Xiao-Hua Zong scite author profile

Inflammaging is associated with poor tissue regeneration observed in advanced age. Specifically, protracted inflammation after acute injury has been associated with decreased bone fracture healing and increased rates of nonunion in elderly patients. Here, we investigated the efficacy of using Maresin 1 (MaR1), an omega‐3 fatty acid‐derived pro‐resolving agent, to resolve inflammation after tibial fracture injury and subsequently improving aged bone healing. Aged (24‐month‐old mice) underwent tibial fracture surgery and were either treated with vehicle or MaR1 3 days after injury. Fracture calluses were harvested 7 days, 14 days, 21 days, and 28 days after injury to investigate inflammatory response, cartilage development, bone deposition, and mechanical integrity, respectively. Healing bones from MaR1‐treated mice displayed decreased cartilage formation and increased bone deposition which resulted in increased structural stiffness and increased force to fracture in the later stages of repair. In the early stages, MaR1 treatment decreased the number of pro‐inflammatory macrophages within the fracture callus and decreased the level of inflammatory biomarkers in circulation. In tissue culture models, MaR1 treatment of bone marrow‐derived macrophages from aged mice protected cells form a pro‐inflammatory phenotype and induced an anti‐inflammatory fate. Furthermore, the secretome of MaR1‐treated bone marrow‐derived macrophages was identified as osteoinductive, enhancing osteoblast differentiation of bone marrow stromal cells. Our findings here identify resolution of inflammation, and MaR1 itself, to be a point of intervention to improve aged bone healing.

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Critical Roles for Macrophages in Islet Angiogenesis and Maintenance During Pancreatic Degeneration

Tessem

Jensen

Pelli

et al. 2008

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OBJECTIVE-Chronic pancreatitis, characterized by pancreatic exocrine tissue destruction with initial maintenance of islets, eventually leads to insulin-dependent diabetes in most patients. Mice deficient for the transcription factors E2F1 and E2F2 suffer from a chronic pancreatitis-like syndrome and become diabetic. Surprisingly, onset of diabetes can be prevented through bone marrow transplantation. The goal of the described studies was to determine the hematopoietic cell type responsible for maintaining islets and the associated mechanism of this protection.RESEARCH DESIGN AND METHODS-Mouse models of acute and chronic pancreatitis, together with mice genetically deficient for macrophage production, were used to determine roles for macrophages in islet angiogenesis and maintenance.RESULTS-We demonstrate that macrophages are essential for preventing endocrine cell loss and diabetes. Macrophages expressing matrix metalloproteinase-9 migrate to the deteriorating pancreas. E2f1/E2f2 mutant mice transplanted with wild-type, but not macrophage-deficient colony stimulating factor 1 receptor mutant (Csf1r Ϫ/Ϫ ), bone marrow exhibit increased angiogenesis and proliferation within islets, coinciding with increased islet mass. A similar macrophage dependency for islet and islet vasculature maintenance is observed during caerulein-induced pancreatitis.CONCLUSIONS-These findings demonstrate that macrophages promote islet angiogenesis and protect against islet loss during exocrine degeneration, could explain why most patients with chronic pancreatitis develop diabetes, and suggest an avenue for preventing pancreatitis-associated diabetes.

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Lowering circulating apolipoprotein E levels improves aged bone fracture healing

Ron¹,

Zong²,

Nadesan³

et al. 2019

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Xiao-Hua Zong

Maresin 1 resolves aged‐associated macrophage inflammation to improve bone regeneration

Critical Roles for Macrophages in Islet Angiogenesis and Maintenance During Pancreatic Degeneration

Lowering circulating apolipoprotein E levels improves aged bone fracture healing

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