A MULTI-HIT MODEL OF LONG COVID PATHOPHYSIOLOGY: THE INTERACTION BETWEEN IMMUNE TRIGGERS AND NERVOUS SYSTEM SIGNALING.

Malcolm V Brock, Frank Bosmans
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Abstract

Early in the pandemic, clinicians recognized an overlap between Long COVID symptoms and dysautonomia, suggesting autonomic nervous system (ANS) dysfunction. Our clinical experience at Johns Hopkins with primary dysautonomia suggested heritability of sympathetic dysfunction, manifesting primarily as hyperhidrosis and as other dysautonomia symptoms. Whole exome sequencing revealed mutations in genes regulating electrical signaling in the nervous system, thus providing a genetic basis for the sympathetic overdrive observed. We hypothesize that dysautonomia in Long COVID requires two molecular hits: a genetic vulnerability to prime the ANS and a SARS-CoV-2 infection, as an immune trigger, to further disrupt ANS function resulting in increased sympathetic activity. Indeed, Long COVID patients show signs of chronic inflammation and autoimmunity. We have translated this two-hit concept to the clinic using ion channel inhibitors to target genetic susceptibility and immunomodulators to treat inflammation. This multi-hit hypothesis shows promise for managing Long COVID and merits further study.

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长尾狸病理生理学的多重打击模型:免疫触发器与神经系统信号之间的相互作用。
在大流行病早期,临床医生发现长 COVID 症状与自律神经失调之间存在重叠,这表明存在自律神经系统 (ANS) 功能障碍。我们在约翰-霍普金斯大学治疗原发性自主神经功能障碍的临床经验表明,交感神经功能障碍具有遗传性,主要表现为多汗症和其他自主神经功能障碍症状。全外显子组测序发现了调节神经系统电信号转导的基因突变,从而为所观察到的交感神经功能亢进提供了遗传基础。我们假设,Long COVID 患者的自律神经失调症需要两个分子因素的共同作用:遗传易感性为自律神经系统提供能量,SARS-CoV-2 感染作为免疫触发因素,进一步破坏自律神经系统的功能,导致交感神经活动增加。事实上,长COVID患者表现出慢性炎症和自身免疫的迹象。我们利用离子通道抑制剂来针对遗传易感性,并使用免疫调节剂来治疗炎症,从而将这一 "双击 "概念应用于临床。这种多击假说有望治疗长COVID,值得进一步研究。
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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
57
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