Anand K. Kondapi

Evaluation of Abelmoschus moschatus extracts for antioxidant, free radical scavenging, antimicrobial and antiproliferative activities using in vitro assays

BackgroundAbelmoschus moschatus Medik. leaves and seeds are considered as valuable traditional medicine. The aromatic seeds of this plant are aphrodisiac, ophthalmic, cardio tonic, antispasmodic and used in the treatment of intestinal complaints and check queasiness. To give a scientific basis for traditional usage of this medicinal plant, the seed and leaf extracts were evaluated for their antioxidant, free radical scavenging, antimicrobial and antiproliferative activities.MethodsIn this study, antioxidant, antimicrobial and antiproliferative activities of A. moschatus extracts were evaluated in a series of in vitro assay involving free radicals, reactive oxygen species and their IC50 values were also determined. The antioxidant activities of the seed and leaf extracts of A. moschatus were determined by total antioxidant, DPPH, and ferrous reducing antioxidant property (FRAP) methods. In addition, the antiproliferative activity was also evaluated using colorectal adenocarcinoma and retinoblastoma human cancer cell lines. Moreover, six bacterial reference strains, two gram-positive (Bacillus subtilis and Staphylococcus aureus), four gram-negative (Escherichia coli, Pseudomonas aeruginosa, Proteus vulgaris and Salmonella enterica paratyphi) and one fungal strain (Candida albicans) were used to evaluate its antimicrobial activity.ResultsThe results from this study showed that the antioxidant activities of A. moschatus as determined by the total phenol, flavonoids, total antioxidant and FRAP methods were higher in leaf than that of the seed extracts. On the other hand, the aqueous overnight seed extract (AMS-I) has shown significant radical scavenging activity as in 1, 1- Diphenyl-2-picrylhydrazyl (DPPH), hydrogen peroxide, hydroxyl radical, superoxide and lipid peroxidation as compared to other seed and leaf extracts. The AMS-I and AML-IV have shown activity against six and seven microorganisms respectively. Simulteneously, AMS-IV and AML-IV have demonstrated potential antiproliferative activity against two human cell lines - Colorectal adenocarcinoma (COLO-205) and retinoblastoma (Y79).ConclusionThe seed and leaf extracts of A. moschatus possess significant antioxidant activity and could serve as free radical inhibitors or scavenger, or substitute, probably as primary antioxidants. The plant possesses moderate antibacterial activity against bacterial strains used in this study. Hydroalcoholic seed and leaf extracts also exhibited antiproliferative activity against two human cancer cell lines. A. moschatus may therefore, be a good candidate for functional foods as well as pharmaceutics.

Curcumin inhibits fibrosis-related effects in IPF fibroblasts and in mice following bleomycin-induced lung injury

Idiopathic pulmonary fibrosis (IPF) is a progressive and typically fatal lung disease for which no effective therapy has been identified. The disease is characterized by excessive collagen deposition, possibly in response to dysregulated wound healing. Mediators normally involved in would healing induce proliferation of fibroblasts and their differentiation to myofibroblasts that actively secrete collagen. Curcumin, a polyphenolic compound from turmeric, has been shown to exert a variety of biological effects. Effects on IPF and associated cell types remain unclear, however. We accordingly tested the ability of curcumin to inhibit proliferation and differentiation to myofibroblasts by human lung fibroblasts, including those from IPF patients. To further examine the potential usefulness of curcumin in IPF, we examined its ability to reduce fibrosis in bleomycin-treated mice. We show that curcumin effectively reduces profibrotic effects in both normal and IPF fibroblasts in vitro and that this reduction is accompanied by inhibition of key steps in the transforming growth factor-β (TGF-β) signaling pathway. In vivo, oral curcumin treatment showed no effect on important measures of bleomycin-induced injury in mice, whereas intraperitoneal curcumin administration effectively inhibited inflammation and collagen deposition along with a trend toward improved survival. Intraperitoneal curcumin reduced fibrotic progression even when administered after the acute bleomycin-induced inflammation had subsided. These results encourage further research on alternative formulations and routes of administration for this potentially attractive IPF therapy.

