Leonurine negatively modulates T cells activity by suppressing recombination activation gene protein 2 in pulmonary fibrosis

Introduction The key transformed T cell transcription factor recombination activation gene protein 2 (RAG2) is regulated during inflammation to allow for the acquisition of effector T cells functions. The present study was designed to investigate whether stress signals elicited by leonurine (LEO) co...

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Main Authors: Yongping Zhu, Bixia Lin, Fadian Ding, Fenfen Ma, Xiaohui Zhou, Haiyang Zong, Gao Feng, Qingquan Chen, Gongping Chen, Xiaoting Lv
Format: Article
Language:English
Published: SAGE Publishing 2021-08-01
Series:European Journal of Inflammation
Online Access:https://doi.org/10.1177/20587392211035907
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spelling doaj-b5d04481b499419b9ac41710d44c8ec52021-08-11T04:34:54ZengSAGE PublishingEuropean Journal of Inflammation2058-73922021-08-011910.1177/20587392211035907Leonurine negatively modulates T cells activity by suppressing recombination activation gene protein 2 in pulmonary fibrosisYongping ZhuBixia LinFadian DingFenfen MaXiaohui ZhouHaiyang ZongGao FengQingquan ChenGongping ChenXiaoting LvIntroduction The key transformed T cell transcription factor recombination activation gene protein 2 (RAG2) is regulated during inflammation to allow for the acquisition of effector T cells functions. The present study was designed to investigate whether stress signals elicited by leonurine (LEO) could lead to the degradation of RAG2 through v-akt murine thymoma viral oncogene homolog (AKT) signaling in lung fibrosis. Methods A total of 120 female mice were randomly divided into five groups (Group I–V): Normal group, bleomycin (BLM), BLM+LEO 50 mg/kg/d, BLM+LEO 100 mg/kg/d, and BLM+LEO 50 mg/kg/d+LY294002. Hematoxylin-eosin, Masson’s, and terminal deoxynucleotidyl transferase dUTP nick-end labeling staining were performed to observe the pathomorphological changes. The expression of CD3 + , TGF-β, RAG2, and Bcl proteins was examined by immunodetection, while that of E-cadherin (ECAD), AKT, TGF-β1, alpha-actin-2, Bax, and RAG2 was detected by Western blot analysis. Results The level of T lymphocytes was reduced sharply in LEO-treated mice as compared to the other groups. The AKT signal was greatly inhibited in the BLM group and activated with LEO treatment on day 14. In addition, RAG2 was attenuated by LEO on day 14 and day 28. LY294002 could reverse the expression of AKT and RAG2 on day 28. Remarkably, the low dose of LEO has a greater protective efficacy as compared to the high-dose LEO group in terms of pulmonary fibrosis, T cell inactivation, and apoptosis in alveolar cells. Conclusion The results of the present study suggested that LEO has a protective effect on lung fibrosis with possible mechanisms of attenuating apoptosis and inflammation via the upregulation of the AKT signal in transformed T cells by suppressing the expression and activity of RAG2.https://doi.org/10.1177/20587392211035907
collection DOAJ
language English
format Article
sources DOAJ
author Yongping Zhu
Bixia Lin
Fadian Ding
Fenfen Ma
Xiaohui Zhou
Haiyang Zong
Gao Feng
Qingquan Chen
Gongping Chen
Xiaoting Lv
spellingShingle Yongping Zhu
Bixia Lin
Fadian Ding
Fenfen Ma
Xiaohui Zhou
Haiyang Zong
Gao Feng
Qingquan Chen
Gongping Chen
Xiaoting Lv
Leonurine negatively modulates T cells activity by suppressing recombination activation gene protein 2 in pulmonary fibrosis
European Journal of Inflammation
author_facet Yongping Zhu
Bixia Lin
Fadian Ding
Fenfen Ma
Xiaohui Zhou
Haiyang Zong
Gao Feng
Qingquan Chen
Gongping Chen
Xiaoting Lv
author_sort Yongping Zhu
title Leonurine negatively modulates T cells activity by suppressing recombination activation gene protein 2 in pulmonary fibrosis
title_short Leonurine negatively modulates T cells activity by suppressing recombination activation gene protein 2 in pulmonary fibrosis
title_full Leonurine negatively modulates T cells activity by suppressing recombination activation gene protein 2 in pulmonary fibrosis
title_fullStr Leonurine negatively modulates T cells activity by suppressing recombination activation gene protein 2 in pulmonary fibrosis
title_full_unstemmed Leonurine negatively modulates T cells activity by suppressing recombination activation gene protein 2 in pulmonary fibrosis
title_sort leonurine negatively modulates t cells activity by suppressing recombination activation gene protein 2 in pulmonary fibrosis
publisher SAGE Publishing
series European Journal of Inflammation
issn 2058-7392
publishDate 2021-08-01
description Introduction The key transformed T cell transcription factor recombination activation gene protein 2 (RAG2) is regulated during inflammation to allow for the acquisition of effector T cells functions. The present study was designed to investigate whether stress signals elicited by leonurine (LEO) could lead to the degradation of RAG2 through v-akt murine thymoma viral oncogene homolog (AKT) signaling in lung fibrosis. Methods A total of 120 female mice were randomly divided into five groups (Group I–V): Normal group, bleomycin (BLM), BLM+LEO 50 mg/kg/d, BLM+LEO 100 mg/kg/d, and BLM+LEO 50 mg/kg/d+LY294002. Hematoxylin-eosin, Masson’s, and terminal deoxynucleotidyl transferase dUTP nick-end labeling staining were performed to observe the pathomorphological changes. The expression of CD3 + , TGF-β, RAG2, and Bcl proteins was examined by immunodetection, while that of E-cadherin (ECAD), AKT, TGF-β1, alpha-actin-2, Bax, and RAG2 was detected by Western blot analysis. Results The level of T lymphocytes was reduced sharply in LEO-treated mice as compared to the other groups. The AKT signal was greatly inhibited in the BLM group and activated with LEO treatment on day 14. In addition, RAG2 was attenuated by LEO on day 14 and day 28. LY294002 could reverse the expression of AKT and RAG2 on day 28. Remarkably, the low dose of LEO has a greater protective efficacy as compared to the high-dose LEO group in terms of pulmonary fibrosis, T cell inactivation, and apoptosis in alveolar cells. Conclusion The results of the present study suggested that LEO has a protective effect on lung fibrosis with possible mechanisms of attenuating apoptosis and inflammation via the upregulation of the AKT signal in transformed T cells by suppressing the expression and activity of RAG2.
url https://doi.org/10.1177/20587392211035907
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