Anti-inflammatory effect of wedelolactone on DSS induced colitis in rats: IL-6/STAT3 signaling pathway.

BACKGROUND: Wedelolactone, main active constituent of Wedelia calendulace and Eclipta alba plants which has been traditionally used to treat various chronic inflammatory conditions. However, its mechanism of action of anti-inflammatory effect on ulcerative colitis is yet to be established. OBJECTIVE: In the present study, the effect of the wedelolactone on the myeloperoxidase activities and in the production of proinflammatory cytokines involved in the pathogenesis of chronic inflammation was assessed. MATERIALS AND METHODS: Wistar rats were randomly divided into four groups containing six animals per group. Group I (Vehicle control): tap water and vehicle; Group II (DSS control): tap water containing 5% (w/v) of DSS over 7 days, and vehicle; Group III (treatment group): Wedelolactone 50 mg/kg/day, and tap water containing 5% DSS over 7 days, Group IV (treatment group): Wedelolactone 100 mg/kg/day and tap water containing 5% DSS over 7 days over the experiment. RESULTS: Study revealed that wedelolactone treatment dramatically decrease the release of IL-1a, IL-1b, IL-2, TNF, INFγ, STAT3 and CCL-5 in colons treated with DSS. In summary, these results suggest that the inhibition of IL-6/STAT3 signaling is a potential mechanism by which wedelolactone is used in the treatment of ulcerative colitis. CONCLUSION: Oral administration of Wedelolactone (100 mg/kg) significantly attenuated pathological colonic damage and inhibited inflammatory infiltration, myeloperoxidase activities. In summary, Wedelolactone showed anti-inflammatory effect by down regulation of the IL-6/STAT3 inflammatory signaling pathway. These findings provide new insights into the pharmacological actions of wedelolactone as a potential therapeutic agent for colitis.

Extraction, Purification, and Development of Sublingual Film (SLIT Films) Comprising Cockroach Allergen for Treatment of Allergy.

AIM: Allergy associated with cockroaches are mostly from the American cockroach (Periplaneta americana) and German cockroach (Blattella germanica). The effective and safe treatment for cockroach allergy is Sublingual immunotherapy (SLIT). In this study, SLIT Films containing purified allergen extract of Periplaneta americana were prepared by solvent casting and were evaluated for their efficiency in delivery. METHODOLOGY: Cockroach allergen extract was prepared and purified by ultrafiltration and chromatography. The molecular weight of protein content was identified and estimated by SDS- PAGE and ELISA. SLIT films were developed by the Quality by Design (QbD) approach and were evaluated for allergen- excipient compatibility, swelling index, taste, diffusion, in vitro dissolution, local toxicity, and stability analysis. RESULTS: Cockroach allergen protein extracts (cut-off 25-71KDa) were identified by SDS-PAGE and quantified by indirect ELISA and further selected for sublingual film preparation. The indirect ELISA results show a higher optical density (OD) value compared to crude extract. The weight uniformity and thickness of the film were between 13-18 mg and 0.04-0.06 mm. The disintegration time was found to be less than 1 min. The cumulative percentage release was also found to be satisfactory. The local toxicity study indicated no signs of irritation in the buccal mucosa of rabbits. The optimised F3 film had uniform thickness, faster disintegration and drug content within pharmacopeial limits. Ex vivo study revealed better permeability with 90% release of allergen in 7 minutes. The formulation was also stable at room temperature during the study period. CONCLUSION: SLIT Film containing cockroach allergen from Periplaneta americana was successfully developed and evaluated. SLIT films of cockroach allergen could be more beneficial and convenient for emergency use in patients when compared to subcutaneous immunotherapy. SLIT films provide dose accuracy and are a promising alternative for SCIT and SLIT drops and tablets.

Bioengineered and functionalized silk proteins accelerate wound healing in rat and human dermal fibroblasts.

Wound healing is an intrinsic process directed towards the restoration of damaged or lost tissue. The development of a dressing material having the ability to control the multiple aspects of the wound environment would be an ideal strategy to improve wound healing. Though natural silk proteins, fibroin, and sericin have demonstrated tissue regenerative properties, the efficacy of bioengineered silk proteins on wound healing is seldom assessed. Furthermore, silk proteins sans contaminants, having low molecular masses, and combining with other bioactive factors can hasten the wound healing process. Herein, recombinant silk proteins, fibroin and sericin, and their fusions with cecropin B were evaluated for their wound-healing effects using in vivo rat model. The recombinant silk proteins demonstrated accelerated wound closure in comparison to untreated wounds and treatment with Povidone. Among all groups, the treatment with recombinant sericin-cecropin B (RSC) showed significantly faster healing, greater than 90% wound closure by Day 12 followed by recombinant fibroin-cecropin B (RFC) (88.86%). Furthermore, histological analysis and estimation of hydroxyproline showed complete epithelialization, neovascularization, and collagenisation in groups treated with recombinant silk proteins. The wound healing activity was further verified by in vitro scratch assay using HADF cells, where the recombinant silk proteins induced cell proliferation and cell migration to the wound area. Additionally, wound healing-related gene expression showed recombinant silk proteins stimulated the upregulation of EGF and VEGF and regulated the expression of TGF-ß1 and TGF-ß3. Our results demonstrated the enhanced healing effects of the recombinant silk fusion proteins in facilitating complete tissue regeneration with scar-free healing. Therefore, the recombinant silks and their fusion proteins have great potential to be developed as smart bandages for wound healing.

