Transcriptomic analysis of the effect of remote ischaemic conditioning in an animal model of necrotising enterocolitis
Transcriptomic analysis of the effect of remote ischaemic conditioning in an animal model of necrotising enterocolitis
Necrotising enterocolitis (NEC) has a complex pathophysiology but the common end-point is ischaemia reperfusion injury (IRI) and intestinal necrosis. We have previously reported that RIC significantly reduces the intestinal injury in a rat model of NEC. Here we describe the changes in intestinal mRNA occurring in the intestine of animals exposed to IRI, both with and without RIC. Related rat-pups were randomly assigned to four groups: SHAM, IRI only, RIC only and RIC + IRI. IRI animals, underwent 40 min of intestinal ischaemia, and 90 min of reperfusion. Animals that underwent RIC had three cycles of 5 min of alternating ischaemia/reperfusion by means of a ligature applied to the hind limb. Samples from the terminal ileum were immediately stored in RNA-preserving media for later next generation sequencing and transciptome analysis using R v 3.6.1. Differential expression testing showed that 868 genes differentially expressed in animals exposed to RIC alone compared to SHAM and 135 in the IRI and RIC group compared to IRI alone. Comparison between these two sets showed that 25 genes were differentially expressed in both groups. Pro-inflammatory molecules: NF-ĸβ2, Cxcl1, SOD2 and Map3k8 all show reduced expression in response to RIC. Targeted gene analysis revealed increased expression in PI3K which is part of the so-called RISK-pathway which is a key part of the protective mechanisms of RIC in the heart. Overall, this transcriptomic analysis shows that RIC provides a protective effect to the intestine via anti-inflammatory pathways. This could be particularly relevant to treating and preventing NEC.
Jones, Ian Howard
e9955bd6-d977-492e-93a6-c1c8043de0ab
Collins, Jane Elizabeth
be0e66f1-3036-47fa-9d7e-914c48710ba4
Hall, Nigel John
6919e8af-3890-42c1-98a7-c110791957cf
Heinson, Ashley Ivan
822775d1-9379-4bde-99c3-3c031c3100fb
11 May 2024
Jones, Ian Howard
e9955bd6-d977-492e-93a6-c1c8043de0ab
Collins, Jane Elizabeth
be0e66f1-3036-47fa-9d7e-914c48710ba4
Hall, Nigel John
6919e8af-3890-42c1-98a7-c110791957cf
Heinson, Ashley Ivan
822775d1-9379-4bde-99c3-3c031c3100fb
Jones, Ian Howard, Collins, Jane Elizabeth, Hall, Nigel John and Heinson, Ashley Ivan
(2024)
Transcriptomic analysis of the effect of remote ischaemic conditioning in an animal model of necrotising enterocolitis.
Scientific Reports, 14 (1), [10783].
(doi:10.1038/s41598-024-61482-9).
Abstract
Necrotising enterocolitis (NEC) has a complex pathophysiology but the common end-point is ischaemia reperfusion injury (IRI) and intestinal necrosis. We have previously reported that RIC significantly reduces the intestinal injury in a rat model of NEC. Here we describe the changes in intestinal mRNA occurring in the intestine of animals exposed to IRI, both with and without RIC. Related rat-pups were randomly assigned to four groups: SHAM, IRI only, RIC only and RIC + IRI. IRI animals, underwent 40 min of intestinal ischaemia, and 90 min of reperfusion. Animals that underwent RIC had three cycles of 5 min of alternating ischaemia/reperfusion by means of a ligature applied to the hind limb. Samples from the terminal ileum were immediately stored in RNA-preserving media for later next generation sequencing and transciptome analysis using R v 3.6.1. Differential expression testing showed that 868 genes differentially expressed in animals exposed to RIC alone compared to SHAM and 135 in the IRI and RIC group compared to IRI alone. Comparison between these two sets showed that 25 genes were differentially expressed in both groups. Pro-inflammatory molecules: NF-ĸβ2, Cxcl1, SOD2 and Map3k8 all show reduced expression in response to RIC. Targeted gene analysis revealed increased expression in PI3K which is part of the so-called RISK-pathway which is a key part of the protective mechanisms of RIC in the heart. Overall, this transcriptomic analysis shows that RIC provides a protective effect to the intestine via anti-inflammatory pathways. This could be particularly relevant to treating and preventing NEC.
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Accepted/In Press date: 6 May 2024
e-pub ahead of print date: 11 May 2024
Published date: 11 May 2024
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Local EPrints ID: 490018
URI: http://eprints.soton.ac.uk/id/eprint/490018
ISSN: 2045-2322
PURE UUID: 278050be-0a72-4572-b5f7-7c7a84da03f3
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Date deposited: 13 May 2024 16:48
Last modified: 17 Aug 2024 01:52
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Ian Howard Jones
Author:
Ashley Ivan Heinson
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