Jennifer Pelt scite author profile

Viral gene delivery for spinal cord injury (SCI) is a promising approach for enhancing axonal regeneration and neuroprotection. An understanding of spatio-temporal transgene expression in the spinal cord is essential for future studies of SCI therapies. Commonly, intracellular marker proteins (e.g., EGFP) were used as indicators of transgene levels after viral delivery, which may not accurately reflect levels of secreted transgene. This study examined transgene expression using ELISA after viral delivery of D15A, a neurotrophin with BDNF and NT-3 activities, at 1, 2, and 4weeks after in vivo and ex vivo delivery using lentiviral, adenoviral, and retroviral vectors. Further, the inflammatory responses and viral infection patterns after in vivo delivery were examined. Lentiviral vectors had the most stable pattern of gene expression, with D15A levels of 536 +/- 38 and 363 +/- 47 pg/mg protein seen at 4 weeks after the in vivo and ex vivo delivery, respectively. Our results show that protein levels downregulate disproportionately to levels of EGFP after adenoviral vectors both in vivo and ex vivo. D15A dropped from initial levels of 422 +/- 87 to 153 +/- 18 pg/mg protein at 4 weeks after in vivo administration. Similarly, ex vivo retrovirus-mediated transgene expression exhibited rapid downregulation by 2 weeks post-grafting. Compared to adenoviral infection, macrophage activation was attenuated after lentiviral infection. These results suggest that lentiviral vectors are most suitable in situations where stable long-term transgene expression is needed. Retroviral ex vivo delivery is optional when transient expression within targeted spinal tissue is desired, with adenoviral vectors in between.

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The Ketolide Antibiotic ABT-773 Is a Specific Inhibitor of Translation and 50S Ribosomal Subunit Formation in Streptococcus pneumoniae Cells

Champney

Pelt

2002

Current Microbiology

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ABT-773 is a new 3-keto macrolide antibiotic that has been shown to be very effective against infections by Gram-positive microorganisms. This work examines its inhibitory effects in cells of Streptococcus pneumoniae. ABT-773 caused a proportional decline in cell growth rates and viability with an IC(50) of 5 ng/ml. Protein synthesis in these cells was reduced by 50% at an antibiotic concentration of 2.5 ng/ml. This compound was also found to be a very effective inhibitor of the formation of the 50S ribosomal subunit in growing cells. Pulse and chase labeling assays revealed a reduced rate of 50S synthesis in antibiotic-treated cells. At 2 ng/ml, the rate was reduced to 33% of the control synthesis rate. An IC(50) of 5 ng/ml was found for the effect on this process, indicating an equal effect of the drug on translation and assembly. Synthesis of the 30S ribosomal subunit was unaffected by this antibiotic. The effects of ABT-773 in S. pneumoniae are compared with those of the related ketolide antibiotic telithromycin in S. pneumoniae and in Staphylococcus aureus.

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Flavanone 3-hydroxylase expression in Citrus paradisi and Petunia hybrida seedlings

et al. 2003

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TAN-1057A: A Translational Inhibitor with a Specific Inhibitory Effect on 50S Ribosomal Subunit Formation

2001

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The inhibitory activities of a novel antibiotic compound have been investigated. A synthetic version of the natural product TAN-1057A was examined for its effects on translation and ribosomal subunit formation. The antibiotic at 6 microg/ml reduced the growth rate of wild-type Staphylococcus aureus cells by 50%. The IC50 for inhibition of protein synthesis in these cells was 4.5 microg/ml. Pulse and chase labeling kinetics showed a strong inhibitory effect on 50S ribosomal subunit formation as well. The IC50 for this process was 9 microg/ml, indicating an equivalent inhibitory effect of the antibiotic on translation and 50S synthesis. The post-antibiotic effect of the drug was investigated. Protein synthesis resumed rapidly after removal of the drug from cells, but full recovery of the normal 50S subunit complement in treated cells required 1.5 h. The dual inhibitory effects of this compound are compared with other antimicrobial agents having similar effects on cell growth.

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Telithromycin Inhibition of Protein Synthesis and 50S Ribosomal Subunit Formation in Streptococcus pneumoniae Cells

Champney

Pelt

2002

Current Microbiology

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The new ketolide antibiotic telithromycin (HMR3647) has been examined for inhibitory effects in cells of Streptococcus pneumoniae. The antibiotic caused a proportional decline in cell growth rate and viability with an IC(50) of 15 ng/ml. At a concentration of 7.5 ng/ml, protein synthesis in these cells was reduced by 50%. As seen in other organisms, this compound was also a very effective inhibitor of the formation of the 50S ribosomal subunit in growing cells. Pulse and chase labeling assays defined the reduced rate of 50S synthesis in antibiotic treated cells. At 7.5 ng/ml the rate was reduced to 50% of the control synthesis rate. An IC(50) of 15 ng/ml was found for the effect on this process. 30S ribosomal subunit formation was unaffected by the antibiotic. Inhibition of translation and 50S particle formation are equivalent targets for this antibiotic. The effects of telithromycin in S. pneumoniae are compared with those found in Staphylococcus aureus cells.

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Jennifer Pelt

Gene delivery to the spinal cord: Comparison between lentiviral, adenoviral, and retroviral vector delivery systems

The Ketolide Antibiotic ABT-773 Is a Specific Inhibitor of Translation and 50S Ribosomal Subunit Formation in Streptococcus pneumoniae Cells

Flavanone 3-hydroxylase expression in Citrus paradisi and Petunia hybrida seedlings

TAN-1057A: A Translational Inhibitor with a Specific Inhibitory Effect on 50S Ribosomal Subunit Formation

Telithromycin Inhibition of Protein Synthesis and 50S Ribosomal Subunit Formation in Streptococcus pneumoniae Cells

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