Exploring the potential of existing drugs for their unknown properties may offer advantages over conventional drug development by saving time and money. Candida albicans, an important human opportunist, shares many genetic properties with humans. This has encouraged us to study drugs that are not originally antifungals against C. albicans. In the present study, we have tested six antiepileptic drugs for their activities against C. albicans. Their effects on growth, time-dependent killing, yeast-to-hyphal form switching, and biofilms formation by C. albicans were studied. Out of the drugs studied, four drugs, which are γ-aminobutyric acid (GABA) receptor agonists in humans, inhibited growth, yeast-to-hyphal form switching, and biofilm formation in C. albicans. Lorazepam inhibited growth of C. albicans at 25 μg/ml, followed by midazolam and diazepam (minimum inhibitory concentrations 100 and 400 μg/ml, respectively). Members from other group voltage-gated sodium channel blockers failed to inhibit C. albicans. Our study has identified GABA receptor agonists used in epileptic therapy as potential candidates for antifungal drug development against the human pathogen C. albicans.
Hepatitis C virus (HCV) infections are emerging as one of the foremost challenges in healthcare owing to its chronicity and the virus's quasispecies nature. Worldwide, over 170 million people are chronically infected with HCV, with an annual mortality of over 500,000 people across the world. The emerging pathophysiological evidence links HCV infections to a risk of developing liver diseases such as cirrhosis and hepatocellular carcinoma. Despite the great strides that have been made towards understanding the pathophysiology of disease progression, the tailored treatments of HCV infection remain to be established. The present review provides an update of the literature pertaining to evolving therapeutic approaches and prophylactic measures for the effective management of HCV infections. An extensive discussion of established and experimental immune prophylactic measures also sheds light on current developments in the design of vaccination strategies against HCV infection. We have also attempted to address the application of nanotechnology in formulating effective therapeutic interventions against HCV. Pointing out the limitations of the existing diagnostic methods and therapeutic approaches against HCV might inspire the design and development of novel, efficient, reliable, and cost-effective diagnostic technologies as well as novel therapeutic and immune prophylactic interventions for the effective management of HCV.
COVID 19 is a disease caused by a novel coronavirus, SARS-CoV2 originated in China most probably of Bat origin. Multiepitopes vaccine would be useful in eliminating SARS-CoV2 infections as asymptomatic patients are in large numbers. In response to this, we utilized bioinformatic tools to develop an efficient vaccine candidate against SARS-CoV2. The designed vaccine has effective BCR and TCR epitopes screened from the sequence of S-protein of SARS-CoV2. Predicted BCR and TCR epitopes found antigenic, non-toxic and probably non-allergen. Modeled and the refined tertiary structure predicted as valid for further use. Protein–Protein interaction prediction of TLR2/4 and designed vaccine indicates promising binding. The designed multiepitope vaccine has induced cell-mediated and humoral immunity along with increased interferon-gamma response. Macrophages and dendritic cells were also found to increase upon the vaccine exposure. In silico codon optimization and cloning in expression vector indicates that the vaccine can be efficiently expressed in
E. coli
. In conclusion, the predicted vaccine is a good antigen, probable no allergen, and has the potential to induce cellular and humoral immunity.
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