Metabolically stressed kidney is in part characterized by infiltrating macrophages and macrophage-derived TGF-β1 that promote the synthesis of various ECM molecules. TGF-β1 strongly enhances the expression of the ge...Metabolically stressed kidney is in part characterized by infiltrating macrophages and macrophage-derived TGF-β1 that promote the synthesis of various ECM molecules. TGF-β1 strongly enhances the expression of the gene TGFBI that encodes a cell-adhesion class, proapoptotic ECM protein called BIGH3. We hypothesized that in a diabetic environment a relationship between infiltrating macrophages, macrophage-derived TGF-β1, and BIGH3 protein promotes renal cell death. To investigate this hypothesis, we used our mouse model of diabetic complications. Mice on a high-fat diet developed hypercholesterolemia, and exposure to streptozotocin rendered hypercholesterolemic mice diabetic. Immunohistochemical images show increased macrophage infiltration and BIGH3 protein in the kidney cortices of hypercholesterolemic and diabetic mice. Macrophages induced a two-fold increase in BIGH3 expression and an 86% increase in renal proximal tubule epithelial cell apoptosis. TGF-β1 antibody and TGF-β1 receptor chemical antagonist blocked macrophage-induced apoptosis. BIGH3 antibody completely blocked apoptosis that was induced by TGF-β1, and blocked apoptosis induced by exogenous recombinant BIGH3. These results uncover a distinctive interplay of macrophage-derived TGF-β1, BIGH3 protein, and apoptosis, and indicate that BIGH3 is central in a novel pathway that promotes diabetic nephropathy. Macrophage TGF-β1 and BIGH3 are identified as prediabetic biomarkers, and potential therapeutic targets for intervention in prediabetic and diabetic individuals.展开更多
MicroRNAs(miRNAs) are a class of highly abundant non-coding RNA molecules that are involved in several biological processes.Many miRNAs are often deregulated in several diseases including cancer.There is substantial i...MicroRNAs(miRNAs) are a class of highly abundant non-coding RNA molecules that are involved in several biological processes.Many miRNAs are often deregulated in several diseases including cancer.There is substantial interest in exploiting miRNAs for therapeutic applications.In this editorial,we briefly review current advances in the use of miRNAs or antisense oligonucleotides(antagomirs) for such therapies.One of the key issues related to therapy using miRNAs is degradation of naked particles in vivo.To overcome this limitation,delivery systems for miRNA-based therapeutic agents have been developed,which hold tremendous potential for improving therapeutic outcome of cancer patients.展开更多
文摘Metabolically stressed kidney is in part characterized by infiltrating macrophages and macrophage-derived TGF-β1 that promote the synthesis of various ECM molecules. TGF-β1 strongly enhances the expression of the gene TGFBI that encodes a cell-adhesion class, proapoptotic ECM protein called BIGH3. We hypothesized that in a diabetic environment a relationship between infiltrating macrophages, macrophage-derived TGF-β1, and BIGH3 protein promotes renal cell death. To investigate this hypothesis, we used our mouse model of diabetic complications. Mice on a high-fat diet developed hypercholesterolemia, and exposure to streptozotocin rendered hypercholesterolemic mice diabetic. Immunohistochemical images show increased macrophage infiltration and BIGH3 protein in the kidney cortices of hypercholesterolemic and diabetic mice. Macrophages induced a two-fold increase in BIGH3 expression and an 86% increase in renal proximal tubule epithelial cell apoptosis. TGF-β1 antibody and TGF-β1 receptor chemical antagonist blocked macrophage-induced apoptosis. BIGH3 antibody completely blocked apoptosis that was induced by TGF-β1, and blocked apoptosis induced by exogenous recombinant BIGH3. These results uncover a distinctive interplay of macrophage-derived TGF-β1, BIGH3 protein, and apoptosis, and indicate that BIGH3 is central in a novel pathway that promotes diabetic nephropathy. Macrophage TGF-β1 and BIGH3 are identified as prediabetic biomarkers, and potential therapeutic targets for intervention in prediabetic and diabetic individuals.
基金supported by grants from the National Institutes of Health(CA109298,CA110793,CA128797,RC2GM092599,U54 CA151668)Department of Defense(OC073399,OC093146,BC085265)+3 种基金a Program Project Development Grant from the Ovarian Cancer Research Fund,Inc,the Ward Familythe Zarrow Foundationthe Marcus Foundation,the M.D.Anderson Cancer Center SPORE in Ovarian Cancer(P50 CA083639)and Uterine Cancer(P50 CA098258)the Laura and John Arnold Foundation,and the Betty Ann Asche Murray Distinguished Professorship
文摘MicroRNAs(miRNAs) are a class of highly abundant non-coding RNA molecules that are involved in several biological processes.Many miRNAs are often deregulated in several diseases including cancer.There is substantial interest in exploiting miRNAs for therapeutic applications.In this editorial,we briefly review current advances in the use of miRNAs or antisense oligonucleotides(antagomirs) for such therapies.One of the key issues related to therapy using miRNAs is degradation of naked particles in vivo.To overcome this limitation,delivery systems for miRNA-based therapeutic agents have been developed,which hold tremendous potential for improving therapeutic outcome of cancer patients.
