Emerging mechanisms of organ crosstalk: the role of oxylipins
Emerging mechanisms of organ crosstalk: the role of oxylipins
There is growing interest in the role of oxylipins in the pathophysiology of several diseases. This is accompanied by a limited but evolving evidence base describing augmented oxylipin concentrations in a range of complications including cardiovascular disease, obesity, liver disease and neurological disorders. Despite this, literature describing oxylipin profiles in blood and multiple organs is inconsistent and the mechanisms by which these profiles are altered, and the relationships between localised tissue and circulating oxylipins is poorly understood. Inflammation and immune response associated with disease, requires communication across organs and physiological systems. For example, inflammation and comorbidities associated with obesity extend beyond the adipose tissue and affect the vascular, hepatobiliary, and digestive systems amongst others. Communication between organs and physiological systems is implicated in the progression of disease as well as maintenance of homeostasis. There is emerging evidence for the role of oxylipins as a mechanism of communication in organ crosstalk but the role of these in orchestrating multiple organ and system responses is poorly understood. Herein, we review evidence to support and describe the role of oxylipins in organ crosstalk via the cardiosplenic and gut-link axis. In addition, we review emerging mechanisms of oxylipin regulation, the gut microbiome and modification using nutritional intervention. Finally, we describe future perspectives for addressing challenges in measurement and interpretation of oxylipin research with focus on the host genome as a modifier of oxylipin profiles and response to dietary lipid intervention.
Fisk, Helena
2483d346-75dd-41b3-a481-10f8bb39cd9f
Shaikh, Saame Raza
a8abc9f9-dfc3-4954-8b1c-8018d875132e
Fisk, Helena
2483d346-75dd-41b3-a481-10f8bb39cd9f
Shaikh, Saame Raza
a8abc9f9-dfc3-4954-8b1c-8018d875132e
Fisk, Helena and Shaikh, Saame Raza
(2024)
Emerging mechanisms of organ crosstalk: the role of oxylipins.
Nutrition Bulletin.
(doi:10.1111/nbu.12726).
Abstract
There is growing interest in the role of oxylipins in the pathophysiology of several diseases. This is accompanied by a limited but evolving evidence base describing augmented oxylipin concentrations in a range of complications including cardiovascular disease, obesity, liver disease and neurological disorders. Despite this, literature describing oxylipin profiles in blood and multiple organs is inconsistent and the mechanisms by which these profiles are altered, and the relationships between localised tissue and circulating oxylipins is poorly understood. Inflammation and immune response associated with disease, requires communication across organs and physiological systems. For example, inflammation and comorbidities associated with obesity extend beyond the adipose tissue and affect the vascular, hepatobiliary, and digestive systems amongst others. Communication between organs and physiological systems is implicated in the progression of disease as well as maintenance of homeostasis. There is emerging evidence for the role of oxylipins as a mechanism of communication in organ crosstalk but the role of these in orchestrating multiple organ and system responses is poorly understood. Herein, we review evidence to support and describe the role of oxylipins in organ crosstalk via the cardiosplenic and gut-link axis. In addition, we review emerging mechanisms of oxylipin regulation, the gut microbiome and modification using nutritional intervention. Finally, we describe future perspectives for addressing challenges in measurement and interpretation of oxylipin research with focus on the host genome as a modifier of oxylipin profiles and response to dietary lipid intervention.
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Accepted/In Press date: 20 November 2024
e-pub ahead of print date: 10 December 2024
Identifiers
Local EPrints ID: 497097
URI: http://eprints.soton.ac.uk/id/eprint/497097
ISSN: 1471-9827
PURE UUID: e8470b19-9582-40e2-85a1-1b3a6450917f
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Date deposited: 14 Jan 2025 16:21
Last modified: 22 Aug 2025 02:07
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Author:
Helena Fisk
Author:
Saame Raza Shaikh
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