Steven W. Polyak scite author profile

Vascular endothelial growth factor (VEGF) is a key regulator of angiogenesis and post‐transcriptional regulation plays a major role in VEGF expression. Both the 5′‐ and 3′‐UTR are required for VEGF post‐transcriptional regulation but factors binding to functional sequences within the 5′‐UTR have not been fully characterized. We report here the identification of complexes, binding to the VEGFmRNA 5′‐ and 3′‐UTR, that contain cold shock domain (CSD) and polypyrimidine tract binding (PTB) RNA binding proteins. Analysis of the CSD/PTB binding sites revealed a potential role in VEGF mRNA stability, in both noninduced and induced conditions, demonstrating a general stabilizing function. Such a stabilizing mechanism had not been reported previously for the VEGF gene. We further found that the CSD/PTB‐containing complexes are large multiprotein complexes that are most likely preformed in solution and we demonstrate that PTB is associated with the VEGF mRNA in vivo. Complex formation between CSD proteins and PTB has not been reported previously. Analysis of the CSD/PTB RNA binding sites revealed a novel CSD protein RNA recognition site and also demonstrated that CSD proteins may direct the binding of CSD/PTB complexes. We found the same complexes binding to an RNA‐stabilizing element of another growth factor gene, suggesting a broader functional role for the CSD/PTB complexes. Finally, as the VEGF gene is also regulated at the transcriptional level by CSD proteins, we propose a combined transcriptional/post‐transcriptional role for these proteins in VEGF and other growth factor gene regulation.

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Halogenation of Biotin Protein Ligase Inhibitors Improves Whole Cell Activity against Staphylococcus aureus

Paparella

Lee

Hayes

et al. 2017

ACS Infect. Dis.

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We report the synthesis and evaluation of 5-halogenated-1,2,3-triazoles as inhibitors of biotin protein ligase from Staphylococcus aureus. The halogenated compounds exhibit significantly improved antibacterial activity over their nonhalogenated counterparts. Importantly, the 5-fluoro-1,2,3-triazole compound 4c displays antibacterial activity against S. aureus ATCC49775 with a minimum inhibitory concentration (MIC) of 8 μg/mL.

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Biotin Analogues with Antibacterial Activity Are Potent Inhibitors of Biotin Protein Ligase

Costa¹,

Tieu²,

Yap

et al. 2012

ACS Med. Chem. Lett.

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There is a desperate need to develop new antibiotic agents to combat the rise of drug-resistant bacteria, such as clinically important Staphylococcus aureus. The essential multifunctional enzyme, biotin protein ligase (BPL), is one potential drug target for new antibiotics. We report the synthesis and characterization of a series of biotin analogues with activity against BPLs from S. aureus, Escherichia coli, and Homo sapiens. Two potent inhibitors with K i < 100 nM were identified with antibacterial activity against a panel of clinical isolates of S. aureus (MIC 2-16 μg/mL). Compounds with high ligand efficiency and >20-fold selectivity between the isozymes were identified and characterized. The antibacterial mode of action was shown to be via inhibition of BPL. The bimolecular interactions between the BPL and the inhibitors were defined by surface plasmon resonance studies and X-ray crystallography. These findings pave the way for second-generation inhibitors and antibiotics with greater potency and selectivity.

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Biotin biosynthesis in Mycobacterium tuberculosis: physiology, biochemistry and molecular intervention

Salaemae¹,

Azhar²,

Booker³

et al. 2011

Protein Cell

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Steven W. Polyak

Selective inhibition of Biotin Protein Ligase from Staphylococcus aureus

A multi‐protein complex containing cold shock domain (Y‐box) and polypyrimidine tract binding proteins forms on the vascular endothelial growth factor mRNA

Halogenation of Biotin Protein Ligase Inhibitors Improves Whole Cell Activity against Staphylococcus aureus

Biotin Analogues with Antibacterial Activity Are Potent Inhibitors of Biotin Protein Ligase

Biotin biosynthesis in Mycobacterium tuberculosis: physiology, biochemistry and molecular intervention

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