Alexander Litovchick scite author profile

Ribozymes are thought to have played a pivotal role in the early evolution of life, but relatively few have been identified in modern organisms. We performed an in vitro selection aimed at isolating self-cleaving RNAs from the human genome. The selection yielded several ribozymes, one of which is a conserved mammalian sequence that resides in an intron of the CPEB3 gene, which belongs to a family of genes regulating messenger RNA polyadenylation. The CPEB3 ribozyme is structurally and biochemically related to the human hepatitis delta virus (HDV) ribozymes. The occurrence of this ribozyme exclusively in mammals suggests that it may have evolved as recently as 200 million years ago. We postulate that HDV arose from the human transcriptome.

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Encoded Library Synthesis Using Chemical Ligation and the Discovery of sEH Inhibitors from a 334-Million Member Library

Litovchick

Dumelin

Habeshian

et al. 2015

Sci Rep

103

116

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A chemical ligation method for construction of DNA-encoded small-molecule libraries has been developed. Taking advantage of the ability of the Klenow fragment of DNA polymerase to accept templates with triazole linkages in place of phosphodiesters, we have designed a strategy for chemically ligating oligonucleotide tags using cycloaddition chemistry. We have utilized this strategy in the construction and selection of a small molecule library, and successfully identified inhibitors of the enzyme soluble epoxide hydrolase.

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Neomycin B−Arginine Conjugate, a Novel HIV-1 Tat Antagonist: Synthesis and Anti-HIV Activities

et al. 2001

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HIV-1 transactivating protein Tat is essential for virus replication and progression of HIV disease. HIV-1 Tat stimulates transactivation by binding to HIV-1 transactivator responsive element (TAR) RNA, and while secreted extracellularly, it acts as an immunosuppressor, an activator of quiescent T-cells for productive HIV-1 infection, and by binding to CXC chemokine receptor type 4 (CXCR4) as a chemokine analogue. Here we present a novel HIV-1 Tat antagonist, a neomycin B-hexaarginine conjugate (NeoR), which inhibits Tat transactivation and antagonizes Tat extracellular activities, such as increased viral production, induction of CXCR4 expression, suppression of CD3-activated proliferation of lymphocytes, and upregulation of the CD8 receptor. Moreover, Tat inhibits binding of fluoresceine isothiocyanate (FITC)-labeled NeoR to human peripheral blood mononuclear cells (PBMC), indicating that Tat and NeoR bind to the same cellular target. This is further substantiated by the finding that NeoR competes with the binding of monoclonal Abs to CXCR4. Furthermore, NeoR suppresses HIV-1 binding to cells. Importantly, NeoR accumulates in the cell nuclei and inhibits the replication of M- and T-tropic HIV-1 laboratory isolates (EC(50) = 0.8-5.3 microM). A putative model structure for the TAR-NeoR complex, which complies with available experimental data, is presented. We conclude that NeoR is a multitarget HIV-1 inhibitor; the structure, and molecular modeling and dynamics, suggest its binding to TAR RNA. NeoR inhibits HIV-1 binding to cells, partially by blocking the CXCR4 HIV-1 coreceptor, and it antagonizes Tat functions. NeoR is therefore an attractive lead compound, capable of interfering with different stages of HIV infection and AIDS pathogenesis.

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