Project description:In order to understand the effect of HHV-6A reactivation on host cell, U2-OS bone osteosarcoma cells were generated carrying latent HHV-6A genome. These cells were either treated with DMSO (solvent control) or Trichostatin-A (TSA) for viral reactivation. As a control cells carrying no HHV-6A were used and treated similarly. Two biological replicates of each sample were processed for small RNA transcriptomics (small RNAseq). Furthermore, HeLa (cervical epithelial cells) were generated carrying lentiviral insertions of one of the small non-coding RNA from HHV-6A (sncRNA-U14). These cells could be transiently induced for sncRNA-U14 transcription using Doxycycline. HeLa cells having a mock lentiviral backbone was used as a control and was treated similarly. Two biological replicates of each sample were processed for small RNA transcriptomics (small RNAseq).

Project description:HHV-6A is a human herpesvirus that integrates into human sub telomeric regions to acquire latency. This latent virus frequently reactivates causing numerous diseases. The project was aimed to understand changes in host cell prteomics upon virus reactivation, which might helpin understanding the pathophysiology of virus reactivation.

Project description:To determine if HHV-6A infection affects cell metabolism of host cells, we conducted a global RNA sequencing analysis in HHV-6A infected cells

Project description:In a major study, we found that miR-aU14, a potential miRNA expressed by human herpesvirus 6A (HHV-6A), acts to selectively inhibit the processing of members of the human miR-30 family through direct RNA:RNA interaction and causes changes in mitochondrial arcchitecture through p53-Drp1 axis. In order to characterize miR-aU14 during virus reactivation, we carried out small RNA-seq from U2-OS cells carrying latent HHV-6A. Virus reactivation was carried out using 80 ng/ml of Trichostatin-A (TSA).

Project description:We report the application of size selection of small RNA species isolated from Jjhan cells harboring the human herpesvirus 6A genome. We ammassed >3.4million reads of sequence from three different sources: Normal Brain cell total RNA, Jjhan total RNA and HHV-6A BAC transfected Jjhan total RNA. Sequences were mapped to the HHV-6A Uganda 1102 strain genome (GenBank: X83413.1) with no less than 100% match for reads >20nt and <23nt. The resulting pool of candidates was mapped to the HHV-6A genome. Single pass 36nt sequencing of samples either with or without HHV-6a genomes present.

Project description:In a major study, we found that miR-aU14, a potential miRNA expressed by human herpesvirus 6A (HHV-6A), acts to selectively inhibit the processing of members of the human miR-30 family through direct RNA:RNA interaction and causes changes in mitochondrial arcchitecture through p53-Drp1 axis. In order to characterize miR-aU14 during virus reactivation, we carried out small RNA-seq from U2-OS cells carrying latent HHV-6A. Virus reactivation was carried out using 80 ng/ml of Trichostatin-A (TSA).

Project description:Roseolovirus, or human herpesvirus 6 (HHV-6) is a ubiquitous human pathogen infecting over 95% of the population by the age of two years. As with other herpesviruses, reactivation of HHV-6 can present with severe complications in immunocompromised individuals. Recent studies have highlighted the importance of herpesvirus-derived micro (mi)RNAs in modulating both cellular and viral gene expression. An initial report, which computed the likelihood of various viruses to encode for miRNAs, did not predict HHV-6 miRNAs. To experimentally screen for small HHV-6 encoded RNAs, we conducted large-scale sequencing of Sup-T-1 cells lytically infected with a laboratory strain of HHV-6B. This revealed an abundant 60-65 nucleotide RNA of unknown function derived from the lytic origin of replication (OriLyt) that gave rise to smaller RNA species of 18-19 nucleotides in length. In addition, we identified four pre-miRNAs, whose mature forms accumulated in Argonaute 2. In contrast to other beta-herpesviruses, HHV-6B miRNAs are expressed from direct repeat regions (DRL and DRR) located at either side of the genome. All miRNAs are conserved in the closely related HHV-6A variant, and one of them is a seed ortholog of the human miR-582-5p. Similar to alpha-herpesvirus miRNAs, they are expressed antisense to immediate early ORFs and thus have the potential to regulate key viral regulators. Small RNA sequencing from total RNA or Ago2 associated small RNAs extracted from HHV-6 infected Sup-T-1 cells

