. 2024 Apr;479(4):993-1010.

doi: 10.1007/s11010-023-04775-3. Epub 2023 Jun 3.

M2 macrophage-derived exosomes carry miR-142-3p to restore the differentiation balance of irradiated BMMSCs by targeting TGF-β1

Chong Huang^#¹, Lu Zhao^#², Yun Xiao³, Zihao Tang², Li Jing², Kai Guo², Lei Tian⁴, Chunlin Zong⁵

Affiliations

¹ Key Laboratory of Biotechnology Shaanxi Province, College of Life Sciences, Northwest University, 229 Taibai North Road, 710069, Xi'an, People's Republic of China.
² State Key Laboratory of Military Stomatology, National Clinical Research Center for Oral Diseases, Shaanxi Clinical Research Center for Oral Diseases, Department of Oral and Maxillofacial Surgery, School of Stomatology, The Fourth Military Medical University, 145 West Changle Road, Xi'an, 710032, People's Republic of China.
³ School of Stomatology, Jiamusi University, 522 Hongqi Street, Jiamusi, 154000, People's Republic of China.
⁴ State Key Laboratory of Military Stomatology, National Clinical Research Center for Oral Diseases, Shaanxi Clinical Research Center for Oral Diseases, Department of Oral and Maxillofacial Surgery, School of Stomatology, The Fourth Military Medical University, 145 West Changle Road, Xi'an, 710032, People's Republic of China. tianleison@163.com.
⁵ State Key Laboratory of Military Stomatology, National Clinical Research Center for Oral Diseases, Shaanxi Clinical Research Center for Oral Diseases, Department of Oral and Maxillofacial Surgery, School of Stomatology, The Fourth Military Medical University, 145 West Changle Road, Xi'an, 710032, People's Republic of China. mujiezi23@163.com.

^# Contributed equally.

PMID: 37269411
DOI: 10.1007/s11010-023-04775-3

M2 macrophage-derived exosomes carry miR-142-3p to restore the differentiation balance of irradiated BMMSCs by targeting TGF-β1

Chong Huang et al. Mol Cell Biochem. 2024 Apr.

. 2024 Apr;479(4):993-1010.

doi: 10.1007/s11010-023-04775-3. Epub 2023 Jun 3.

Authors

Chong Huang^#¹, Lu Zhao^#², Yun Xiao³, Zihao Tang², Li Jing², Kai Guo², Lei Tian⁴, Chunlin Zong⁵

Affiliations

¹ Key Laboratory of Biotechnology Shaanxi Province, College of Life Sciences, Northwest University, 229 Taibai North Road, 710069, Xi'an, People's Republic of China.
² State Key Laboratory of Military Stomatology, National Clinical Research Center for Oral Diseases, Shaanxi Clinical Research Center for Oral Diseases, Department of Oral and Maxillofacial Surgery, School of Stomatology, The Fourth Military Medical University, 145 West Changle Road, Xi'an, 710032, People's Republic of China.
³ School of Stomatology, Jiamusi University, 522 Hongqi Street, Jiamusi, 154000, People's Republic of China.
⁴ State Key Laboratory of Military Stomatology, National Clinical Research Center for Oral Diseases, Shaanxi Clinical Research Center for Oral Diseases, Department of Oral and Maxillofacial Surgery, School of Stomatology, The Fourth Military Medical University, 145 West Changle Road, Xi'an, 710032, People's Republic of China. tianleison@163.com.
⁵ State Key Laboratory of Military Stomatology, National Clinical Research Center for Oral Diseases, Shaanxi Clinical Research Center for Oral Diseases, Department of Oral and Maxillofacial Surgery, School of Stomatology, The Fourth Military Medical University, 145 West Changle Road, Xi'an, 710032, People's Republic of China. mujiezi23@163.com.

^# Contributed equally.

PMID: 37269411
DOI: 10.1007/s11010-023-04775-3

Abstract

Radiotherapy is essential to cancer treatment, while it inevitably injures surrounding normal tissues, and bone tissue is one of the most common sites prone to irradiation. Bone marrow mesenchymal stem cells (BMMSCs) are sensitive to irradiation and the irradiated dysfunction of BMMSCs may be closely related to irradiation-induced bone damage. Macropahges play important role in regulating stem cell function, bone metabolic balance and irradiation response, but the effects of macrophages on irradiated BMMSCs are still unclear. This study aimed to investigate the role of macrophages and macrophage-derived exosomes in restoring irradiated BMMSCs function. The effects of macrophage conditioned medium (CM) and macrophage-derived exosomes on osteogenic and fibrogenic differentiation capacities of irradiated BMMSCs were detected. The key microribonucleic acids (miRNAs) and targeted proteins in exosomes were also determined. The results showed that irradiation significantly inhibited the proliferation of BMMSCs, and caused differentiation imbalance of BMMSCs, with decreased osteogenic differentiation and increased fibrogenic differentiation. M2 macrophage-derived exosomes (M2D-exos) inhibited the fibrogenic differentiation and promoted the osteogenic differentiation of irradiated BMMSCs. We identified that miR-142-3p was significantly overexpressed in M2D-exos and irradiated BMMSCs treated with M2D-exos. After inhibition of miR-142-3p in M2 macrophage, the effects of M2D-exos on irradiated BMMSCs differentiation were eliminated. Furthermore, transforming growth factor beta 1 (TGF-β1), as a direct target of miR-142-3p, was significantly decreased in irradiated BMMSCs treated with M2D-exos. This study indicated that M2D-exos could carry miR-142-3p to restore the differentiation balance of irradiated BMMSCs by targeting TGF-β1. These findings pave a new way for promising and cell-free method to treat irradiation-induced bone damage.

Keywords: Bone marrow mesenchymal stem cells; Exosomes; Irradiation-induced bone damage; Macrophages; miRNAs.

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M2 macrophage-derived exosomes carry miR-142-3p to restore the differentiation balance of irradiated BMMSCs by targeting TGF-β1

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M2 macrophage-derived exosomes carry miR-142-3p to restore the differentiation balance of irradiated BMMSCs by targeting TGF-β1

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