[Mechanisms underlying chronic fatigue, a symptom too often overlooked II- From deregulated immunity to neuroinflammation and its consequences]. / Mécanismes sous-jacents à la fatigue chronique, un symptôme trop souvent négligé - II. De l'immunité dérégulée à la neuroinflammation et ses conséquences.

Hypothalamus stimulation by inflammatory and / or stress signals can trigger activation of the HPA (hypothalamic-pituitary-adrenal) axis, which includes the hypothalamus, pituitary and adrenal gland. Acute activation of the HPA axis is fundamental for the fight or flight response. It allows a maximal energy mobilization available for an effort, whilst erasing fatigue. On the contrary, the chronic activation of this axis decreases muscle efficiency and leads to chronic fatigue. In this second part of our review will be discussed several strategic points that need to be considered for attempting to understand and treat together inflammation and chronic fatigue.

TITLE: Mécanismes sous-jacents à la fatigue chronique, un symptôme trop souvent négligé - II. De l'immunité dérégulée à la neuroinflammation et ses conséquences. ABSTRACT: L'activation de l'hypothalamus par des signaux inflammatoires et/ou de stress peut déclencher celle de l'axe HPA (hypothalamic-pituitary-adrenal axis), qui intègre l'hypothalamus, l'hypophyse et la glande surrénale. L'activation aiguë de l'axe HPA est fondamentale pour la réponse fight or flight (« combats ou fuis ¼). Elle permet de mobiliser un maximum d'énergie pour un effort, tout en effaçant la fatigue. En revanche, son activation chronique diminue l'efficacité musculaire et entraîne une fatigue chronique. On discutera dans cette partie de plusieurs points stratégiques à considérer pour tenter de comprendre et de traiter ensemble inflammation et fatigue chroniques.

Combining Antivirals and Immunomodulators to Fight COVID-19.

The majority of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)-infected individuals remain paucisymptomatic, contrasting with a minority of infected individuals in danger of death. Here, we speculate that the robust disease resistance of most individuals is due to a swift production of type I interferon (IFNα/ß), presumably sufficient to lower the viremia. A minority of infected individuals with a preexisting chronic inflammatory state fail to mount this early efficient response, leading to a delayed harmful inflammatory response. To improve the epidemiological scenario, we propose combining: (i) the development of efficient antivirals administered early enough to assist in the production of endogenous IFNα/ß; (ii) potentiating early IFN responses; (iii) administering anti-inflammatory treatments when needed, but not too early to interfere with endogenous antiviral responses.