An Efficient Targeted Drug Delivery through Apotransferrin Loaded Nanoparticles

Background Cancerous state is a highly stimulated environment of metabolically active cells. The cells under these conditions over express selective receptors for assimilation of factors essential for growth and transformation. Such receptors would serve as potential targets for the specific ligand mediated transport of pharmaceutically active molecules. The present study demonstrates the specificity and efficacy of protein nanoparticle of apotransferrin for targeted delivery of doxorubicin. Methodology/Principal Findings Apotransferrin nanoparticles were developed by sol-oil chemistry. A comparative analysis of efficiency of drug delivery in conjugated and non-conjugated forms of doxorubicin to apotransferrin nanoparticle is presented. The spherical shaped apotransferrin nanoparticles (nano) have diameters of 25–50 ηm, which increase to 60–80 ηm upon direct loading of drug (direct-nano), and showed further increase in dimension (75–95 ηm) in conjugated nanoparticles (conj-nano). The competitive experiments with the transferrin receptor specific antibody showed the entry of both conj-nano and direct-nano into the cells through transferrin receptor mediated endocytosis. Results of various studies conducted clearly establish the superiority of the direct-nano over conj-nano viz. (a) localization studies showed complete release of drug very early, even as early as 30 min after treatment, with the drug localizing in the target organelle (nucleus) (b) pharmacokinetic studies showed enhanced drug concentrations, in circulation with sustainable half-life (c) the studies also demonstrated efficient drug delivery, and an enhanced inhibition of proliferation in cancer cells. Tissue distribution analysis showed intravenous administration of direct nano lead to higher drug localization in liver, and blood as compared to relatively lesser localization in heart, kidney and spleen. Experiments using rat cancer model confirmed the efficacy of the formulation in regression of hepatocellular carcinoma with negligible toxicity to kidney and liver. Conclusions The present study thus demonstrates that the direct-nano is highly efficacious in delivery of drug in a target specific manner with lower toxicity to heart, liver and kidney.

A Target-Specific Oral Formulation of Doxorubicin-Protein Nanoparticles: Efficacy and Safety in Hepatocellular Cancer

Background/Aims: Hepatocellular carcinoma (HCC) also known as malignant hepatoma is a most common liver cancer. Doxorubicin (Doxo) is an anti-cancer drug having activity against a wide spectrum of cancer types. Clinical Utility of doxo has been limited due to its poor bioavailability and toxicity to heart and spleen. Furthermore, cancer chemotherapeutics have limited oral absorption. Transferrin family proteins are highly abundant and plays important role in transport and storage of iron in cells and tissues. Since apotransferrin and lactoferrin receptors are highly expressed on the surface of metabolically active cancer cells, the principal objective of present study is to evaluate efficacy of doxorubicin loaded apotransferrin and lactoferrin nanoparticles (apodoxonano or lactodoxonano) in oral treatment of HCC in rats. Study Design: HCC was induced in rats by supplementing 100 mg/L of diethylnitrosamine (DENA) in drinking water for 8 weeks. A week after the last day of DENA administration, rats were divided into four groups, each group comprising of five animals. Each group was administered with one of the drug viz., saline, doxorubicin (doxo), apodoxonano and lactodoxonano (4 mg/ kg equivalent of drug). In each case, they received 8 doses of the drug orally with six day interval. One week after the last dose, anticancer activity was evaluated by counting the liver nodules, H & E analysis of tissue sections and expression levels of angiogenic and antitumor markers. Results: In rats treated with apodoxonano and lactodoxonano, the number of neoplastic nodules was significantly lower than that of rats administered with saline or with doxo. Apodoxonano and lactodoxonano did not exhibit decrease in mean body weight, which was markedly reduced by 22% in the case of doxo administered rats. In rats treated with nanoformulations, the number of liver nodules was found reduced by >93%. Both nanoformulations showed significantly high localization in liver compared to doxo. Conclusions: Apodoxonano and lactodoxonano showed improved efficacy, bioavailability and safety compared to doxo for treatment of HCC in rats when administered orally.

Curcumin-loaded apotransferrin nanoparticles provide efficient cellular uptake and effectively inhibit HIV-1 replication in vitro.

