Interference of Interleukin-1β Mediated by Lentivirus Promotes Functional Recovery of Spinal Cord Contusion Injury in Rats via the PI3K/AKT1 Signaling Pathway

Interference of Interleukin-1β Mediated by Lentivirus Promotes Functional Recovery of Spinal Cord Contusion Injury in Rats via the PI3K/AKT1 Signaling Pathway

Purpose. Inflammation and apoptosis after spinal cord contusion (SCC) are important causes of irreversible spinal cord injury. Interleukin-1β (IL-1β) is a key inflammatory factor that promotes the aggravation of spinal cord contusion. However, the specific role and regulatory mechanism of IL-1β in s...

Full description

Saved in:
Bibliographic Details
Main Authors: Jun-Feng Cao, Xi Hu, Li Xiong, Mei Wu, Xingyu Yang, Chaochao Wang, Shengyan Chen, Hengxiang Xu, Huanyu Chen, Xuntai Ma, Yongjie Mi, Xiao Zhang
Format: Article
Language:English
Published: Wiley 2022-01-01
Series:Mediators of Inflammation
Online Access:http://dx.doi.org/10.1155/2022/6285099
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1846144420035952640
author Jun-Feng Cao
Xi Hu
Li Xiong
Mei Wu
Xingyu Yang
Chaochao Wang
Shengyan Chen
Hengxiang Xu
Huanyu Chen
Xuntai Ma
Yongjie Mi
Xiao Zhang
author_facet Jun-Feng Cao
Xi Hu
Li Xiong
Mei Wu
Xingyu Yang
Chaochao Wang
Shengyan Chen
Hengxiang Xu
Huanyu Chen
Xuntai Ma
Yongjie Mi
Xiao Zhang
author_sort Jun-Feng Cao
collection DOAJ
description Purpose. Inflammation and apoptosis after spinal cord contusion (SCC) are important causes of irreversible spinal cord injury. Interleukin-1β (IL-1β) is a key inflammatory factor that promotes the aggravation of spinal cord contusion. However, the specific role and regulatory mechanism of IL-1β in spinal cord contusion is still unclear. Therefore, this study applied bioinformatics to analyze and mine potential gene targets interlinked with IL-1β, animal experiments and lentiviral interference technology were used to explore whether IL-1β affected the recovery of motor function in spinal cord contusion by interfering with PI3K/AKT1 signaling pathway. Method. This study used bioinformatics to screen and analyze gene targets related to IL-1β. The rat SCC animal model was established by the Allen method, and the Basso Beattie Bresnahan (BBB) score was used to evaluate the motor function of the spinal cord-injured rats. Immunohistochemistry and immunofluorescence were used to localize the expression of IL-1β and AKT1 proteins in spinal cord tissue. Quantitative polymerase chain reaction and Western blot were used to detect the gene and protein expressions of IL-1β, PI3K, and AKT1. RNAi technology was used to construct lentivirus to inhibit the expression of IL-1β, lentiviral interference with IL-1β was used to investigate the effect of IL-1β and AKT1 on the function of spinal cord contusion and the relationship among IL-1β, AKT1, and downstream signaling pathways. Results. Bioinformatics analysis suggested a close relationship between IL-1β and AKT1. Animal experiments have confirmed that IL-1β is closely related to the functional recovery of spinal cord contusion. Firstly, from the phenomenological level, the BBB score decreased after SCC, IL-1β and AKT1 were located in the cytoplasm of neurons in the anterior horn of the spinal cord, and the expression levels of IL-1β gene and protein in the experimental group were higher than those in the sham operation group. At the same time, the expression of AKT1 gene decreased, the results suggested that the increase of IL-1β affected the functional recovery of spinal cord contusion. Secondly, from the functional level, after inhibiting the expression of IL-1β with a lentivirus-mediated method, the BBB score was significantly increased, and the motor function of the spinal cord was improved. Thirdly, from the mechanistic level, bioinformatics analysis revealed the relationship between IL-1β and AKT1. In addition, the experiment further verified that in the PI3K/AKT1 signaling pathway, inhibition of IL-1β expression upregulated AKT1 gene expression, but PI3K expression was unchanged. Conclusion. Inhibition of IL-1β promotes recovery of motor function after spinal cord injury in rats through upregulation of AKT1 expression in the PI3K/AKT1 signaling pathway. Bioinformatics analysis suggested that IL-1β may affect apoptosis and regeneration by inhibiting the expression of AKT1 in the PI3K/AKT1 signaling pathway to regulate the downstream FOXO, mTOR, and GSK3 signaling pathways; thereby hindering the recovery of motor function in rats after spinal cord contusion. It provided a new perspective for clinical treatment of spinal cord contusion in the future.
format Article
id doaj-art-3583830f796443a99319c03e82fd0a9d
institution Kabale University
issn 1466-1861
language English
publishDate 2022-01-01
publisher Wiley
record_format Article
series Mediators of Inflammation
spelling doaj-art-3583830f796443a99319c03e82fd0a9d2024-12-02T07:32:39ZengWileyMediators of Inflammation1466-18612022-01-01202210.1155/2022/6285099Interference of Interleukin-1β Mediated by Lentivirus Promotes Functional Recovery of Spinal Cord Contusion Injury in Rats via the PI3K/AKT1 Signaling PathwayJun-Feng Cao0Xi Hu1Li Xiong2Mei Wu3Xingyu Yang4Chaochao Wang5Shengyan Chen6Hengxiang Xu7Huanyu Chen8Xuntai Ma9Yongjie Mi10Xiao Zhang11Clinical Medical College of Chengdu Medical CollegeTaikang Tongji Wuhan HospitalClinical Medical College of Chengdu Medical CollegeClinical Medical College of Chengdu Medical CollegeClinical Medical College of Chengdu Medical CollegeClinical Medical College of Chengdu Medical CollegeClinical Medical College of Chengdu Medical CollegeClinical Medical College of Chengdu Medical CollegeBasic Medical College of Chengdu Medical CollegeClinical Medical College of Chengdu