MicroRNAs and long non-coding RNAs during transcriptional regulation and latency of HIV and HTLV.

Human immunodeficiency virus (HIV) and human T cell leukemia virus (HTLV) have replicative and latent stages of infection. The status of the viruses is dependent on the cells that harbour them and on different events that change the transcriptional and post-transcriptional events. Non-coding (nc)RNAs are key factors in the regulation of retrovirus replication cycles.

Gene therapy to cure HIV infection.

To date, the only intervention that has cured HIV infection has been bone marrow transplants from HIV-resistant donors to HIV-infected recipients. This approach has been used to both cure hematological malignancies and HIV infection, but it cannot be widely adopted due to the high risk of mortality associated with cell transplants between individuals. To overcome this limitation, several approaches have been developed to generate HIV resistance using gene therapy in an infected individual's own cells.

[Gene therapy to cure HIV infection].

To date, the only intervention that has cured HIV infection has been bone marrow transplants from HIV-resistant donors to HIV-infected recipients. This approach has been used to both cure hematological malignancies and HIV infection, but it cannot be widely adopted due to the high risk of mortality associated with cell transplants between individuals. To overcome this limitation, several approaches have been developed to generate HIV resistance using gene therapy in an infected individual's own cells.

The discovery and development of RNA-based therapies for treatment of HIV-1 infection.

Introduction: Long-term control of HIV-1 infection can potentially be achieved using autologous stem cell transplants with gene-modified cells. Non-coding RNAs represent a diverse class of therapeutic agents including ribozymes, RNA aptamers and decoys, small interfering RNAs, short hairpin RNAs, and U1 interference RNAs that can be designed to inhibit HIV-1 replication. They have been engineered for delivery as drugs to complement current HIV-1 therapies and as gene therapies for a potential HIV-1 functional cure.

Profound downregulation of neural transcription factor Npas4 and Nr4a family in fetal mice neurons infected with Zika virus.

Zika virus (ZIKV) infection of neurons leads to neurological complications and congenital malformations of the brain of neonates. To date, ZIKV mechanism of infection and pathogenesis is not entirely understood and different studies on gene regulation of ZIKV-infected cells have identified a dysregulation of inflammatory and stem cell maintenance pathways. MicroRNAs (miRNAs) are post-transcriptional regulators of cellular genes and they contribute to cell development in normal function and disease.

Efficacy, accumulation, and transcriptional profile of anti-HIV shRNAs expressed from human U6, 7SK, and H1 promoters.

The expression of short hairpin RNAs (shRNAs) in cells has many potential therapeutic applications, including as a functional cure for HIV. The RNA polymerase III promoters H1, 7SK, and U6 have all been used to express shRNAs. However, there have been no direct and simultaneous comparisons of shRNA potency, expression level, and transcriptional profile between the promoters.

Cloning and Detection of Aptamer-Ribozyme Conjugations.

RNA aptamers can be used to target proteins or nucleic acids for therapeutic purposes and are candidates for RNA-mediated gene therapy. Like other small therapeutic RNAs, they can be expressed in cells from DNA templates that include a cellular promoter upstream of the RNA coding sequence. Secondary structures flanking aptamers can be used to enhance the activity or stability of these molecules.

A U1i RNA that Enhances HIV-1 RNA Splicing with an Elongated Recognition Domain Is an Optimal Candidate for Combination HIV-1 Gene Therapy.

U1 interference (U1i) RNAs can be designed to correct splicing defects and target pathogenic RNA, such as HIV-1 RNA. In this study, we show that U1i RNAs that enhance HIV-1 RNA splicing are more effective at inhibiting HIV-1 production compared to top U1i RNAs that inhibit polyadenylation of HIV-1 RNA. A U1i RNA was also identified targeting a site upstream of the first splice acceptor site in the Gag coding region that was effective at inhibiting HIV-1 production.

Small RNAs to treat human immunodeficiency virus type 1 infection by gene therapy.

Current drug therapies for human immunodeficiency virus type 1 (HIV) infection are effective in preventing progression to acquired immune deficiency syndrome but do not eliminate the infection and are associated with unwanted side effects. A potential alternative is to modify the genome of patient cells via gene therapy to confer HIV resistance to these cells. Small RNAs are the largest and most diverse group of anti-HIV genes that have been developed for engineering HIV resistant cells.

