key: cord-0929190-fz5zc9sz
authors: Vrigkou, Eleni; Tsangaris, Iraklis; Bonovas, Stefanos; Tsantes, Argyrios; Kopterides, Petros
title: The evolving role of the renin–angiotensin system in ARDS
date: 2017-12-28
journal: Crit Care
DOI: 10.1186/s13054-017-1917-5
sha: bd108a54d3d8e9f2a2389a2ee26798259273fd3b
doc_id: 929190
cord_uid: fz5zc9sz

nan

of ACE2 via the MAS1 receptor (and not via the Ang II receptor type 1) could be implicated [2] . There are encouraging data from animal models on the positive effects of ACE2 in ARDS, but respective data involving humans are insufficient [2] .

In our study [3] , higher ACE levels were not associated with the oxygenation index, even though they (but not the D/D genotype, which relates to higher serum ACE levels) seemed to correlate with ARDS prognosis. Zambelli et al. [4] showed improved arterial oxygenation (although not clinically relevant) in an experimental ARDS model after administration of angiotensin-(1-7), but no difference in survival or pulmonary mechanics. In Khan et al.'s study [1] , administration of recombinant ACE2 in ARDS patients decreased Ang II levels without causing hypotension, but worsened respiratory mechanics. Khanna et al. [5] demonstrated in ATHOS-3 that Ang II administration in patients with vasodilatory shock increased blood pressure, without raising the risk for ARDS.

It is apparent that there are variable and often conflicting data in the current literature on the complex association between RAS and ARDS, which warrant the conduction of additional clinical trials to further elucidate its pathophysiological background and evaluate potential new treatments.

We are grateful for the comments of Vrigkou et al., and share their views regarding the need for more investigations into RAS biology in ARDS and other acutely ill patients. In addition to the well-documented effects on vascular tone and fluid/electrolyte homeostasis, the "classical" RAS system, through the action of Ang II and its receptor angiotensin receptor 1 (AT1R), elicits inflammation, oxidative stress, cellular apoptosis, and fibroproliferative responses [6] , all important components of ARDS pathophysiology. ACE2 has been shown to improve both pathophysiology and outcomes in various animal models of ARDS by reducing Ang II/AT1R signaling and activating the regulatory angiotensin-(1-7)/Mas1 pathway, as demonstrated by studies that administer ACE2 or angiotensin-(1-7) peptide alone [7, 8] .

In relation to the genetic evidence supporting a role for the RAS in human ARDS, we agree with Vrigkou et al. that the data are somewhat contradictory, probably because heterogeneity within ARDS cohorts hampers interpretation of genetic association studies. Despite this limitation, there are data from meta-analyses suggesting an association of the D-allele of the ACE gene with both ARDS risk [9] and mortality [3] . Together with work elucidating ACE2 as the receptor for the severe acute respiratory syndrome (SARS) coronavirus that caused uncharacteristically severe lung injury associated with profound depletion of ACE2 [10] , these data suggest an important role for ACE2 in ARDS pathophysiology.

Our pilot clinical trial was designed to establish preliminary safety and tolerability, with an emphasis on monitoring hemodynamic stability, and to define exposure-response relationships with the RAS system. As mentioned in our discussion, readers should exercise caution when interpreting the "effects" of study treatments on physiology and respiratory mechanics given the small sample size and the risk of ascertainment bias at later time points, where only a small number of patients contribute to point estimates and significant imbalances between groups are apparent.

Finally, the contrast with the ATHOS-3 trial [5] where Ang II infusions elicited acute improvements in MAP in patients with high-output shock is important. Rather than revealing a novel protective role of Ang II via its other receptor AT2R, we believe this confirms the well-established vasopressor effects of Ang II, mediated via AT1R. To rationalise whether classical RAS signaling is beneficial or harmful in acutely ill patients, more trials with Ang II and ACE2 are required to fully understand their longer-term safety profile, their impact on RAS and other biological systems, and their impact on organ failure and outcomes. In the meantime, we speculate that there may be a place for both therapies in different patient populations, with short-term repletion of Ang II in certain vasoplegic shock patients with low Ang II levels, and repletion of ACE2 in ARDS patients with a high Ang II/angiotensin-(1-7) ratio.

Abbreviations ACE: Angiotensin-converting enzyme; ACE2: Angiotensin-converting enzyme 2; Ang II: Angiotensin II; ARDS: Acute respiratory distress syndrome; RAS: Renin-angiotensin system

A pilot clinical trial of recombinant human angiotensin-converting enzyme 2 in acute respiratory distress syndrome

Angiotensin-converting enzyme 2 in acute respiratory distress syndrome

Effect of angiotensin converting enzyme gene I/D polymorphism and its expression on clinical outcome in acute respiratory distress syndrome

Angiotensin-(1-7) improves oxygenation, while reducing cellular infiltrate and fibrosis in experimental Acute Respiratory Distress Syndrome

Angiotensin II for the treatment of vasodilatory shock

The role of ACE2 in cardiovascular physiology

Angiotensin-converting enzyme 2 protects from lethal avian influenza A H5N1 infections

Angiotensin-(1-7) protects from experimental acute lung injury

Angiotensin-converting enzyme I/D polymorphism and acute respiratory distress syndrome

A crucial role of angiotensin converting enzyme 2 (ACE2) in SARS coronavirus-induced lung injury

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Authors' contributions EV, IT, SB, AT, and PK contributed to the concept, design, and writing of the manuscript. All authors read and approved the final manuscript.Ethics approval and consent to participate Not applicable.

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