MIRLET7BHG promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal SMO to trigger Hedgehog pathway

MIRLET7BHG promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal SMO to trigger Hedgehog pathway

Abstract Hepatocellular carcinoma (HCC), commonly caused by liver fibrosis, is a global challenge with high morbidity. Activation of hepatic stellate cells (HSCs) contributes to hepatic fibrosis. Exosomes are small vesicles that play a significant role in cell-to-cell communication. Smoothened (SMO)...

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Main Authors: Yunhong Xia, Lu Zhen, Hongxia Li, Shuomin Wang, Sun Chen, Chongchong Wang, Xiaoyu Yang
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Cell Death and Disease
Online Access:https://doi.org/10.1038/s41419-021-03494-1
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spelling doaj-960ac06c0a994829a3bb1199faf2e8732021-03-28T11:05:05ZengNature Publishing GroupCell Death and Disease2041-48892021-03-0112411710.1038/s41419-021-03494-1MIRLET7BHG promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal SMO to trigger Hedgehog pathwayYunhong Xia0Lu Zhen1Hongxia Li2Shuomin Wang3Sun Chen4Chongchong Wang5Xiaoyu Yang6Department of Oncology, the Fourth Affiliated Hospital, Anhui Medical UniversityDepartment of General Surgery, the Fourth Affiliated Hospital, Anhui Medical UniversityDepartment of Oncology, Hefei First People’s Hospital, Anhui Medical UniversityDepartment of Oncology, the Fourth Affiliated Hospital, Anhui Medical UniversityDepartment of Oncology, the Fourth Affiliated Hospital, Anhui Medical UniversityDepartment of Oncology, the Fourth Affiliated Hospital, Anhui Medical UniversityDepartment of Oncology, the Fourth Affiliated Hospital, Anhui Medical UniversityAbstract Hepatocellular carcinoma (HCC), commonly caused by liver fibrosis, is a global challenge with high morbidity. Activation of hepatic stellate cells (HSCs) contributes to hepatic fibrosis. Exosomes are small vesicles that play a significant role in cell-to-cell communication. Smoothened (SMO) is the key signal transducer for Hedgehog pathway. This study was designed to study the function and underlying mechanism of SMO in HSC activation. Functional assays including 5-Ethynyl-2´-deoxyuridine, colony formation, wound healing, transwell, and sphere formation assays disclosed the function of SMO. Western blot analysis of exosome biomarkers, immunofluorescence staining assay, electron microscope, and flow cytometry revealed the existence of exosomes. Bioinformatics analyses and mechanistic assays uncovered the interplays between RNAs. Nude mice xenograft model was established to evaluate HCC tumor growth. We uncovered that SMO was an oncogene in HCC cells and was low-expressed in quiescent HSCs. Then, SMO was upregulated in HSCs cultured with HCC cells-conditioned medium. Next, it was revealed that HCC cells-derived exosomes activated HSCs by transmitting SMO to HSCs. Subsequently, we recognized that microRNA let-7b host gene (MIRLET7BHG) served as the competing endogenous RNA against miR-330-5p to upregulate SMO. In turn, SMO induced hedgehog pathway to promote GLI family zinc finger 1 (Gli1), leading to transcriptional activation of MIRLET7BHG in activated HSCs. In summary, this study demonstrated that Gli1-induced MIRLET7BHG facilitated HCC by activating HSCs through exosomal SMO to stimulate hedgehog pathway, providing a new road for HCC treatment.https://doi.org/10.1038/s41419-021-03494-1
collection DOAJ
language English
format Article
sources DOAJ
author Yunhong Xia
Lu Zhen
Hongxia Li
Shuomin Wang
Sun Chen
Chongchong Wang
Xiaoyu Yang
spellingShingle Yunhong Xia
Lu Zhen
Hongxia Li
Shuomin Wang
Sun Chen
Chongchong Wang
Xiaoyu Yang
MIRLET7BHG promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal SMO to trigger Hedgehog pathway
Cell Death and Disease
author_facet Yunhong Xia
Lu Zhen
Hongxia Li
Shuomin Wang
Sun Chen
Chongchong Wang
Xiaoyu Yang
author_sort Yunhong Xia
title MIRLET7BHG promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal SMO to trigger Hedgehog pathway
title_short MIRLET7BHG promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal SMO to trigger Hedgehog pathway
title_full MIRLET7BHG promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal SMO to trigger Hedgehog pathway
title_fullStr MIRLET7BHG promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal SMO to trigger Hedgehog pathway
title_full_unstemmed MIRLET7BHG promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal SMO to trigger Hedgehog pathway
title_sort mirlet7bhg promotes hepatocellular carcinoma progression by activating hepatic stellate cells through exosomal smo to trigger hedgehog pathway
publisher Nature Publishing Group
series Cell Death and Disease
issn 2041-4889
publishDate 2021-03-01
description Abstract Hepatocellular carcinoma (HCC), commonly caused by liver fibrosis, is a global challenge with high morbidity. Activation of hepatic stellate cells (HSCs) contributes to hepatic fibrosis. Exosomes are small vesicles that play a significant role in cell-to-cell communication. Smoothened (SMO) is the key signal transducer for Hedgehog pathway. This study was designed to study the function and underlying mechanism of SMO in HSC activation. Functional assays including 5-Ethynyl-2´-deoxyuridine, colony formation, wound healing, transwell, and sphere formation assays disclosed the function of SMO. Western blot analysis of exosome biomarkers, immunofluorescence staining assay, electron microscope, and flow cytometry revealed the existence of exosomes. Bioinformatics analyses and mechanistic assays uncovered the interplays between RNAs. Nude mice xenograft model was established to evaluate HCC tumor growth. We uncovered that SMO was an oncogene in HCC cells and was low-expressed in quiescent HSCs. Then, SMO was upregulated in HSCs cultured with HCC cells-conditioned medium. Next, it was revealed that HCC cells-derived exosomes activated HSCs by transmitting SMO to HSCs. Subsequently, we recognized that microRNA let-7b host gene (MIRLET7BHG) served as the competing endogenous RNA against miR-330-5p to upregulate SMO. In turn, SMO induced hedgehog pathway to promote GLI family zinc finger 1 (Gli1), leading to transcriptional activation of MIRLET7BHG in activated HSCs. In summary, this study demonstrated that Gli1-induced MIRLET7BHG facilitated HCC by activating HSCs through exosomal SMO to stimulate hedgehog pathway, providing a new road for HCC treatment.
url https://doi.org/10.1038/s41419-021-03494-1
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