Medical CollegeClinical Medical College of Chengdu Medical CollegeClinical Medical College of Chengdu Medical CollegePurpose. Inflammation and apoptosis after spinal cord contusion (SCC) are important causes of irreversible spinal cord injury. Interleukin-1β (IL-1β) is a key inflammatory factor that promotes the aggravation of spinal cord contusion. However, the specific role and regulatory mechanism of IL-1β in spinal cord contusion is still unclear. Therefore, this study applied bioinformatics to analyze and mine potential gene targets interlinked with IL-1β, animal experiments and lentiviral interference technology were used to explore whether IL-1β affected the recovery of motor function in spinal cord contusion by interfering with PI3K/AKT1 signaling pathway. Method. This study used bioinformatics to screen and analyze gene targets related to IL-1β. The rat SCC animal model was established by the Allen method, and the Basso Beattie Bresnahan (BBB) score was used to evaluate the motor function of the spinal cord-injured rats. Immunohistochemistry and immunofluorescence were used to localize the expression of IL-1β and AKT1 proteins in spinal cord tissue. Quantitative polymerase chain reaction and Western blot were used to detect the gene and protein expressions of IL-1β, PI3K, and AKT1. RNAi technology was used to construct lentivirus to inhibit the expression of IL-1β, lentiviral interference with IL-1β was used to investigate the effect of IL-1β and AKT1 on the function of spinal cord contusion and the relationship among IL-1β, AKT1, and downstream signaling pathways. Results. Bioinformatics analysis suggested a close relationship between IL-1β and AKT1. Animal experiments have confirmed that IL-1β is closely related to the functional recovery of spinal cord contusion. Firstly, from the phenomenological level, the BBB score decreased after SCC, IL-1β and AKT1 were located in the cytoplasm of neurons in the anterior horn of the spinal cord, and the expression levels of IL-1β gene and protein in the experimental group were higher than those in the sham operation group. At the same time, the expression of AKT1 gene decreased, the results suggested that the increase of IL-1β affected the functional recovery of spinal cord contusion. Secondly, from the functional level, after inhibiting the expression of IL-1β with a lentivirus-mediated method, the BBB score was significantly increased, and the motor function of the spinal cord was improved. Thirdly, from the mechanistic level, bioinformatics analysis revealed the relationship between IL-1β and AKT1. In addition, the experiment further verified that in the PI3K/AKT1 signaling pathway, inhibition of IL-1β expression upregulated AKT1 gene expression, but PI3K expression was unchanged. Conclusion. Inhibition of IL-1β promotes recovery of motor function after spinal cord injury in rats through upregulation of AKT1 expression in the PI3K/AKT1 signaling pathway. Bioinformatics analysis suggested that IL-1β may affect apoptosis and regeneration by inhibiting the expression of AKT1 in the PI3K/AKT1 signaling pathway to regulate the downstream FOXO, mTOR, and GSK3 signaling pathways; thereby hindering the recovery of motor function in rats after spinal cord contusion. It provided a new perspective for clinical treatment of spinal cord contusion in the future.http://dx.doi.org/10.1155/2022/6285099
spellingShingle Jun-Feng Cao
Xi Hu
Li Xiong
Mei Wu
Xingyu Yang
Chaochao Wang
Shengyan Chen
Hengxiang Xu
Huanyu Chen
Xuntai Ma
Yongjie Mi
Xiao Zhang
Interference of Interleukin-1β Mediated by Lentivirus Promotes Functional Recovery of Spinal Cord Contusion Injury in Rats via the PI3K/AKT1 Signaling Pathway
Mediators of Inflammation
title Interference of Interleukin-1β Mediated by Lentivirus Promotes Functional Recovery of Spinal Cord Contusion Injury in Rats via the PI3K/AKT1 Signaling Pathway
title_full Interference of Interleukin-1β Mediated by Lentivirus Promotes Functional Recovery of Spinal Cord Contusion Injury in Rats via the PI3K/AKT1 Signaling Pathway
title_fullStr Interference of Interleukin-1β Mediated by Lentivirus Promotes Functional Recovery of Spinal Cord Contusion Injury in Rats via the PI3K/AKT1 Signaling Pathway
title_full_unstemmed Interference of Interleukin-1β Mediated by Lentivirus Promotes Functional Recovery of Spinal Cord Contusion Injury in Rats via the PI3K/AKT1 Signaling Pathway
title_short Interference of Interleukin-1β Mediated by Lentivirus Promotes Functional Recovery of Spinal Cord Contusion Injury in Rats via the PI3K/AKT1 Signaling Pathway
title_sort interference of interleukin 1β mediated by lentivirus promotes functional recovery of spinal cord contusion injury in rats via the pi3k akt1 signaling pathway
url http://dx.doi.org/10.1155/2022/6285099
work_keys_str_mv AT junfengcao interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT xihu interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT lixiong interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT meiwu interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT xingyuyang interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT chaochaowang interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT shengyanchen interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT hengxiangxu interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT huanyuchen interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT xuntaima interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT yongjiemi interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway
AT xiaozhang interferenceofinterleukin1bmediatedbylentiviruspromotesfunctionalrecoveryofspinalcordcontusioninjuryinratsviathepi3kakt1signalingpathway

Similar Items