COVID-19 and renin angiotensin system blockers
SARS-CoV-2 uses the angiotensin-converting enzyme ( ACE ) 2 receptor for entry into target cells.
ACE2 is predominantly expressed by epithelial cells of the lung, intestine, kidney, heart, and blood vessels.
Both ACE and ACE2 belong to the ACE family of dipeptidyl carboxydipeptidases and exert distinct physiological functions.
ACE cleaves angiotensin I to angiotensin II, which in turn binds and activates angiotensin II receptor type 1. This activation leads to vasoconstrictive, proinflammatory, and pro-oxidative effects.
In contrast, ACE2 also degrades angiotensin II to angiotensin 1-7 and angiotensin I to angiotensin 1-9. When angiotensin 1-9 binds to the Mas receptor, it leads to anti-inflammatory, antioxidative, and vasodilatory effects.
It is important to note that 2 forms of ACE2 exists: a structural transmembrane protein with extracellular domain that serves as a receptor for spike protein of SARS-CoV-2 and a soluble form that represents the circulating ACE2.
Understanding the relationship between SARS-CoV-2 and membranous and soluble ACE2 may help better understand the adaptive or maladaptive processes operative in COVID-19 infection.
Animal ( mice ) studies have shown that expression of ACE2 is substantially increased in patients treated with ACEIs [ angiotensin-converting enzyme inhibitors ] / ARBs [ angiotensin II receptor blockers; sartans ].
Similar to these observations, higher urinary ACE2 levels were seen in patients with hypertension treated with the ARB Olmesartan.
In another study, circulating ACE2 levels were increased in patients with diabetes treated with ACEIs.
Based on these observations, some experts have speculated that use of ACEIs / ARBs leading to increased expression of ACE2 could potentially facilitate infection with COVID-19.
A study by Liu et al [ Sci China Life Sci 2020 ] showed that serum angiotensin II levels in patients with COVID-19 pneumonia was significantly higher compared with healthy individuals and were linearly associated with viral load and lung injury.
Based on this, it can be postulated that SARS-CoV-2 binding to ACE2 may attenuate residual ACE2 activity, skewing the ACE/ACE2 balance to a state of heightened angiotensin II activity leading to pulmonary vasoconstriction and inflammatory and oxidative organ damage, which increases the risk for acute lung injury.
Conceivably, renin angiotensin system modulation, either by ACEIs / ARBs or recombinant ACE2, leading to increased expression of ACE2 may help mitigate some of these deleterious effects of angiotensin II.
It is also postulated that increased levels of soluble form of ACE2 may act as a competitive interceptor of SARS-CoV-2 and slow virus entry into the cells and protect from lung injury.
At the moment, there are no clinical data on the utility of initiating ACEI / ARB therapy in treating patients with COVID-19.
There is some evidence that ACEIs / ARBs may be beneficial in patients with acute lung injury or acute respiratory distress syndrome ( ARDS ).
In a meta-analysis of 37 studies, ACEIs and ARBs were associated with reduced risk of pneumonia and pneumonia-related mortality compared with control treatment.
In a small double-blind, placebo-controlled randomized clinical trial of 61 patients, those randomized to receive Enalaprilat ( up to 10 mg intravenously over 24 hours following a regimen based on blood pressure ) had numerically higher ventilator-free days ( 12.3 vs 8.7 days; P = 0.18 ) and days alive outside the intensive care unit ( 8.9 vs 4.9 days; P = 0.09 ) compared with those randomized to placebo. The trial did not complete its intended sample size owing to slow enrollment.
In a retrospective cohort study from Korea with 132 patients with ARDS, patients taking ACEIs / ARBs showed better survival compared with controls, albeit several confounding factors could have influenced the results.
In a subgroup of patients with severe COVID-19, hyperinflammation and cytokine storm syndrome led to acute respiratory failure from ARDS. What drives such intense hyperinflammation is not yet known; however, through upregulation of ACE2, ACEIs / ARBs can exert anti-inflammatory and antioxidative effects, which may be beneficial in preventing acute lung injury and ARDS.
Based on the pathophysiology of SARS-CoV-2 infection and pleiotropic effects of ACEIs / ARBs, these agents may have a potential role in the management of select patients with severe COVID-19.
Several professional societies have put forward their guidance regarding the use of ACEIs / ARBs in patients with COVID-19.
All guidelines recommend continuing ACEIs / ARBs in patients with COVID-19 unless clinically indicated.
Furthermore, they do not suggest initiation of ACEIs / ARBs in those without another clinical indication ( eg, hypertension, heart failure, diabetes ), given the lack of strong evidence showing benefit of these medications in COVID-19.
Epidemiological studies and prospective trials are urgently needed to investigate if use of ACEIs / ARBs can reduce the incidence or mortality associated with COVID-19–associated acute lung injury or ARDS, both in patients with and without additional clinical indications for ACEIs / ARBs. ( Xagena )
Source: JAMA, 2020
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