The molecular characterization of HIV-1 isolates in drug-naive cases in the early stages of HIV disease was studied in 128 cases from Mumbai (Bombay), India. Subtype C was largely predominant followed by A-C intersubtype recombinants, one subtype A and one CRF01 AE. Compared to subtype B, subtype C exhibited an important polymorphism; the percentages of substitutions could reach more than 90%. Two isolates showed M184V substitution the reverse transcriptase indicating resistance to 3TC.
The TT virus (TTV) is a non-enveloped, single-stranded, circular, DNA virus, first isolated from a patient with hepatitis of unexplained etiology. The much deliberated pathological role of the virus continues to be conjectural in the absence of a suitable in vitro replication model. So far, the liver and the bone marrow have been shown to be the main sites of TTV replication. In this study, the human cell lines HepG2 and Chang Liver, the rat hepatoma cell line MH1C1, phytohemagglutinin (PHA)-stimulated TTV-negative peripheral blood mononuclear cell (PBMC) cultures and the B lymphoblast cell line, Raji were investigated as potential in vitro replication systems for TTV. The cell lines were infected with an inoculum prepared by pooling TTV genotype1 DNA positive sera and monitored for virus replication. Of the three hepatocyte cell lines, while the HepG2 and MH1C1 cell lines did not support TTV replication, the Chang Liver cell line showed clear morphological changes as a result of the in vitro infection, which included clumping and granular degeneration of the entire cell sheet over a period of 6 days. The infected cells also showed presence of virus-specific mRNA representative of viral transcription. The consistent presence of infectious viral particles in the supernatant culture fluid at 24-hr fluid replacement intervals indicated limited extra-cellular release of viral particles. The PHA-stimulated TTV-negative PBMC cultures and the Raji cell line were also able to support TTV replication and released significant levels of infectious viral particles into the supernantant culture fluid.
Influenza is a serious respiratory illness which can be debilitating and cause complications that lead to hospitalization and death. Although influenza vaccine can prevent influenza virus infection, the only therapeutic options to treat influenza virus infection are antiviral agents. Given temporal and geographic changes and the shifts in antiviral drug resistance among influenza viruses, it is time to consider natural antiviral agents against influenza virus. Jatropha curcas is known for various medicinal uses. Its antimicrobial, anti-cancer and anti-HIV activity has been well recognized. Because of its broadspectrum activity, we investigated aqueous and methanol leaf extracts for cytotoxicity and its potential to inhibit hemagglutinin protein of influenza virus. The bioactive compounds from leaf extracts were characterized by highperformance thinlayer chromatography which revealed the presence of major phytochemicals including flavonoids, saponins and tannins. The cytotoxic concentration 50 for aqueous and methanol extracts were determined using trypan blue dye exclusion assay. Inhibition of hemagglutinin protein was assessed using minimal cytotoxic concentrations of the extracts and 10 2.5 TCID50 (64 HA titre) of the Influenza A (H1N1) virus with different exposure studies using hemagglutination assay. Aqueous and methanol extracts were found to be non toxic to Madin darby canine kidney cells below concentration of 15.57 and 33.62 mg/mL for respectively. Inhibition of hemagglutinin was studied using reducing hemagglutination titre which confirmed that the J. curcas extracts have direct effect on the process of virus adsorption leading to its inhibition. Our results provide the information which shows the potential of Jatropha extracts in the treatment of influenza A (H1N1) virus infection. With an established reduced toxicity and prevention of infection by inhibiting hemagglutinin protein, these extracts and its derivatives may be further developed as broad spectrum anti-influenza drugs for prevention and treatment of infections by different types of influenza viruses with further mechanistic studies on antiinfluenza.
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