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<span style="font-size:12.0pt; font-family:"Times New Roman",serif"><img width="600" height="171" id="x_Picture_x0020_3" alt="Dissertation Defense Announcement at the Cullen College of Engineering" style="width:6.25in; height:1.7812in" data-outlook-trace="F:1|T:1" src="cid:image005.jpg@01D845D5.17B10F60"></span><span style="font-size:12.0pt; font-family:"Times New Roman",serif"></span></p>
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<b><span style="font-size:16.0pt; font-family:"Times New Roman",serif; color:red; text-transform:uppercase">Pleiotropic Actions of Phenothiazine Drugs are Detrimental to Bacterial Persister Cells</span></b></p>
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<b><span style="font-size:13.5pt; font-family:"Times New Roman",serif">Sayed Golam Mohiuddin</span></b><span style="font-size:13.5pt; font-family:"Times New Roman",serif"></span></p>
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<span style="font-family:"Times New Roman",serif">November 22, 2022; 1:00 PM – 3:00 PM (CST)</span></p>
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<span style="font-family:"Times New Roman",serif"><br>
<b>Room:</b> Chemical Engineering Conference Room</span></p>
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<b><span style="font-family:"Times New Roman",serif">Committee Chair:</span></b><span style="font-family:"Times New Roman",serif"><br>
Mehmet Orman, Ph.D.</span></p>
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<b><span style="font-family:"Times New Roman",serif">Committee Members:</span></b><span style="font-size:10.0pt; font-family:"Times New Roman",serif"><br>
Michael Nikolaou, Ph.D. <b>| </b>Patrick Cirino, Ph.D. <b>|</b> Kevin Garey, Ph.D.
<b>|</b> Mehmet Sen, PhD.</span><span style="font-size:10.5pt; font-family:"Times New Roman",serif"></span></p>
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<b><span style="font-size:12.0pt; font-family:"Times New Roman",serif; color:#C8102E">Abstract</span></b><span style="font-size:12.0pt; font-family:"Times New Roman",serif; color:#C8102E"></span></p>
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<span style="font-family:"Times New Roman",serif; color:black"> Bacterial persister cells are temporarily tolerant to bactericidal antibiotics but are not necessarily dormant and may exhibit physiological activities leading to cell damage. Persistence
is a nonheritable trait by which normal growing cells switch phenotypically to antibiotic tolerant persister cells. This transient state enables persister cells to recover and grow into an antibiotic-sensitive population. Persister cells have been observed
in many pathogenic and nonpathogenic bacteria and ascribed as the reason behind the recurrent infections. Although persister eradication holds the potential to cure chronic infections, effective antipersister methods remain scarce. Therefore, we exploited
the link between fluoroquinolone-mediated SOS responses and persister cell recovery, and screened chemicals that target fluoroquinolone persisters in a high-throughput manner. Metabolic inhibitors (e.g., phenothiazines) combined with ofloxacin (OFX) perturbed
persister levels in metabolically active cell populations. When metabolically stimulated, intrinsically tolerant stationary phase cells also became OFX-sensitive in the presence of phenothiazines. The effects of phenothiazines on cell metabolism and physiology
are highly pleiotropic: at sublethal concentrations, phenothiazines reduce cellular metabolic, transcriptional, and translational activities; impair cell repair and recovery mechanisms; transiently perturb membrane integrity; and disrupt proton motive force
by dissipating the proton concentration gradient across the cell membrane. Screening a subset of mutant strains lacking membrane-bound proteins revealed the pleiotropic effects of phenothiazines potentially rely on their ability to inhibit a wide range of
critical metabolic proteins. Altogether, our study further highlights the complex roles of metabolism in persister cell formation, survival, and recovery, and suggests metabolic inhibitors such as phenothiazines can be selectively detrimental to persister
cells. </span></p>
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<span style="font-family:"Times New Roman",serif; color:black"> In the final project, we explored the effectiveness of proton motive force (PMF) inhibitors as a new treatment strategy to eliminate antibiotic-tolerant cells. Previous studies have shown
the usefulness of proton motive force (PMF) inhibitors at killing bacterial cells. Utilizing this knowledge, we used known PMF inhibitors and two different Methicillin-resistant
<i>Staphylococcus aureus</i> (MRSA) isolates, and showed that the bactericidal potency of PMF inhibitors seemed to correlate with their ability to disrupt PMF and permeabilize cell membranes. By screening a small chemical library to verify this correlation,
we identified a subset of chemicals (including nordihydroguaiaretic acid, gossypol, trifluoperazine, and amitriptyline) that strongly disrupted PMF in MRSA cells by dissipating either the transmembrane electric potential (ÄØ) or the proton gradient (ÄpH).
These drugs robustly permeabilized cell membranes and reduced MRSA cell levels below the limit of detection. Overall, our study further highlights the importance of cellular PMF as a target for designing new bactericidal therapeutics for pathogens.</span><span style="font-size:12.0pt; line-height:150%; font-family:"Times New Roman",serif">
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<span style="font-size:12.0pt; font-family:"Times New Roman",serif"><img width="600" height="82" id="x_Picture_x0020_4" alt="Engineered For What's Next" style="width:6.25in; height:.8541in" data-outlook-trace="F:1|T:1" src="cid:image006.jpg@01D845D5.17B10F60"></span><span style="font-size:12.0pt; font-family:"Times New Roman",serif"></span></p>
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