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DTSTART:19960101T000000 END:STANDARD BEGIN:STANDARD TZNAME:GMT TZOFFSETFROM:+0100 TZOFFSETTO:+0000 DTSTART:19961027T020000 RRULE:FREQ=YEARLY;BYMONTH=10;BYDAY=-1SU END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20260503T234338Z DTSTART;VALUE=DATE-TIME:20250922T133000 DTEND;VALUE=DATE-TIME:20250922T150000 SUMMARY:Cellular Interfaces Seminar: My Travels with Salmonella and Mike Sheetz: The Use of Low Frequency Ultrasound to treat Immune Senescence a nd other Age-related Maladies\, Professor Linda J. Kenney\, Mechanobiolo gics TZID:Europe/London UID:20250922-8ac672c4994b53fb01995256a6af2bc0@warwick.ac.uk CREATED:20250916T114354Z DESCRIPTION:Abstract: Accurately measuring fluctuating pH levels in bacte rial cells is vital for understanding their signaling pathways and patho genesis\, which is hindered by the lack of effective pH probes. We emplo yed mCherryTYG\, a genetically-encoded fluorescent probe\, coupled with Fluorescence Lifetime Imaging Microscopy (FLIM) to map pH changes in bac teria and their associated bacterial lifestyles. We measured pH fluctuat ions in diverse environments\, including Salmonella-containing vacuoles\ , in biofilms\, and in heterologous hosts the nematode C. elegans\, and zebrafish Danio rerio1. Salmonella enterica serovar Typhi is the causati ve agent of typhoid fever\, a human-restricted systemic infection. We co mpared the H58 response (a rapidly expanding serovar) in vitro and durin g infection of THP-1 human macrophages with the well-characterized Salmo nella Typhimurium\, which causes gastroenteritis. In response to acid st ress\, the sulfur assimilation pathway was highly upregulated and unique to H58. In acidic pH\, H58 was more oxidized\; the sulfur assimilation pathway mitigated the redox stress. We emphasize the importance of study ing S. Typhi strains directly to understand their unique behavior during pathogenesis2. The presence of senescent cells causes age-related patho logies\, since their removal by genetic or pharmacological means improve s outcomes in animal models. An alternative to depleting such cells is t o rejuvenate them to promote their return to a replicative state. Treatm ent of non-growing senescent cells with low-frequency ultrasound (LFU) r ejuvenated cells for growth. Notably\, 15 characteristics of senescent c ells were reversed by LFU. Mechanistically\, LFU causes Ca2+ entry and i ncreased actin dynamics\, increases autophagy and inhibits mTORC1 signal ing. LFU treatment increased mouse lifespan and healthspan3. Mice fed a high fat\, high sucrose diet combined with streptozotocin developed insu lin resistance and diabetes. Transcriptomic analysis indicated that LFU primarily reduced inflammatory and immune-related gene expression\, by p romoting a shift toward an anti-inflammatory (M2) macrophage profile4. E lderly populations are susceptible to infection due to immune senescence \; we explored the effect of LFU prior to infecting aged mice with Salmo nella. Colonization was significantly reduced when old mice were treated with LFU. Chemokine analysis revealed a significant increase in ICAM-1\ , SDF-1\, and KC/CXCL1 in aged\, treated mice. Ultrasound treatment reju venated the immune system in old mice\, reducing their susceptibility to Salmonella infection5. Taken together\, these results indicate that mec hanically induced pressure waves alone can reverse senescence and aging effects at the cellular and organismal level\, providing a non-pharmacol ogical way to treat the effects of aging. 1. Singh\, M. K.\; Fernandez\, M.\; Dilawari\, R.\; Zangoui\, P.\; Kenney\, L. J.\, FLIM of mCherryTYG Deciphers pH Dynamics and Lifestyles of Salmonella Typhimurium. ACS Sen s 2025\, 10 (6)\, 4232-4243. 2. Fernandez\, M.\; Yamanaka\, Y.\; Zangoui \, P.\; White\, M. A.\; Kenney\, L. J.\, The sulfur assimilation pathway mitigates redox stress from acidic pH in Salmonella Typhi H58. mBio 202 5\, 16 (7)\, e0046725. 3. Kureel\, S. K.\; Maroto\, R.\; Aniqua\, M.\; P owell\, S.\; Singh\, E.\; Margadant\, F.\; Blair\, B.\; Rasmussen\, B. B .\; Sheetz\, M. P.\, Rejuvenation of Senescent Cells\, In Vitro and In V ivo\, by Low-Frequency Ultrasound. Aging Cell 2025\, e70008. 4. Marchant \, E. D.\; Singh\, E.\; Kureel\, S.\; Blair\, B.\; Kalenta\, H.\; Von Ru ff\, Z. D.\; Weldon\, K. S.\; Lai\, Z.\; Sheetz\, M. P.\; Rasmussen\, B. B.\, Low-Frequency Ultrasound Reverses Insulin Resistance and Diabetes Induced Changes in the Muscle Transcriptome in Aged Mice. Am J Physiol E ndocrinol Metab 2025. 5. Zangoui\, P.\; Singh\, E.\; Sheetz\, M. P.\; Ke nney\, L. J.\, Low-frequency ultrasound treatment reduces susceptibility to Salmonella infection in aged mice. J Bacteriol 2025\, e0017625. LOCATION:GLT1\, Medical School Building URL: ATTACH: CATEGORIES:BiomedicalSciences,Cellular Interfaces Seminar,Directorate Sem inars LAST-MODIFIED:20250916T114354Z ORGANIZER;CN=Jas Bains: END:VEVENT END:VCALENDAR