Background Curcumin (diferuloylmethane) shows significant activity across a wide spectrum of conditions, but its usefulness is rather limited because of its low bioavailability. Use of nanoparticle formulations to enhance curcumin bioavailability is an emerging area of research. Methodology/Principal Findings In the present study, curcumin-loaded apotransferrin nanoparticles (nano-curcumin) prepared by sol-oil chemistry and were characterized by electron and atomic force microscopy. Confocal studies and fluorimetric analysis revealed that these particles enter T cells through transferrin-mediated endocytosis. Nano-curcumin releases significant quantities of drug gradually over a fairly long period, ∼50% of curcumin still remaining at 6 h of time. In contrast, intracellular soluble curcumin (sol-curcumin) reaches a maximum at 2 h followed by its complete elimination by 4 h. While sol-curcumin (GI50 = 15.6 µM) is twice more toxic than nano-curcumin (GI50 = 32.5 µM), nano-curcumin (IC50<1.75 µM) shows a higher anti-HIV activity compared to sol-curcumin (IC50 = 5.1 µM). Studies in vitro showed that nano-curcumin prominently inhibited the HIV-1 induced expression of Topo II α, IL-1β and COX-2, an effect not seen with sol-curcumin. Nano-curcumin did not affect the expression of Topoisomerase II β and TNF α. This point out that nano-curcumin affects the HIV-1 induced inflammatory responses through pathways downstream or independent of TNF α. Furthermore, nano-curcumin completely blocks the synthesis of viral cDNA in the gag region suggesting that the nano-curcumin mediated inhibition of HIV-1 replication is targeted to viral cDNA synthesis. Conclusion Curcumin-loaded apotransferrin nanoparticles are highly efficacious inhibitors of HIV-1 replication in vitro and promise a high potential for clinical usefulness.

Analysis of age dependent changes of Topoisomerase II α and β in rat brain

Eukaryotic Topoisomerase II (Topo II) is present in two isoforms α and β. The α isoform is predominantly localized in proliferative tissue, while β isoform is present in all tissues. In the present study we report the activity and protein levels of Topoisomerase II α and β in rat brains of different age groups viz.: E11 (Embryo day 11), E18 (Embryo day 18), post‐natal day 1, young (<10 days), adult (<6 months) and old (>2 years). Topoisomerase II β isoform is found to be the predominant form in brain tissue but Topoisomerase II α is found in embryos up to post‐natal day 1. The studies to examine the regional distribution of Topoisomerase II β in brain showed highest activity in cerebellar region and that too only neuronal cell fraction. There was a significant age‐dependent decline in this activity. Hence, Topoisomerase II β may have some unknown function in cerebellum and the low levels of Topoisomerase II β activity in ageing cerebellum may contribute to the genomic instability in cerebellar region of ageing brain.

Efficacy, Safety and Anticancer Activity of Protein Nanoparticle-Based Delivery of Doxorubicin through Intravenous Administration in Rats

Background and Aims Doxorubicin is a potent anticancer drug and a major limiting factor that hinders therapeutic use as its high levels of systemic circulation often associated with various off-target effects, particularly cardiotoxicity. The present study focuses on evaluation of the efficacy of doxorubicin when it is loaded into the protein nanoparticles and delivered intravenously in rats bearing Hepatocellular carcinoma (HCC). The proteins selected as carrier were Apotransferrin and Lactoferrin, since the receptors for these two proteins are known to be over expressed on cancer cells due to their iron transport capacity. Methods Doxorubicin loaded apotransferrin (Apodoxonano) and lactoferrin nanoparticles (Lactodoxonano) were prepared by sol-oil chemistry. HCC in the rats was induced by 100 mg/l of diethylnitrosamine (DENA) in drinking water for 8 weeks. Rats received 5 doses of 2 mg/kg drug equivalent nanoparticles through intravenous administration. Pharmacokinetics and toxicity of nanoformulations was evaluated in healthy rats and anticancer activity was studied in DENA treated rats. The anticancer activity was evaluated through counting of the liver nodules, H & E analysis and by estimating the expression levels of angiogenic and antitumor markers. Results In rats treated with nanoformulations, the numbers of liver nodules were found to be significantly reduced. They showed highest drug accumulation in liver (22.4 and 19.5 µg/g). Both nanoformulations showed higher localization compared to doxorubicin (Doxo) when delivered in the absence of a carrier. Higher amounts of Doxo (195 µg/g) were removed through kidney, while Apodoxonano and Lactodoxonano showed only a minimal amount of removal (<40 µg/g), suggesting the extended bioavailability of Doxo when delivered through nanoformulation. Safety analysis shows minimal cardiotoxicity due to lower drug accumulation in heart in the case of nanoformulation. Conclusion Drug delivery through nanoformulations not only minimizes the cardiotoxicity of doxorubicin but also enhances the efficacy and bioavailability of the drug in a target-specific manner.

