Optimisation and in-vivo evaluation of extracted Karanjin loaded liposomal topical formulation for treatment of psoriasis in tape-stripped mouse model.

AIM: The present work is focus on development of anti-psoriasis activity of Karanjin (isolated from Pongamia pinnata seed oil) loaded liposome based lotion for enhancement of skin permeation and retention. METHOD: Karanjin was isolated using liquid-liquid extraction method and characterised by HPLC analysis and partition coefficient. Further, isolated Karanjin was loaded into liposomes using thin-film hydration technique and optimised by Box-Behnken design. Selected optimised batch was characterised their mean diameter, PDI, zeta potential, and entrapment efficiency, morphology (by TEM), FTIR and ex-vivo skin retention. Additionally, Karanjin loaded liposomes were formulated into lotion and characterise their rheological, spreadability, texture, ex-vivo skin permeation & retention, stability and anti-psoriatic activity in mouse tail model. RESULT: The yield of Karanjin from seed oil was 0.1% w/v and have lipophilic nature. The optimised liposomal formulation showed 195 ± 1.8 nm mean diameter, 0.271 ± 0.02 PDI, -27.0 ± 2.1 mV zeta potential and 61.97 ± 2.5% EE. TEM image revel the spherical shap of liposome surrounded by single phospholipid bilayer and no interection between drug and excipients. Further, lotion was prepared by 0.1% w/v carbopol and found to 615 mPa.sec viscosity, good thixotropic behaviour, spreadability and texture. There was 22.44% increase in drug permeation for Karanjin loaded liposomal lotion compared to pure Karanjin lotion, confirm by ex-vivo permeation and retention. While, in-vivo study revel the liposomal lotion of Karanjin was found to have 16.09% higher drug activity then 5% w/w conventional Karanjin lotion. CONCLUSION: Karanjin loaded liposomal lotion have an effective anti-psoriatic agent and showed better skin permeation and retention than the conventional Karanjin lotion.

Natural and synthetic agents for the treatment of Sarcoptes scabiei: a review.

Sarcoptes scabiei is an ectoparasite known to infect different species of mammals. Mite is known to infect mankind since antiquity. Current scabicidal agents are becoming less effective due to resistance generated by the mite. The present review focuses on exploration of various herbal and non-herbal/synthetic agents that are proven to be efficient against scabies mite of different mammalian species. In vitro and in vivo acaricidal activities carried out for different dosage forms developed for these scabicidal agents are also discussed.

Simple, efficient and economical methods for isolation and estimation of novel isoflavone using RP-HPLC.

The study was undertaken to develop a simplified procedure for the isolation of bioactive isoflavone from Iris kashmiriana, using a direct method of isolation, avoiding the use of chromatographic techniques. The compound was isolated by commercially viable procedure. The extraction of powdered drug (500 g) was done with petroleum ether (60-80) using a Soxhlet apparatus (24 h run). The petroleum ether extract (gums and resins 2.13 g) was obtained and the marc (400 g) was subjected to extraction with 95% methanol using a Soxhlet apparatus (24 h run). The methanolic extract (5 g) was subjected to successive fractionation with toluene, chloroform and ethyl acetate and n- butanol. On the basis of phytochemical analysis, the glycoside was present in n- butanol fraction. The n-butanol fraction (1.5 g) was taken in dried methanol, passed through activated animal charcoal and subjected to acid hydrolysis. The isoflavone (250 mg), was obtained after the usual process of separation. The purity of the compound was checked by analyzing TLC (Thin Layer chromatography) and melting point. Further, the chemical method was used to characterize the compound by shift reagents using UV spectroscopy. The quantitative estimation of isoflavone was done using RP-HPLC and was found to be 98.9% pure. •The "previously undescribed" isoflavone was isolated by modifying approach of solvent/solvent extraction, fractionation and acid hydrolysis.•The spectroscopic characterization was equaly done by IR, 1HNMR, 13CNMR, Mass spectrometry.•98.9% purity was achieved using RP-HPLC with simple solvent (Methanol and Water 55: 45).

Isolation of isoflavones from Iris kashmiriana Baker as potential anti proliferative agents targeting NF-kappaB.

