Abstract

Low-intensity pulsed ultrasound (LIPUS), a procedure historically used to stimulate bone healing and tissue repair, activates the splenic cholinergic anti-inflammatory pathway and ultimately reduces circulating and tissue-specific pro-inflammatory cytokine release if applied to the kidney prior to renal ischemia/reperfusion injury. We questioned whether LIPUS would be effective in reducing the inflammatory response to lipopolysaccharide (LPS) if exposure occurred as pre- or post-treatment. We hypothesized that LIPUS exposure before an LPS challenge would suppress the subsequent inflammatory response in mice, and that LIPUS exposure after an LPS challenge would be similarly beneficial. Female C57BL/6J mice were randomized into Saline, LPS, LPS/Pre-treatment and LPS/Post-treatment groups at 15 weeks of age. Pre-treated mice were subjected to 20-minute LIPUS exposure while under anesthesia for five consecutive days. On the 6th day, mice were injected with LPS (1 mg/kg dissolved in saline, IP) or saline (100 μL). One hour after LPS injection, post-treated mice were exposed to LIPUS for 20 min. Three hours after LPS or saline injection, all mice were humanely euthanized, and plasma, spleen and kidney were harvested for analysis of proinflammatory cytokines associated with the response to LPS. LPS significantly increased plasma TNF-α (280±37 vs. 0.07±0.00 pg/mL), plasma IL-6 (96124±6688 vs. 425±181 pg/mL), splenic IL-6 (0.77±0.16 vs. 0.17±0.04 pg/μg of protein), and renal cortical IL-6 (0.50±0.07 vs. 0.01±0.00 pg/μg of protein) compared to saline-treated mice (all p<0.05). LIPUS pre-treatment significantly reduced plasma TNF-α (183±15 pg/mL) and plasma IL-6 (63656±8441 pg/mL), without altering splenic and renal cytokines in LPS-treated mice. LIPUS post-treatment lowered plasma IL-6 (47432 ± 1182 pg/mL). In conclusion, five days of LIPUS exposure prior to an LPS challenge effectively reduced circulating inflammatory mediators, while a single LIPUS exposure after an LPS challenge also successfully reduced systemic IL-6. These findings demonstrate the potential in using LIPUS as a therapeutic strategy for quelling acute inflammatory responses and warrant further investigation of its use as a therapy for chronic inflammatory diseases. Studies funded by Department of Defense (LR210096) for KWM. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

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