Project description:We report the application of size selection of small RNA species isolated from Jjhan cells harboring the human herpesvirus 6A genome. We ammassed >3.4million reads of sequence from three different sources: Normal Brain cell total RNA, Jjhan total RNA and HHV-6A BAC transfected Jjhan total RNA. Sequences were mapped to the HHV-6A Uganda 1102 strain genome (GenBank: X83413.1) with no less than 100% match for reads >20nt and <23nt. The resulting pool of candidates was mapped to the HHV-6A genome.

Project description:Roseolovirus, or human herpesvirus 6 (HHV-6) is a ubiquitous human pathogen infecting over 95% of the population by the age of two years. As with other herpesviruses, reactivation of HHV-6 can present with severe complications in immunocompromised individuals. Recent studies have highlighted the importance of herpesvirus-derived micro (mi)RNAs in modulating both cellular and viral gene expression. An initial report, which computed the likelihood of various viruses to encode for miRNAs, did not predict HHV-6 miRNAs. To experimentally screen for small HHV-6 encoded RNAs, we conducted large-scale sequencing of Sup-T-1 cells lytically infected with a laboratory strain of HHV-6B. This revealed an abundant 60-65 nucleotide RNA of unknown function derived from the lytic origin of replication (OriLyt) that gave rise to smaller RNA species of 18-19 nucleotides in length. In addition, we identified four pre-miRNAs, whose mature forms accumulated in Argonaute 2. In contrast to other beta-herpesviruses, HHV-6B miRNAs are expressed from direct repeat regions (DRL and DRR) located at either side of the genome. All miRNAs are conserved in the closely related HHV-6A variant, and one of them is a seed ortholog of the human miR-582-5p. Similar to alpha-herpesvirus miRNAs, they are expressed antisense to immediate early ORFs and thus have the potential to regulate key viral regulators.

Project description:Background: Diverticular disease is a significant healthcare burden in the United States. Younger diverticulitis patients are at increased risk for recurrence. How the molecular pathophysiology differs from those that develop disease at an older age is not understood. We aimed to profile the colonic transcriptome from younger versus older diverticulitis patients to identify differential biological pathways contributing to disease. Methods: We performed RNA-seq on full-thickness sigmoid colon tissue obtained at the time of surgery on diverticulitis patients (n=26) diagnosed at a younger age (<42 years old) or at an older age (>65 years old). Viral reads were identified from the RNA-seq dataset and associated with clinical metadata and the host transcriptome. HHV-6 positivity was evaluated in diverticulitis patients by PCR and immunofluorescence. Patient sera was profiled for HHV-6 using qPCR and ELISA to detect anti-HHV-6 antibodies. Results: Using RNA-seq, diverticulitis patients were profiled for differential expression associated with age of diagnosis. A subset of younger diverticulitis patients (diverticulitis colonic transcriptome-viral signature (DCT-VS)) demonstrated increased expression of anti-viral response genes. We identified viral transcripts in the RNA-seq dataset and found HHV-6 transcripts negatively correlated with DCT-VS. Younger patients more frequently displayed evidence of HHV-6 infection through DNA analysis and immunofluorescence of colonic tissue. During acute disease, HHV-6 DNA was detected in the serum but was absent during disease quiescence. Conclusions: Patients diagnosed with diverticulitis at a younger age demonstrate reactivation of HHV-6 in the sigmoid colon that remains persistent. Future studies to assess the role of pathogenicity and the use of anti-virals for acute uncomplicated diverticulitis should be considered.