Regina Wilson scite author profile

d SQ109, a 1,2-diamine related to ethambutol, is currently in clinical trials for the treatment of tuberculosis, but its mode of action remains unclear. Here, we demonstrate that SQ109 disrupts cell wall assembly, as evidenced by macromolecular incorporation assays and ultrastructural analyses. SQ109 interferes with the assembly of mycolic acids into the cell wall core of Mycobacterium tuberculosis, as bacilli exposed to SQ109 show immediate inhibition of trehalose dimycolate (TDM) production and fail to attach mycolates to the cell wall arabinogalactan. These effects were not due to inhibition of mycolate synthesis, since total mycolate levels were unaffected, but instead resulted in the accumulation of trehalose monomycolate (TMM), the precursor of TDM and cell wall mycolates. In vitro assays using purified enzymes showed that this was not due to inhibition of the secreted Ag85 mycolyltransferases. We were unable to achieve spontaneous generation of SQ109-resistant mutants; however, analogs of this compound that resulted in similar shutdown of TDM synthesis with concomitant TMM accumulation were used to spontaneously generate resistant mutants that were also cross-resistant to SQ109. Whole-genome sequencing of these mutants showed that these all had mutations in the essential mmpL3 gene, which encodes a transmembrane transporter. Our results suggest that MmpL3 is the target of SQ109 and that MmpL3 is a transporter of mycobacterial TMM.

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Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis

Wilson

et al. 2013

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We report a new class of thiophene (TP) compounds that kill Mycobacterium tuberculosis (Mtb) by the novel mechanism of Pks13 inhibition. An F79S mutation near the catalytic Ser-55 site in Pks13 conferred TP-resistance in Mtb. Over-expression of wild-type pks13 resulted in TP-resistance and over-expression of the F79S pks13 mutant conferred high-level resistance. In vitro, TP inhibited fatty acyl-AMP loading onto Pks13. TP inhibited mycolic acid biosynthesis in wild-type Mtb, but to a much lesser extent in TP-resistant Mtb. TP treatment was bactericidal and equivalent to the first-line drug isoniazid, but it was less likely to permit emergent resistance. Combined isoniazid and TP treatment exhibited sterilizing activity. Computational-docking identified a possible TP-binding groove within the Pks13 ACP domain. This study confirms that Mtb Pks13 is required for mycolic acid biosynthesis, validates it as a druggable target and demonstrates the therapeutic potential of simultaneously inhibiting multiple targets in the same biosynthetic pathway.

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Role of the E1 ^∧ E4 Protein in the Differentiation-Dependent Life Cycle of Human Papillomavirus Type 31

Wilson

Fehrmann

Laimins

2005

J Virol

109

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The most highly expressed protein in the productive life cycle of human papillomaviruses (HPVs) is E1 ∧ E4, but its function is not well understood. To investigate the role of E1 ∧ E4, we undertook a genetic analysis in the context of the complete HPV type 31 (HPV31) genome. A mutant HPV31 genome (E4M9) was constructed that contained a stop codon in the E4 open reading frame at amino acid 9 and was silent in the overlapping E2 coding sequence. Wild-type and mutant genomes were transfected into normal human foreskin keratinocytes (HFKs) and selected for drug resistance, and pooled cultures were examined for effects of E1 ∧ E4 on viral functions. Southern blot analyses of transfected HFKs demonstrated that cells carrying the E4M9 mutant genomes were maintained as episomes at copy numbers similar to those in keratinocytes transfected with wild-type HPV31. Both sets of cells grew at similar rates, exhibited comparable extensions of life spans, and had equivalent levels of early transcripts. Following suspension of the cells in a semisolid medium, differentiation-dependent genome amplification and late gene expression were significantly decreased in cells maintaining the E4M9 mutant genome compared to those with wild-type HPV31. One explanation for these effects could be a reduction in the number of cells harboring mutant genomes that enter S phase upon differentiation. An analysis of cells containing E4M9 mutant genomes in organotypic raft cultures indicated a reduction in bromodeoxyuridine incorporation in differentiated suprabasal cells compared to that seen in wild-type rafts. Our results indicate that the HPV31 E1∧ E4 protein plays a significant role in promoting HPV genome amplification and S phase maintenance during differentiation.Human papillomaviruses (HPVs) are small double-stranded DNA viruses that infect cutaneous and mucosal epithelial tissues (22). Infection by HPVs induces a range of responses, from benign papillomas to invasive carcinoma. The HPV types that infect the genital epithelia are among the best characterized and are categorized as either high-or low-risk viruses based on their association with cervical cancer. The high-risk HPV types include types 16, 18, 31, 33, and 45, and these viral sequences are found in 99% of cervical carcinomas (33, 53). Low-risk HPVs are not associated with the development of malignancy but rather with benign genital warts and include HPV viral types 6 and 11 (5,52,53).Human papillomaviruses infect cells in the basal layer of stratified epithelium. Infection occurs through microlesions of the skin that expose basal cells to viral entry. Following entry, viral genomes are maintained as nuclear episomes at approximately 50 to 100 copies/cell (22). As infected basal cells divide, HPV episomes are coordinately replicated with cellular DNA and distributed to daughter cells. Following cell division, one daughter cell detaches from the basement membrane and migrates towards the suprabasal layers of the epithelium. This process occurs coordinately with cellular differentia...

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HPV31 E7 facilitates replication by activating E2F2 transcription through its interaction with HDACs

Longworth

Wilson

Laimins

2005

EMBO J

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The E7 proteins of human papillomaviruses (HPVs) contribute to oncogenesis by associating with Rb family members as well class I histone deacetylases (HDACs). The binding of HDACs is also important for the maintenance of viral episomes during the differentiation-dependent productive life cycle. The effects of E7 and other viral proteins on E2F family members were examined in differentiating keratinocytes. E7 was found to specifically activate E2F2 transcription in suprabasal keratinocytes through its ability to bind HDACs. Chromatin immunoprecipitation assays demonstrated that, in differentiating cells, E7 acts to inhibit HDAC binding to the E2F2 promoter resulting in activation of expression. Reduction of E2F2 levels through the use of siRNA confirmed that E2F2 expression facilitated HPV replication but its loss did not affect cell proliferation. Our study demonstrates a mechanism by which binding of HDACs to E7 directly modulates viral replication and identifies E2F2 as a possible target for antiviral therapies.

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Differentiation of HPV-Containing Cells Using Organotypic

Wilson

Laimins

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Regina Wilson

SQ109 Targets MmpL3, a Membrane Transporter of Trehalose Monomycolate Involved in Mycolic Acid Donation to the Cell Wall Core of Mycobacterium tuberculosis

Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis

Role of the E1 ^∧ E4 Protein in the Differentiation-Dependent Life Cycle of Human Papillomavirus Type 31

HPV31 E7 facilitates replication by activating E2F2 transcription through its interaction with HDACs

Differentiation of HPV-Containing Cells Using Organotypic

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Regina Wilson

SQ109 Targets MmpL3, a Membrane Transporter of Trehalose Monomycolate Involved in Mycolic Acid Donation to the Cell Wall Core of Mycobacterium tuberculosis

Antituberculosis thiophenes define a requirement for Pks13 in mycolic acid biosynthesis

Role of the E1 ∧ E4 Protein in the Differentiation-Dependent Life Cycle of Human Papillomavirus Type 31

HPV31 E7 facilitates replication by activating E2F2 transcription through its interaction with HDACs

Differentiation of HPV-Containing Cells Using Organotypic

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Product

Resources

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Role of the E1 ^∧ E4 Protein in the Differentiation-Dependent Life Cycle of Human Papillomavirus Type 31