Epstein-Barr virus noncoding small RNA (EBER1) induces cell proliferation by up-regulating cellular mitochondrial activity and calcium influx.

Epstein-Barr virus encoded RNAs (EBER1 and EBER2) are two non-polyadenylated, non-protein coding small RNAs expressed at high levels in all forms of EBV latent infections. Although not directly involved in cell transformation, a number of studies have reported that these RNAs may be involved in cell proliferation. However, which of the two EBERs play a major role in this process and the mechanisms involved remains unknown. The aim of this study was to investigate the role and mechanism of EBER1-induced cell proliferation. Using stably transfected EBER1 cell lines, and multiple methodologies, we show that EBER1 transfected epithelial, B and T cell lines proliferate at a higher rate, have higher metabolic activity and increased DNA synthesis. The mitochondrial number and activity was also observed to be higher in the EBER1 transfected cells. Moreover, cytochrome c activity and store operated calcium entry (SOCE) were potentiated in the EBER1 expressing cells. Finally, the genes associated with cell proliferation were also observed to be up-regulated in the EBER1 transfected cells. Taken together, our data has unravelled the role of mitochondria and cellular calcium pathway that appear to be involved in EBER1 induced cell proliferation of EBV infected cells.

Streptomyces globosus UAE1, a Potential Effective Biocontrol Agent for Black Scorch Disease in Date Palm Plantations.

Many fungal diseases affect date palm causing considerable losses in date production worldwide. We found that the fungicide Cidely® Top inhibited the mycelial growth of the soil-borne pathogenic fungus Thielaviopsis punctulata, the causal agent of black scorch disease of date palm, both in vitro and in vivo. Because the use of biocontrol agents (BCAs) can minimize the impact of pathogen control on economic and environmental concerns related to chemical control, we aimed at testing local actinomycete strains isolated from the rhizosphere soil of healthy date palm cultivated in the United Arab Emirates (UAE) against T. punctulata. The selected isolate can thus be used as a potential agent for integrated disease management programs. In general, the BCA showed antagonism in vitro and in greenhouse experiments against this pathogen. The most promising actinomycete isolate screened showed the highest efficacy against the black scorch disease when applied before or at the same time of inoculation with T. punctulata, compared with BCA or fungicide application after inoculation. The nucleotide sequence and phylogenetic analyses using the 16S ribosomal RNA gene with other Streptomyces spp. in addition to morphological and cultural characteristics revealed that the isolated UAE strain belongs to Streptomyces globosus UAE1. The antagonistic activity of S. globosus against T. punctulata, was associated with the production by this strain of diffusible antifungal metabolites i.e., metabolites that can inhibit mycelial growth of the pathogen. This was evident in the responses of the vegetative growth of pure cultures of the pathogen when exposed to the culture filtrates of the BCA. Altogether, the pathogenicity tests, disease severity indices and mode of action tests confirmed that the BCA was not only capable of suppressing black scorch disease symptoms, but also could prevent the spread of the pathogen, as a potential practical method to improve disease management in the palm plantations. This is the first report of an actinomycete, naturally occurring in the UAE with the potential for use as a BCA in the management of the black scorch disease of date palms in the region.