Noninvasive Diagnostic Method to Objectively Measure Olfaction and Diagnose Smell Disorders by a Molecularly Targeted Fluorescence Imaging Agent.

Dauren Adilbay, Junior Gonzales, Marianna Zazhytska, Paula Demetrio de Souza Franca, Sheryl Roberts, Tara D Viray, Raik Artschwager, Snehal Patel, Albana Kodra, Jonathan B Overdevest, Chun Yuen Chow, Glenn F King, Sanjay K Jain, Alvaro A Ordonez, Laurence S Carroll, Stavros Lomvardas, Thomas Reiner, Nagavarakishore Pillarsetty
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Abstract

Despite the recent advances in understanding the mechanisms of olfaction, no tools are currently available to noninvasively identify loss of smell. Because of the substantial increase in patients presenting with coronavirus disease 2019-related loss of smell, the pandemic has highlighted the urgent need to develop quantitative methods. Methods: Our group investigated the use of a novel fluorescent probe named Tsp1a-IR800P as a tool to diagnose loss of smell. Tsp1a-IR800P targets sodium channel 1.7, which plays a critical role in olfaction by aiding the signal propagation to the olfactory bulb. Results: Intuitively, we have identified that conditions leading to loss of smell, including chronic inflammation and coronavirus disease 2019, correlate with the downregulation of sodium channel 1.7 expression in the olfactory epithelium, both at the transcript and at the protein levels. We demonstrated that lower Tsp1a-IR800P fluorescence emissions significantly correlate with loss of smell in live animals-thus representing a potential tool for its semiquantitative assessment. Currently available methods rely on delayed subjective behavioral studies. Conclusion: This method could aid in significantly improving preclinical and clinical studies by providing a way to objectively diagnose loss of smell and therefore aid the development of therapeutic interventions.

利用分子靶向荧光成像剂客观测量嗅觉和诊断嗅觉障碍的无创诊断方法。
尽管近年来人们对嗅觉机制的了解取得了进展,但目前尚无工具可用于无创识别嗅觉丧失。由于出现与冠状病毒病 2019 年相关的嗅觉丧失的患者大幅增加,此次大流行凸显了开发定量方法的迫切需要。方法:我们小组研究了一种名为 Tsp1a-IR800P 的新型荧光探针作为诊断嗅觉丧失的工具。Tsp1a-IR800P靶向钠通道1.7,该通道通过帮助信号传播到嗅球而在嗅觉中发挥关键作用。结果我们直观地发现,导致嗅觉丧失的条件,包括慢性炎症和冠状病毒疾病2019年最新注册送彩金,与嗅上皮中钠离子通道 1.7 表达的下调有关,包括转录本和蛋白质水平。我们证明,较低的 Tsp1a-IR800P 荧光发射与活体动物的嗅觉丧失有显著相关性,因此是对嗅觉丧失进行半定量评估的潜在工具。目前可用的方法依赖于延迟的主观行为研究。结论这种方法可以提供一种客观诊断嗅觉丧失的方法,从而有助于开发治疗干预措施,从而大大改善临床前和临床研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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