Facile Access to Branched Multispecific Proteins.

Approaches that leverage orthogonal chemical reactions to generate protein-protein conjugates have expanded access to bespoke chimeras. Although the literature is replete with examples of the semisynthesis of bispecific proteins, few methods exist for the semisynthesis of protein conjugates of higher complexity (i.e.

and Characterization of the Anti-Zika Virus Activity of ProTides of 2'-C-β-Methylguanosine.

The ProTide approach has emerged as a powerful tool to improve the intracellular delivery of nucleotide analogs with antiviral and anticancer activity. Here, we characterized the anti-ZIKV (ZIKV, Zika virus) activity of two ProTides of 2'-C-β-methylguanosine. ProTide is a 2'-C-β-methylguanosine tryptamine phosphoramidate monoester, and ProTide is a 2-(methylthio)-ethyl-2'-C-β-methylguanosine tryptamine phosphoramidate diester.

Profiling of Small Ribosomal Subunits Reveals Modes and Regulation of Translation Initiation.

Translation initiation is often attributed as the rate-determining step of eukaryotic protein synthesis and key to gene expression control. Despite this centrality, the series of steps involved in this process is poorly understood. Here, we capture the transcriptome-wide occupancy of ribosomes across all stages of translation initiation, enabling us to characterize the transcriptome-wide dynamics of ribosome recruitment to mRNAs, scanning across 5' UTRs and stop codon recognition, in a higher eukaryote.

Repression of oncogenic cap-mediated translation by 4Ei-10 diminishes proliferation, enhances chemosensitivity and alters expression of malignancy-related proteins in mesothelioma.

Activated cap-dependent translation promotes cancer by stimulating translation of mRNAs encoding malignancy-promoting proteins. The nucleoside monophosphate Protide, 4Ei-10, undergoes intracellular uptake and conversion by Hint1 to form 7-Cl-Ph-Ethyl-GMP. 7-Cl-Ph-Ethyl-GMP is an analog of cap and inhibits protein translation by binding and sequestering eIF4E thus blocking eIF4E from binding to the mRNA cap.

Induction of the p53 Tumor Suppressor in Cancer Cells through Inhibition of Cap-Dependent Translation.

The p53 tumor suppressor plays a critical role in protecting normal cells from malignant transformation. Development of small molecules to reactivate p53 in cancer cells has been an area of intense research. We previously identified an internal ribosomal entry site (IRES) within the 5' untranslated region of p53 mRNA that mediates translation of the p53 mRNA independent of cap-dependent translation.

Anchimerically Activatable Antiviral ProTides.

This work describes the synthesis and biological evaluation of an anchimerically activated proTide of 2'--β-methylguanosine as an inhibitor of dengue virus 2 (DENV-2). The proTide incorporates a chemically cleavable 2-(methylthio)ethyl moiety and a HINT1 hydrolyzable tryptamine phosphoramidate. Inhibition of DENV-2 replication by proTide was 5-fold greater than the parent nucleoside while displaying no apparent cytotoxicity.

Anchimerically Activated ProTides as Inhibitors of Cap-Dependent Translation and Inducers of Chemosensitization in Mantle Cell Lymphoma.

The cellular delivery of nucleotides through various pronucleotide strategies has expanded the utility of nucleosides as a therapeutic class. Although highly successful, the highly popular ProTide system relies on a four-step enzymatic and chemical process to liberate the corresponding monophosphate. To broaden the scope and reduce the number of steps required for monophosphate release, we have developed a strategy that depends on initial chemical activation by a sulfur atom of a methylthioalkyl protecting group, followed by enzymatic hydrolysis of the resulting phosphoramidate monoester.

Small-molecule inhibition of oncogenic eukaryotic protein translation in mesothelioma cells.

Deranged cap-mediated translation is implicated in the genesis, maintenance and progression of many human cancers including mesothelioma. In this study, disrupting the eIF4F complex by antagonizing the eIF4E-mRNA-cap interaction is assessed as a therapy for mesothelioma. Mesothelioma cells were treated with 4Ei-1, a membrane permeable prodrug that when converted to the active drug, 7-benzyl guanosine monophosphate (7Bn-GMP) displaces capped mRNAs from the eIF4F complex.