Design, synthesis and chemical stability of indolizine derivatives for antidiabetic activity.

Prodrugs of metformin were synthesized with the goal of enhancing biological activity of metformin. They were synthesized by combining metformin with 2-substituted indolizine (C7-C12). The synthesized prodrugs were characterized by IR, 1H NMR, 13C NMR, and mass spectroscopy. The chemical hydrolysis of C7-C12 was carried out at pH 1.2, 6.8, and 7.4. All compounds showed encouraging chemical stability at pH 1.2 and 6.8, whereas mild hydrolysis was shown at pH 7.4. Further prodrugs were screened for antidiabetic activity using a streptozotocin-induced model in rat. These derivatives showed substantial results. Among them C8 showed significant activity in the reduction of streptozotocin-induced blood glucose in rats when compared to that of metformin, indicating the effectiveness of prodrug.

Design, synthesis and chemical stability of indolizine derivatives for antidiabetic activity.

Prodrugs of metformin were synthesized with the goal of enhancing biological activity of metformin. They were synthesized by combining metformin with 2-substituted indolizine (C7-C12). The synthesized prodrugs were characterized by IR, 1H NMR, 13C NMR, and mass spectroscopy. The chemical hydrolysis of C7-C12 was carried out at pH 1.2, 6.8, and 7.4. All compounds showed encouraging chemical stability at pH 1.2 and 6.8, whereas mild hydrolysis was shown at pH 7.4. Further prodrugs were screened for antidiabetic activity using a streptozotocin-induced model in rat. These derivatives showed notable results. Among them C8 showed significant activity in the reduction of STZ-induced blood glucose in rats when compared to that of metformin, indicating the effectiveness of prodrug.

Oral toxicity study of sports nutritional powder in Wistar rats: A 90 day repeated dose study.

Fitnox is a newly developed dietary ingredient for physical endurance composed of the extracts of Moinga oleifera leaf (45-50%), Kaempferia parviflora (black ginger) root (15-20%) and Punica granatum peel (25-30%). The aim of this study was to assess the subchronic oral toxicity of Fitnox (test substance) - in Wistar albino rats. Forty rats equally divided into 4 groups (control male, control female, treatment male and treatment female) administrated the test substance at 1000 mg/kg per rat daily for 90 days. All the animals were observed for body weight, mortality and clinical observations during the entire study. Results revealed no significant changes between the control and Fitnox treated groups. Based on the results, it was concluded that orally administered Fitnox to rats (dose of 1000 mg/kg per rat, orally-90 days) is safe with no drug-related toxicity was observed during the study period. Thus, the no-observed adverse effect level (NOAEL) for the present study is evaluated to be 1000 mg/kg body weight in both the sexes.

Acute, 28days sub acute and genotoxic profiling of Quercetin-Magnesium complex in Swiss albino mice.

Quercetin-Magnesium complex is one of the youngest alkaline rare earth metal (Magnesium) complexes with flavonoids (Quercetin) in organo-metalic family. Earlier studies describe the details of the complex formation, characterization and antioxidant study of the complex but toxicity profile is still under darkness. The present study was taken up to investigate the oral acute toxicity, 28days repeated oral sub-acute toxicity study and genotoxicity study of Quercetin-Magnesium complex in Swiss albino mice. Quercetin-Magnesium complex showed mortality at a dose of 185mg/kg in the Swiss albino mice. In 28days repeated oral toxicity study, Quercetin-Magnesium complex was administered to both sex of Swiss albino mice at dose levels of 150, 130 and 100mg/kg body weight respectively. Where 150mg/kg dose shows increased levels of white blood cells and changes in total protein, serum creatinine and blood urea nitrogen. Histopathological study of Quercetin-Magnesium complex shows minor structural alteration in kidney at 150mg/kg dose. No observed toxic level found in 130mg/kg or below doses. No genotoxic effect found in any doses of the complex. Therefore 130mg/kg or below dose level could be better for further study.

Preparation and characterization of mercury-based traditional herbomineral formulation: Shwas kuthar rasa.

BACKGROUND: Shwas kuthar rasa is a prestigious and potential herbomineral formulation of Ayurveda tested on 100 years of time scale for the treatment of asthma, allergy, and other respiratory problems. However, there is a lack of scientific work on Shwas kuthar rasa. OBJECTIVE: To prepare and physicochemically evaluate mercury-based Shwas kuthar rasa herbomineral formulation of Ayurveda for asthma and allergy. MATERIALS AND METHODS: Shwas kuthar rasa was prepared as per Ayurvedic text and characterized by various modern analytical techniques, viz., transmission electron microscopy (TEM), X-ray diffraction (XRD), far infrared (IR) spectroscopy, fourier transform IR spectroscopy, energy dispersive X-ray analysis, and inductively coupled plasma-mass spectroscopy. RESULTS: Study clearly revealed that prepared Shwas kuthar rasa formulation shows several crystallites agglomerate into a single particle. It yields submicron size particle structure (1.22 µ) with TEM analysis. The usage of mercury in the formulation found in the form of mercuric sulfide (HgS) and reaching to nanocrystalline (31-56 nm) size by XRD analysis. CONCLUSION: The present study indicates Shwas kuthar rasa is nanocrystallite with submicron size particle. Trituration of Kajjali helps in the formation of HgS and increases the crystallinity in the formulation.