30s Ribosomal Subunit Assembly Is a Target for Inhibition by Aminoglycosides in Escherichia Coli

Mehta, Roopal, Champney, W. Scott

02 May 2002

The aminoglycosides paromomycin and neomycin were examined in Escherichia coli cells for an inhibitory effect on 30S ribosomal subunit assembly. Both compounds inhibited the growth rate, viable cell number, and protein synthesis rate with similar 50% inhibitory concentrations. Each drug also showed a concentration-dependent inhibition of 30S subunit formation. The inhibitory effect on 30S particle formation was approximately equivalent to the inhibitory effect on translation for these antibiotics.

Biomedical Sciences

Telithromycin Inhibition of Protein Synthesis and 50s Ribosomal Subunit Formation in Streptococcus Pneumoniae Cells

Champney, W. Scott, Pelt, Jennifer

01 November 2002

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 IC50 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 IC50 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.

Biomedical Sciences

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

Champney, W. Scott, Pelt, Jennifer

01 September 2002

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 IC50 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 IC50 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.

Biomedical Sciences

Inhibition of 50S Ribosomal Subunit Assembly in Haemophilus Influenzae Cells by Azithromycin and Erythromycin

Champney, W. Scott, Miller, Mindy

01 June 2002

Azithromycin is an important antibiotic for the treatment of several different Gram-positive and Gram-negative bacterial infections. Erythromycin and clarithromycin are less useful antibiotics against Gram-negative infections. This difference in inhibitory activity was explored by comparing the effects of azithromycin and erythromycin on cellular functions in Haemophilus influenzae cells. Effects of both antibiotics on translation, cell viability, and growth rates have been measured. An IC50 of 0.4 μg/ml was found for the effects of azithromycin on each of these processes. For erythromycin, an IC50 of 1.5 μg/ml was observed, indicating a fourfold lower sensitivity of the organisms to this compound. The features of a second target for macrolide antibiotic inhibition in H. influenzae cells have also been examined. Inhibition of the synthesis of the large 50S ribosomal subunit was measured. Subunit formation was prevented in a concentration dependent fashion, with azithromycin showing a ninefold greater effect on this process compared with erythromycin. Synthesis of the 30S ribosomal subunit was not effected. Pulse and chase labeling kinetics confirmed the slower synthesis rate of the 50S particle in the presence of each antibiotic. The results are discussed in terms of the stronger effect of azithromycin on ribosome biosynthesis in this organism.

Biomedical Sciences

Linezolid Is a Specific Inhibitor of 50S Ribosomal Subunit Formation in Staphylococcus Aureus Cells

Champney, W. Scott, Miller, Mindy

01 May 2002

Linezolid is an oxazolidinone compound that has been shown to have impressive antimicrobial activity against a number of Gram-positive bacteria. It inhibits an initiation step of protein synthesis, and its binding site has been shown to be on the 50S ribosomal subunit. Linezolid was tested to see whether would interfere with the formation of the 50S subunit in Staphylococcus aureus cells, since a number of other 50S-specific antibiotics have this second inhibitory function. Linezolid inhibited protein synthesis in S. aureus cells with an IC50 of 0.3 μg/ml. A concentration-dependent decline in cell number with an increase in generation time was found. Pulse-chase labeling studies revealed a specific inhibitory effect on 50S particle formation, with no effect on 30S subunit assembly. The compound inhibited 50S synthesis with an IC50 of 0.6 μg/ ml, indicating an equivalent effect on translation and particle assembly. A postantibiotic effect of 1 h was found when cells were initially treated with the drug at 2 μg/ ml. 50S particle numbers recovered more rapidly than translational capacity, consistent with the increase in viable cell numbers. The inhibitory activities of this novel antimicrobial agent in cells are discussed.

Biomedical Sciences

Microvasculature of the Urinary Bladder of the Dog Studied With Light Microscopy, Electron Microscopy and Vascular Corrosion Casts

Ridner, C. W., Kao, R. L., Hossler, F. E.

01 January 2002

No description available.

Biomedical Sciences

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

Champney, W. Scott, Pelt, Jennifer, Tober, Craig L.

27 October 2001

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 μg/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 μg/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 μg/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.

Biomedical Sciences

Blocking Swelling-Activated Chloride Current Inhibits Mouse Liver Cell Proliferation

Wondergem, Robert, Gong, Wei, Monen, Scott H., Dooley, Sean N., Gonce, Joel L., Conner, Tracy D., Houser, Molly, Ecay, Tom W., Ferslew, Kenneth E.

01 May 2001

1. A non-transformed mouse liver cell line (AML12) was used to show that blocking swelling-activated membrane Cl- current inhibits hepatocyte proliferation. 2. Two morphologically distinguishable cell populations exhibited distinctly different responses to hypotonic stress. Hypotonic stress (from 280 to 221 mosmol kg-1) to rounded, dividing cells activated an ATP-dependent, outwardly rectifying, whole-cell Cl-current, which took 10 min to reach maximum conductance. A similar anionic current was present spontaneously in 20% of the dividing cells. Hypotonic stress to flattened, non-dividing cells activated no additional current. 3. The Eisenman halide permeability sequence of swelling-activated anionic current in the dividing cells was [[4. Addition of either 4,4′-diisothiocyanatostilbene-2,2′-disulfonate (DIDS), 5-nitro-2-(3-phenyl-propylamino) benzoic acid (NPPB), tamoxifen or mibefradil inhibited swelling-activated anionic current. Hyperosmolarity by added sucrose inhibited the spontaneous anionic current in dividing cells. [[5. Added Cl- channel blockers NPPB (IC50=40 μM), DIDS (IC50=31 μM), tamoxifen (IC50=1.3 μM) and mibefradil (IC50=7 μM) inhibited proliferative growth of AML12 as determined by cell counts over 4 days or by protein accumulation over 2 days. Only the inhibitory effects of NPPB and mibefradil reversed with the drug washout. Hyperosmolarity by added sucrose (50 and 100 mM) also inhibited cell proliferation. [[6. Of the hydrophobic inhibitors neither NPPB at 40 μM nor tamoxifen at 1.3 μM, added for 48 h, reduced cellular ATP; however, DIDS at 31 μM significantly reduced cellular ATP with an equivalent increase in cellular ADP. [[7. We conclude that those membrane Cl-currents that can be activated by hypotonic stress are involved in mechanisms controlling liver cell growth, and that NPPB, tamoxifen and mibefradil at their IC50 for growth do not suppress the metabolism of mouse hepatocytes.

Biomedical Sciences

Insidious Dopamine: Provocateur or Protective Agent in Parkinson's Disease?

Kostrzewa, R. M., Brus, R., Kostrzewa, J. P.

01 January 2001

No description available.

Biomedical Sciences

Neurotoxicity and Substance Abuse: Further Fuel for Regulatory Dilemma

Archer, Trevor, Palomo, Tomás, Kostrzewa, Richard M.

01 January 2001

No description available.

Biomedical Sciences