Previous studies have suggested that the exercise pressor reflex is exaggerated in individuals with type 1 diabetes mellitus (T1DM); however, the mechanisms responsible for this altered reflex are poorly understood. Acid-sensing ion channel 3 (ASIC3) likely contributes to this exaggeration as previous studies found that peripheral blockade, as well as functional knockout (KO) of the ASIC3 gene, prevented the exaggeration of exercise pressor reflex in rats with cardiovascular-related diseases. However, whether ASIC3 plays a similar role in the exaggerated exercise pressor reflex in T1DM is currently unknown. Therefore, the purpose of this study was to determine whether ASIC3 contributes to the exaggerated exercise pressor reflex in T1DM rats. We hypothesized that the exaggerated exercise pressor reflex would be attenuated in ASIC3 KO T1DM rats compared to their wild-type (WT) counterparts. To test this, we used adult, male and female Wistar-Kyoto ASIC3 KO (n=3; body weight: 348 ± 84 g) and WT counterparts (n=5; body weight: 318 ± 112 g) rats. Streptozotocin (50 mg/kg) was injected intraperitoneally in fasted anesthetized rats to induce T1DM, and a random blood glucose over 300 mg/dl was used to diagnose diabetes. One week later, the exercise pressor reflex was evoked in unanesthetized, decerebrated rats by statically contracting the hindlimb muscles for 30 s. Peak mean arterial pressure (MAP) and heart rate (HR) were calculated as the highest change (Δ) during 30 s contraction baseline. We found that the peak pressor and cardioaccelerator responses to static contraction, although is not statistically significant, appear to be lower in ASIC3 KO (ΔMAP: 17 ± 14 mmHg; ΔHR: 13 ± 12 bpm), compared to WT rats (ΔMAP: 23 ± 11 mmHg; P=0.26 ΔHR:23 ± 9 bpm; P=0.11). Furthermore, we found that within female rats, the peak pressor and heart rate responses were lower in ASIC3 KO (n=1) rat (ΔMAP: 7 mmHg; ΔHR: 15 bpm) compared to WT rats (n=3) (ΔMAP: 27 ± 12 mmHg; ΔHR: 27 ± 11 bpm). Our preliminary findings suggest that ASIC3 may play a role in the exaggerated exercise pressor reflex in T1DM rats and that sex differences may also be present. Further studies involving larger sample sizes will reveal if trends from the current results become significant. This project was supported by NIH R01HL 166323-01A1. 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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