Deciphering the Neurosensory Olfactory Pathway and Associated Neo-Immunometabolic Vulnerabilities Implicated in COVID-Associated Mucormycosis (CAM) and COVID-19 in a Diabetes Backdrop—A Novel Perspective

IF 2.4 Q3 ENDOCRINOLOGY & METABOLISM

Diabetology Pub Date : 2022-03-04 DOI:10.3390/diabetology3010013

Maryada Sharma, H. Vanam, N. Panda, S. Patro, Rhythm Arora, S. Bhadada, S. Rudramurthy, Mini P. Singh, Purushotham Reddy Koppula

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引用次数: 3

Abstract

Recent Mucorales-mediated outbreaks of infections and an association of fungal infection with COVID-19 cases, as observed for COVID-19-associated mucormycosis (CAM), have posed new challenges for the management of patients in critical care units. Diabetes and hyperglycemia are integrally linked to the severity of COVID-19, and uncontrolled diabetes mellitus and COVID-19 have recently been (independently or in combination) associated with the emergence of aggressive mucormycosis due to attendant defects in innate immune recognition pathways. Therefore, the identification of novel global cellular stressors upregulated during diabetes to understand the contribution of diabetes-associated metabolic vulnerabilities can help build a Metabolic-Stress-Associated Interactome (MSAI). This interactome can help reshape the metabolic inflammation (meta-inflammation) underlying the clinical manifestations of COVID-19 to facilitate the rational design of effective therapies for COVID-19 and CAM. Accordingly, an important area of research in COVID-19 therapeutics is engaged with identifying diabetes-associated pan-cellular stressors to understand their role in immune deregulation during COVID-19 and CAM, including investigating the distant trans-neuro-vascular–endocrine axis’s role in coordinating cellular-stress recognition, transmission, compensation, and decompensation during inter-organ regulation of metabolic homeostasis in diabetes. We reviewed clinico-pathological and laboratory data to propose potential diabetes-linked novel neo-vulnerabilities that can reshape the olfactory mucosal immune landscape during airway infections such as COVID-19 and CAM.

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在糖尿病背景下解读与COVID-19相关的毛霉菌病(CAM)和COVID-19相关的神经感觉嗅觉通路和相关的新免疫代谢脆弱性——一个新的视角

最近在与COVID-19相关的毛霉病(CAM)中观察到的由毛霉介导的感染暴发以及真菌感染与COVID-19病例的关联，为重症监护病房患者的管理带来了新的挑战。糖尿病和高血糖与COVID-19的严重程度密切相关，最近，由于先天免疫识别途径的缺陷，不受控制的糖尿病和COVID-19(单独或联合)与侵袭性毛霉病的出现相关。因此，鉴定糖尿病期间上调的新的全局细胞应激源，以了解糖尿病相关代谢脆弱性的贡献，有助于建立代谢-应激相关相互作用组(MSAI)。该相互作用组有助于重塑COVID-19临床表现背后的代谢性炎症(meta-inflammation)，促进COVID-19和CAM有效治疗方案的合理设计。因此，COVID-19治疗的一个重要研究领域是识别糖尿病相关的泛细胞应激源，以了解其在COVID-19和CAM期间免疫失调中的作用，包括研究远端跨神经-血管-内分泌轴在糖尿病代谢稳态的器官间调节中协调细胞应激识别、传递、补偿和失代偿的作用。我们回顾了临床病理和实验室数据，提出了潜在的与糖尿病相关的新型脆弱性，这些脆弱性可以重塑呼吸道感染(如COVID-19和CAM)期间的嗅觉粘膜免疫景观。

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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来源期刊

Diabetology

CiteScore

2.50

自引率

0.00%

发文量