[B-cell non-Hodgkin lymphoma discovery after observation of a platelet satellitism around atypical lymphocytes].

We report the case of an 83-year-old woman admitted to the accident and emergency unit for pneumopathy. The blood cell count on the DXH automaton (Coulter® ™ UniCel® DxH) found a normochromic and normocytic anemia, anormal platelet count and subnormal leukocyte formula. The only alarm raised by the automaton was the presence of a basocytosis.

ADAR1 and PKR, interferon stimulated genes with clashing effects on HIV-1 replication.

The induction of hundreds of Interferon Stimulated Genes (ISGs) subsequent to virus infection generates an antiviral state that functions to restrict virus growth at multiple steps of their replication cycles. In the context of Human Immunodeficiency Virus-1 (HIV-1), ISGs also possess antiviral functions, but some ISGs show proapoptotic or proviral activity. One of the most studied ISGs, the RNA activated Protein Kinase (PKR), shuts down the viral protein synthesis upon activation.

Higher Cytopathic Effects of a Zika Virus Brazilian Isolate from Bahia Compared to a Canadian-Imported Thai Strain.

Zika virus (ZIKV) is an emerging pathogen from the family. It represents a significant threat to global health due to its neurological and fetal pathogenesis (including microcephaly and congenital malformations), and its rapid dissemination across Latin America in recent years. The virus has spread from Africa to Asia, the Pacific islands and the Americas with limited knowledge about the pathogenesis associated with infection in recent years.

RNA Interference Therapies for an HIV-1 Functional Cure.

HIV-1 drug therapies can prevent disease progression but cannot eliminate HIV-1 viruses from an infected individual. While there is hope that elimination of HIV-1 can be achieved, several approaches to reach a functional cure (control of HIV-1 replication in the absence of drug therapy) are also under investigation. One of these approaches is the transplant of HIV-1 resistant cells expressing anti-HIV-1 RNAs, proteins or peptides.

Inhibition of the inflammatory response to stress by targeting interaction between PKR and its cellular activator PACT.

PKR is a cellular kinase involved in the regulation of the integrative stress response (ISR) and pro-inflammatory pathways. Two N-terminal dsRNA Binding Domains (DRBD) are required for activation of PKR, by interaction with either dsRNA or PACT, another cellular DRBD-containing protein. A role for PKR and PACT in inflammatory processes linked to neurodegenerative diseases has been proposed and raised interest for pharmacological PKR inhibitors.

The interferon-induced protein kinase R: the base of a riboprotein scaffolding regulating the human immunodeficiency virus.

The interferon-induced RNA-activated Protein Kinase (PKR) targets the alpha subunit of the eukaryotic translation initiation factor 2 (eIF2α) whose phosphorylation blocks translation initiation of cellular and viral mRNAs. PKR is activated at the beginning of human immunodeficiency virus (HIV) infection by low levels of the HIV Transactivation Response (TAR) RNA and by the cellular PKR Activator (PACT), which contributes to a reduced viral replication. During HIV replication, the viral Tat protein and high production of TAR RNA decrease PKR activation.

The interferon-induced protein kinase R: the base of a riboprotein scaffolding regulating the human immunodeficiency virus.

The interferon-induced RNA-activated Protein Kinase (PKR) targets the alpha subunit of the eukaryotic translation initiation factor 2 (eIF2α) whose phosphorylation blocks translation initiation of cellular and viral mRNAs. PKR is activated at the beginning of human immunodeficiency virus (HIV) infection by low levels of the HIV Transactivation Response (TAR) RNA and by the cellular PKR Activator (PACT), which contributes to a reduced viral replication. During HIV replication, the viral Tat protein and high production of TAR RNA decrease PKR activation.

Evaluation of the Efficacy And Toxicity of RNAs Targeting HIV-1 Production for Use in Gene or Drug Therapy.

Small RNA therapies targeting post-integration steps in the HIV-1 replication cycle are among the top candidates for gene therapy and have the potential to be used as drug therapies for HIV-1 infection. Post-integration inhibitors include ribozymes, short hairpin (sh) RNAs, small interfering (si) RNAs, U1 interference (U1i) RNAs and RNA aptamers. Many of these have been identified using transient co-transfection assays with an HIV-1 expression plasmid and some have advanced to clinical trials.