Interleukin‐12 sustained release system promotes hematopoietic recovery after radiation injury
Chuanchuan Lin,
Yang Xiang,
Yangyang Zhang,
Zhenxing Yang,
Nanxi Chen,
Weiwei Zhang,
Lanyue Hu,
Jianxin Chen,
Ya Luo,
Xueying Wang,
Yanni Xiao,
Qing Zhang,
Xi Ran,
Li Chen,
Jigang Dai,
Zhongjun Li,
Qian Ran
Affiliations
Chuanchuan Lin
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Yang Xiang
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Yangyang Zhang
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Zhenxing Yang
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Nanxi Chen
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Weiwei Zhang
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Lanyue Hu
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Jianxin Chen
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Ya Luo
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Xueying Wang
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Yanni Xiao
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Qing Zhang
Institute of Respiratory Diseases The Second Affiliated Hospital, Army Medical University Chongqing China
Xi Ran
Department of Clinical Laboratory The Second Affiliated Hospital, Army Medical University Chongqing China
Li Chen
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Jigang Dai
Hematopoietic Acute Radiation Syndrome Medical and Pharmaceutical Basic Research Innovation Center Ministry of Education of the People's Republic of China Chongqing China
Zhongjun Li
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Qian Ran
Laboratory of Radiation Biology, Department of Blood Transfusion, Laboratory Medicine Center The Second Affiliated Hospital, Army Medical University Chongqing China
Abstract The continuous production of mature blood cell lineages is maintained by hematopoietic stem cells but they are highly susceptible to damage by ionizing radiation (IR) that induces death. Thus, devising therapeutic strategies that can mitigate hematopoietic toxicity caused by IR would benefit acute radiation syndrome (ARS) victims and patients receiving radiotherapy. Herein, we describe the preparation of an injectable hydrogel formulation based on Arg‐Gly‐Asp‐alginate (RGD‐Alg) and Laponite using a simple mixing method that ensured a slow and sustained release of interleukin‐12 (IL‐12) (RGD‐Alg/Laponite@IL‐12). The local administration of RGD‐Alg/Laponite@IL‐12 increased survival rates and promoted the hematopoietic recovery of mice who had received sublethal‐dose irradiation. Local intra‐bone marrow (intra‐BM) injection of RGD‐Alg/Laponite@IL‐12 hydrogel effectively stimulated IL12 receptor‐phosphoinositide 3‐kinase/protein kinase B (IL‐12R‐PI3K/AKT) signaling axis, which promoted proliferation and hematopoietic growth factors secretion of BM mesenchymal stem/stromal cells. This signaling axis facilitates the repair of the hematopoietic microenvironment and plays a pivotal role in hematopoietic reconstitution. In conclusion, we describe a biomaterial‐sustained release of IL‐12 for the treatment of irradiated hematopoietic injury and provide a new therapeutic strategy for hematopoietic ARS.