Cancer is possibly one of the most devastating and complex disease and therefore involves chemotherapy as one of the frontline strategies in its therapy. However, expected toxicity and resistance with chemotherapeutic agents encourage us to use the plant derived natural chemotherapeutic sources at the clinical stage of cancer therapy. In view of this strategy, herein new glycosides and isoflavonoids were isolated from Iris kashmiriana Baker and subjected to structure elucidation followed by their biological evaluation. Isolated compounds and their derivatives were purified by the column chromatography and structural identification was made by a combination of various spectroscopic technique vis. UV, IR, 1H NMR, 13C NMR, DEPT, 2-D NMR and mass spectrometry coupled with chemical analysis. Furthermore, an in silico library of isolated isoflavones and its analogues were designed. NF-kappaB (transcription factor that facilitates angiogenesis, inflammation, invasion and metastasis) was selected as a target to evaluate the anticancer and antioxidant activity of isoflavones and its analogues. Designed library of isoflavones and analogues were docked into the active site of NF-kappa B and the most active 15 analogues were selected for synthesis. Finally, all compounds were evaluated for their cytotoxicity against various cell lines and antioxidant activity with different methods that demonstrate their anti-cancer and anti-oxidant potential. The cell cycle specificity of the cytotoxicity was further analyzed by corresponding analysis, using flow cytometer. Most of the compounds exhibit moderate activity, whereas the 5,7,8-trihydroxy-3-(4-methoxyphenyl)-4H-chromen-4-one, 5,7,8-trihydroxy-3-(4-hydroxyphenyl)-4H-chromen-4-one, 5,7,8-triacetoxyoxy-3-(4-methoxyphenyl)-4H-chromen-4-one and 6,7-diacetoxyoxy-3-(4-methoxyphenyl)-4H-chromen-4-one showed distinct broad-spectrum anticancer activity with IC50 values ranges between 3.8 and 5.6 µg/mL. Cell cycle analysis indicates that these compounds induced cell cycle arrest at G2/M phase.

Flavone Analogues as Antimicrobial Agents.

BACKGROUND: Most of the available antimicrobial drugs have developed resistance, some of them suffer from severe toxicity and side effects. So, there is a need to discover novel compound(s) which should not only be potent, but also less toxic and cost effective. OBJECTIVES: The aim of the study is to develop new synthetic antimicrobial agents (Anti-bacterial and anti-fungal) such as 3-substituted flavone/flavanone derivatives, which should be significantly potent with low toxicity. METHOD: An attempt was made to synthesize a newer series of 3-methyl flavanone derivatives together with the synthesis of a series of 3- hydroxyl flavone analogues. The structures of the test compounds were elucidated and established by UV, IR, 1H-NMR, 13C-NMR and mass spectrometry. The synthesized compounds were subjected for in vitro antimicrobial screening using cup plate methods, followed by the determination of zone of inhibitions. RESULT: Two series (each 10) of 3-methyl flavanone and 3-hydroxy flavone derivatives were synthesized. The structures of the test compounds were characterized and established by various spectroscopic methods. The synthesized compounds were screened for in vitro antibacterial and antifungal activity against different strains (3-Gram positive, 3-Gram negative and 2- fungal strains). CONCLUSION: Some of the 3- hydroxyl flavones derivatives (1b, 3b, 4b, and 5b) and 3- methyl flavanone derivatives (3a, 1a, 2a and 4a) were found to elicit potent antimicrobial activity. The study revealed that 3-hydroxy flavone derivatives were found to be most active against Gram negative, while 3-methyl flavanone derivatives were active against Gram positive bacteria.

Cytotoxicity and Anti-inflammatory Activity of Flavonoid Derivatives Targeting NF-kappaB.

BACKGROUND: Nuclear factor-kappaB (NF-kappaB) has been reported to regulate various genes involved in cancer and inflammation. Accordingly, drugs inhibiting NF-kappaB may possess both anti-inflammatory and anticancer properties. So there is a need to discover novel compounds which should not only be a potential lead but also less toxic and cost effective. OBJECTIVES: The aim of the study was to develop new synthetic anti-inflammatory and cytotoxic agents targeting NF-kappaB. METHODS: Test compounds were synthesized and characterized by UV, IR, 1H-NMR, 13C-NMR and mass spectrometry. The synthesized compounds were evaluated for in vitro cytotoxicity by MTT assay against various cancer cell lines and in vivo anti-inflammatory in carrageenan-induced paw edema model. Selected compounds were subjected to cell cycle analysis using propidium iodide. Docking study was done into an active site of NF-kappaB using Auto Dock 4.2. RESULT: Three series of compounds were synthesized and characterized by various spectroscopic techniques. The test compounds (10b), (1c) and (2c) were found to be the most potent anti-inflammatory agents, whereas compounds such as (10b), (6b), (4b), (2b), (6a), (4a), (5c) and (3c) have shown promising cytotoxicity in different cancer cell lines, followed by cell cycle analysis of selected compounds ((10b) and (4b)). The free energy of binding of ligands was in the range between -6.47 to -12.50.Kcal/ mole. CONCLUSION: compound (10b) was found to be the most potent as both anti-inflammatory and cytotoxic agents. In silico approach was in good tune with the wet lab experiments. The promising compounds have shown to induce cell cycle arrest at G2/M Phase.