetes-associated complications. However, the validation of these results to human population needs further extensive study

Hepatoprotective evaluation of aqueous-ethanolic extract of Capparis decidua [Stems] in paracetamol induced hepatotoxicity in experimental rabbits

Liver diseases are the most common ailment all over the world mostly caused by viruses, toxic chemicals, excessive intake of alcohol, high doses of paracetamol, carbon tetrachloride, chemotherapeutic agents and peroxides oil, etc. There is a great need to assess the scientific basis for the medicinal plants that are claimed to have hepatoprotective activity. We investigate the hepatoprotective effects of aqueous-ethanolic extract of Capparis decidua [Stems] against paracetamol induced liver injury in experimental animals. To observe the level of improvement, biochemical parameters such as SGPT, SGOT, ALP and Total bilirubin levels as well as histopathological changes in liver tissues were studied. Silymarin [50mg/kg, p.o.] was used as reference drug. The levels of the biochemical parameters were increased in rabbits which were intoxicate by paracetamol. Capparis decidua extract [750mg/kg, b.w.] treated rabbits showed maximum reduction of biochemical parameters in a significant [p<0.001] manner. Histopathological examination of the liver tissues of control and treated groups also confirmed the hepatoprotective activity. The phytochemical screening of the extracts revealed the presence of tannins, alkaloids, saponins and flavonoids. The results of the present study therefore suggest that the different doses of Capparis decidua possess significant hepatoprotective effect and this effect might be due to the presence of flavonoids and tannins

Antipyretic effects of hydro-methanol extract ofMelia azedarach Linn, seeds and Cucumis melo Linn, seeds in experimental rabbits

To investigate the antipyretic activity of hydro-methanol extract of Melia azedarach Linn. [HMEMA] seeds and Cucumis melo Linn. [HMECM] seeds in experimental animals. Baker's yeast was used to induce fever in rabbits which were divided into six groups. The animal groups were thereafter administered distilled water [control], paracetamol [reference standard, 150mg/kg], HMEMA [250mg/kg], HMEMA [500mg/kg], HMECM [250mg/kg] and HMECM [500mg/kg] respectively. HMEMA and HMECM were also phytochemically screened for tannins, alkaloids, phenols, flavonoids, saponins and cardiac glycosides. Results indicate that hydro-methanol extract of M. azedarach Linn. Seeds [250mg/kg and 500mg/kg] significantly [p<0.001, p<0.05 respectively] reduced the elevated body temperature in dose dependant manner. Insignificant to no antipyretic effect was produced by hydro-methanol extract of Cucumis melo L. seeds. Phytochemical analysis of the HMEMA showed the presence of flavonoids, saponins, tannins, phenols, alkaloids and cardiac glycosides While HMECM was positive for flavonoids, phenols and saponins. The result shows that there exists a potential benefit in utilizing Melia azedarach L. seeds in treating fever. This property can be attributed to the presence of phytochemical constituents present in the hydro-methanol extract ofMelia azedarach L. seeds and the exact mechanism need to be evaluated

Medicinal plants combating against hypertension: a green antihypertensive approach

Hypertension [HTN] or high blood pressure is a medical condition that accounts 9.4 million deaths all over the world every year. It is leading cause of morbidity and mortality worldwide. It increases the risk of cardiovascular diseases, including heart failure, diffuse atherosclerosis, cognitive impairment and dementia. Clinically, synthetic antihypertensive drugs have been used to treat hypertension. However, the efficacy of these drugs is low and also produces side effects which include dry mouth, dizziness, emotional distress, gastrointestinal disturbance, visual disorders etc. These distressing side effects adversely affect health-related quality of life. Therefore, there is a need to search natural, cheaper and non-toxic compound. Plant are widely use in traditional systems of medicine for the treatment of several diseases. About 80% of the world population relies on traditional medicine for primary healthcare. In the last three decades, a lot of research has been done on local medicinal plants for hypotensive and antihypertensive potentials. Plants are the rich source of secondary metabolites which have been found in vivo to have antihypertensive properties. The current study is focused on reviewing the antihypertensive property of medicinal plants and their metabolites. In the current review, we conducted a literature search using Elsevier, Science direct, Springer Link [Springer], Pub Med and Google Scholar. The search included the keywords [plants], [medicinal plants], [plant extracts], cross-referenced with the keywords [hypertension] [antihypertensive activity]. The use of plant origin natural compounds as cardio protective and antihypertensive agents is an interesting strategy for discovering bioactive products. Plants are rich in a variety of secondary metabolites, such as flavonoids, alkaloids, tannins and terpenoids. These have been found in vivo to have antihypertensive effects. The present review therefore; stand for a good basis to choose exact molecules belonging to the indicated categories that in the forthcoming future will become useful therapeutic tools