Topoisomerase II poisoning by indazole and imidazole complexes of ruthenium

Trans-imidazolium (bis imidazole) tetrachloro ruthenate (RuIm) and trans-indazolium (bis indazole) tetrachloro ruthenate (RuInd) are ruthenium coordination complexes, which were first synthesized and exploited for their anticancer activity. These molecules constitute two of the few most effective anticancer ruthenium compounds. The clinical use of these compounds however was hindered due to toxic side effects on the human body. Our present study on topoisomerase II poisoning by these compounds shows that they effectively poison the activity of topoisomerase II by forming a ternary cleavage complex of DNA, drug and topoisomerase II. The thymidine incorporation assays show that the inhibition of cancer cell proliferation correlates with topoisomerase II poisoning. The present study on topoisomerase II poisoning by these two compounds opens a new avenue for renewing further research on these compounds. This is because they could be effective lead candidates for the development of more potent and less toxic ruthenium containing topoisomerase II poisons. Specificity of action on this molecular target may reduce the toxic effects of these ruthenium-containing molecules and thus improve their therapeutic index.

Cultured cerebellar granule neurons as an in vitro aging model: topoisomerase IIβ as an additional biomarker in DNA repair and aging.

Aging in the brain is a multicellular process manifesting as neurodegeneration and associated functional impairment. In the present study, we report that cerebellar granule neurons (CGNs) in culture show senescence-mediated molecular changes indicating establishment of aging processes in vitro. CGNs were viable for 5 weeks followed by cellular degeneration. Molecular changes correlated with cellular senescence and aging include the elevation of senescence-mediated beta galactosidase (SA-β-gal) activity and intracellular Ca(2+) levels. Decreased base excision repair (BER) as well as non-homologous end joining (NHEJ) activities in CGNs were also observed upon aging in vitro. The decrease in NHEJ activity was shown correlated with corresponding decrease in the levels of topoisomerase IIβ (topo IIβ), Ku 70 and Ku 80 suggesting a crucial role for topo IIβ in repair capacity of CGNs. These studies, besides establishing that CGNs would serve as a good in vitro model for analysis of aging phenomena, also brought out that topo IIβ, by virtue of its significant role in controlling NHEJ activity, would serve as an additional biomarker for studying aging process.

Carboplatin loaded protein nanoparticles exhibit improve anti-proliferative activity in retinoblastoma cells.

Retinoblastoma, a common neoplasm of eye in children accounts about 9-10% of all paediatric cancer. Carboplatin (carbo) is preferred chemotherapeutic regimen. In this study the prospective of carboplatin loaded apotranferrin (Apo-nano-carbo) and lactoferrin (Lacto-nano-carbo) nanoparticles have been demonstrated for the treatment of retinoblastoma. Apo-nano-carbo and Lacto-nano-carbo were prepared by sol-oil method (as a patented formula) with size of 82-92 nm and 68-81 nm, hydrodynamic size were 142±15 nm and 263±20 nm, encapsulation efficiency were 50%±2.3 and 52%±3.9 respectively. Results of pH dependent-drug release and receptor-blocking assay showed that nanoparticles may deliver drug through receptor mediated endocytosis. The carboplatin loaded nanoparticles shows greater intracellular uptake, sustained retention and thus, high anti-proliferative activity (Apo-nano-carbo IC50=4.31 μg ml(-1), Lacto-nano-carbo IC50=4.16 μg ml(-1), Sol-carbo IC50=13.498 μg ml(-1)) into the retinoblastoma cells compared to their soluble counterpart.