We previously reported low sensitivity of the hepatitis B virus (HBV) ribonuclease H (RNaseH) enzyme to inhibition by N-hydroxyisoquinolinedione (HID) compounds. Subsequently, our biochemical RNaseH assay was found to have a high false negative rate for predicting HBV replication inhibition, leading to underestimation of the number of HIDs that inhibit HBV replication. Here, 39 HID compounds and structurally related polyoxygenated heterocycles (POH), N-hydroxypyridinediones (HPD), and flutimides were screened for inhibition of HBV replication in vitro. Inhibiting the HBV RNaseH preferentially blocks synthesis of the positive-polarity DNA strand and causes accumulation of RNA:DNA heteroduplexes. Eleven HIDs and one HPD preferentially inhibited HBV positive-polarity DNA strand accumulation. EC50s ranged from 0.69 μM to 19 μM with therapeutic indices from 2.4 – 71. Neither the HIDs nor the HPD had an effect on the ability of the polymerase to elongate DNA strands in capsids. HBV RNaseH inhibition by the HIDs was confirmed with an improved RNaseH assay and by detecting accumulation RNA:DNA heteroduplexes in HBV capsids from cells treated with a representative HID. Therefore, the HID scaffold is more promising for anti-HBV drug discovery than we originally reported, and the HPD scaffold may hold potential for antiviral development. The preliminary structure-activity relationship will guide optimization of the HID/HPDs as HBV inhibitors.
Microalgae are viewed as a potential future agricultural and biofuel feedstock and also provide an ideal biological means of carbon sequestration based on rapid growth rates and high biomass yields. Any potential improvement using high-yield microalgae to fix carbon will require additional fertilizer inputs to provide the necessary nitrogen required for protein and nucleotide biosynthesis. The free-living diazotroph Azotobacter vinelandii can fix nitrogen under aerobic conditions in the presence of reduced carbon sources such as sucrose or glycerol and is also known to produce a variety of siderophores to scavenge different metals from the environment. In this study, we identified two strains of green algae, Neochloris oleoabundans and Scenedesmus sp. BA032, that are able to utilize the A. vinelandii siderophore azotobactin as a source of nitrogen to support growth. When grown in a co-culture, S. sp. BA032 and N. oleoabundans obtained the nitrogen required for growth through the association with A. vinelandii. These results, indicating a commensalistic relationship, provide a proof of concept for developing a mutualistic or symbiotic relationship between these two species using siderophores as a nitrogen shuttle and might further indicate an additional fate of siderophores in the environment.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.