BACKGROUND: Therapeutic intervention designed to block expression of human immunodeficiency virus (HIV) at a cellular level may slow the clinical progression of HIV-1 disease. MATERIALS AND METHODS: Cellular models of latent (OM-10.1 and U1) and chronic (8E5) HIV infection were used to evaluate two benzothiophene derivatives, PD 121871 and PD 144795, for an ability to inhibit HIV activation and expression. RESULTS: The benzothiophene derivatives were effective at micromolar concentrations in preventing tumor necrosis factor alpha (TNF alpha)-induced HIV-1 expression in OM 10.1 and U1 cultures. These compounds inhibited the activation of HIV-1 transcription; however, this inhibition was selective in that another TNF alpha-induced response, the transcription of autocrine TNF alpha, was unaffected. Constitutive HIV-1 expression by chronically infected 8E5 cells was also significantly reduced when treated with these experimental compounds. In TNF alpha-treated OM-10.1 cultures, the inhibition of HIV-1 transcription by these compounds was not due to a block of nuclear factor-kappa B induction. The benzothiophene derivatives also inhibited HIV-1 activation by phorbol ester treatment of OM-10.1 promyelocytes, although no inhibition of cellular differentiation toward a macrophage-like phenotype was observed. Furthermore, these experimental compounds induced a state of HIV-1 latency in cytokine-activated OM-10.1 cultures even when maintained under constant TNF alpha stimulation. The benzothiophene derivatives did not inhibit the activity of the HIV-1 trans-activator, Tat, when evaluated in transient transfection assays. CONCLUSIONS: The benzothiophene derivatives appear to inhibit a critical cellular component, distinct from nuclear factor-kappa B, involved in HIV transcription and may serve to identify new therapeutic targets to restrict HIV expression.
BACKGROUND: Therapeutic intervention designed to block expression of human immunodeficiency virus (HIV) at a cellular level may slow the clinical progression of HIV-1 disease. MATERIALS AND METHODS: Cellular models of latent (OM-10.1 and U1) and chronic (8E5) HIV infection were used to evaluate two benzothiophene derivatives, PD 121871 and PD 144795, for an ability to inhibit HIV activation and expression. RESULTS: The benzothiophene derivatives were effective at micromolar concentrations in preventing tumor necrosis factor alpha (TNF alpha)-induced HIV-1 expression in OM 10.1 and U1 cultures. These compounds inhibited the activation of HIV-1 transcription; however, this inhibition was selective in that another TNF alpha-induced response, the transcription of autocrine TNF alpha, was unaffected. Constitutive HIV-1 expression by chronically infected 8E5 cells was also significantly reduced when treated with these experimental compounds. In TNF alpha-treated OM-10.1 cultures, the inhibition of HIV-1 transcription by these compounds was not due to a block of nuclear factor-kappa B induction. The benzothiophene derivatives also inhibited HIV-1 activation by phorbol ester treatment of OM-10.1 promyelocytes, although no inhibition of cellular differentiation toward a macrophage-like phenotype was observed. Furthermore, these experimental compounds induced a state of HIV-1 latency in cytokine-activated OM-10.1 cultures even when maintained under constant TNF alpha stimulation. The benzothiophene derivatives did not inhibit the activity of the HIV-1 trans-activator, Tat, when evaluated in transient transfection assays. CONCLUSIONS: The benzothiophene derivatives appear to inhibit a critical cellular component, distinct from nuclear factor-kappa B, involved in HIV transcription and may serve to identify new therapeutic targets to restrict HIV expression.
Authors: X Wei; S K Ghosh; M E Taylor; V A Johnson; E A Emini; P Deutsch; J D Lifson; S Bonhoeffer; M A Nowak; B H Hahn Journal: Nature Date: 1995-01-12 Impact factor: 49.962
Authors: M Baba; M Okamoto; M Makino; Y Kimura; T Ikeuchi; T Sakaguchi; T Okamoto Journal: Antimicrob Agents Chemother Date: 1997-06 Impact factor: 5.191
Authors: J A Turpin; R W Buckheit; D Derse; M Hollingshead; K Williamson; C Palamone; M C Osterling; S A Hill; L Graham; C A Schaeffer; M Bu; M Huang; W M Cholody; C J Michejda; W G Rice Journal: Antimicrob Agents Chemother Date: 1998-03 Impact factor: 5.191
Authors: Luna Li; Satinder Dahiya; Sandhya Kortagere; Benjamas Aiamkitsumrit; David Cunningham; Vanessa Pirrone; Michael R Nonnemacher; Brian Wigdahl Journal: Adv Virol Date: 2012-07-30