Indoleamine 2,3-Dioxygenase Deletion to Modulate Kynurenine Pathway and to Prevent Brain Injury after Cardiac Arrest in Mice-Reference-Cited by-同舟云学术

Indoleamine 2,3-Dioxygenase Deletion to Modulate Kynurenine Pathway and to Prevent Brain Injury after Cardiac Arrest in Mice

Published:2023-07-24 Issue:5 Volume:139 Page:628-645
ISSN:0003-3022
Container-title:Anesthesiology
language:en
Short-container-title:

Author:

Magliocca Aurora¹^ORCID,Perego Carlo²,Motta Francesca³^ORCID,Merigo Giulia⁴,Micotti Edoardo⁵,Olivari Davide⁶,Fumagalli Francesca⁷,Lucchetti Jacopo⁸,Gobbi Marco⁹,Mandelli Alessandra¹⁰,Furlan Roberto¹¹,Skrifvars Markus B.¹²,Latini Roberto¹³,Bellani Giacomo¹⁴,Ichinose Fumito¹⁵,Ristagno Giuseppe¹⁶

Affiliation:

1. 1Department of Pathophysiology and Transplants, University of Milan, Milan, Italy; and Department of Cardiovascular Medicine, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

2. 2Department of Cardiovascular Medicine, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

3. 3Department of Cardiovascular Medicine, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

4. 4Department of Anesthesia, Critical Care and Emergency, Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico, Milan, Italy.

5. 5Department of Neuroscience, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

6. 6Department of Cardiovascular Medicine, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

7. 7Department of Cardiovascular Medicine, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

8. 8Department of Biochemistry and Molecular Pharmacology, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

9. 9Department of Biochemistry and Molecular Pharmacology, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

10. 10Clinical Neuroimmunology Unit, Division of Neuroscience, Institute of Experimental Neurology–INSpe, San Raffaele Scientific Institute, Milan, Italy.

11. 11Clinical Neuroimmunology Unit, Division of Neuroscience, Institute of Experimental Neurology–INSpe, San Raffaele Scientific Institute, Milan, Italy.

12. 12Department of Emergency Care and Services, Helsinki University Hospital and University of Helsinki, Finland.

13. 13Department of Cardiovascular Medicine, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

14. 14Centre for Medical Sciences−CISMed, University of Trento, Italy; and Department of Anesthesia and Intensive Care, Santa Chiara Hospital, Trento, Italy.

15. 15Anesthesia Center for Critical Care Research of the Department of Anesthesia, Critical Care and Pain Medicine, Massachusetts General Hospital, Boston, Massachusetts; and Harvard Medical School, Boston, Massachusetts.

16. 16Department of Pathophysiology and Transplants, University of Milan, Milan, Italy; and Department of Anesthesia, Critical Care and Emergency, Fondazione IRCCS Ca’ Granda−Ospedale Maggiore Policlinico, Milan, Italy.

Abstract

Background The catabolism of the essential amino acid tryptophan to kynurenine is emerging as a potential key pathway involved in post–cardiac arrest brain injury. The aim of this study was to evaluate the effects of the modulation of kynurenine pathway on cardiac arrest outcome through genetic deletion of the rate-limiting enzyme of the pathway, indoleamine 2,3-dioxygenase. Methods Wild-type and indoleamine 2,3-dioxygenase–deleted (IDO−/−) mice were subjected to 8-min cardiac arrest. Survival, neurologic outcome, and locomotor activity were evaluated after resuscitation. Brain magnetic resonance imaging with diffusion tensor and diffusion-weighted imaging sequences was performed, together with microglia and macrophage activation and neurofilament light chain measurements. Results IDO−/− mice showed higher survival compared to wild-type mice (IDO−/− 11 of 16, wild-type 6 of 16, log-rank P = 0.036). Neurologic function was higher in IDO−/− mice than in wild-type mice after cardiac arrest (IDO−/− 9 ± 1, wild-type 7 ± 1, P = 0.012, n = 16). Indoleamine 2,3-dioxygenase deletion preserved locomotor function while maintaining physiologic circadian rhythm after cardiac arrest. Brain magnetic resonance imaging with diffusion tensor imaging showed an increase in mean fractional anisotropy in the corpus callosum (IDO−/− 0.68 ± 0.01, wild-type 0.65 ± 0.01, P = 0.010, n = 4 to 5) and in the external capsule (IDO−/− 0.47 ± 0.01, wild-type 0.45 ± 0.01, P = 0.006, n = 4 to 5) in IDO−/− mice compared with wild-type ones. Increased release of neurofilament light chain was observed in wild-type mice compared to IDO−/− (median concentrations [interquartile range], pg/mL: wild-type 1,138 [678 to 1,384]; IDO−/− 267 [157 to 550]; P < 0.001, n = 3 to 4). Brain magnetic resonance imaging with diffusion-weighted imaging revealed restriction of water diffusivity 24 h after cardiac arrest in wild-type mice; indoleamine 2,3-dioxygenase deletion prevented water diffusion abnormalities, which was reverted in IDO−/− mice receiving l-kynurenine (apparent diffusion coefficient, μm2/ms: wild-type, 0.48 ± 0.07; IDO−/−, 0.59 ± 0.02; IDO−/− and l-kynurenine, 0.47 ± 0.08; P = 0.007, n = 6). Conclusions The kynurenine pathway represents a novel target to prevent post–cardiac arrest brain injury. The neuroprotective effects of indoleamine 2,3-dioxygenase deletion were associated with preservation of brain white matter microintegrity and with reduction of cerebral cytotoxic edema. Editor’s Perspective What We Already Know about This Topic What This Article Tells Us That Is New

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Anesthesiology and Pain Medicine

Link

https://pubs.asahq.org/anesthesiology/article-pdf/139/5/628/696123/20231100.0-00015.pdf

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