Greg H. Tesch scite author profile

Diabetic nephropathy involves a renal inflammatory response induced by the diabetic milieu. Macrophages accumulate in diabetic kidneys in association with the local upregulation of monocyte chemoattractant protein-1 (MCP-1); however, the contribution of macrophages to renal injury and the importance of MCP-1 to their accrual are unclear. Therefore, we examined the progression of streptozotocin (STZ)-induced diabetic nephropathy in mice deficient in MCP-1 in order to explore the role of MCP-1-mediated macrophage accumulation in the development of diabetic kidney damage. Renal pathology was examined at 2, 8, 12 and 18 weeks after STZ treatment in MCP-1 intact (+/+) and deficient (-/-) mice with equivalent blood glucose and hemoglobin A1c levels. In MCP-1(+/+) mice, the development of diabetic nephropathy was associated with increased kidney MCP-1 production, which occurred mostly in tubules, consistent with our in vitro finding that elements of the diabetic milieu (high glucose and advanced glycation end products) directly stimulate tubular MCP-1 secretion. Diabetes of 18 weeks resulted in albuminuria and elevated plasma creatinine in MCP-1(+/+) mice, but these aspects of renal injury were largely suppressed in MCP-1(-/-) mice. Protection from nephropathy in diabetic MCP-1(-/-) mice was associated with marked reductions in glomerular and interstitial macrophage accumulation, histological damage and renal fibrosis. Diabetic MCP-1(-/-) mice also had a smaller proportion of kidney macrophages expressing markers of activation (inducible nitric oxide synthase or sialoadhesin) compared to diabetic MCP-1(+/+) mice. In conclusion, our study demonstrates that MCP-1-mediated macrophage accumulation and activation plays a critical role in the development of STZ-induced mouse diabetic nephropathy.

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Diabetic nephropathy – is this an immune disorder?

Tesch

2017

187

172

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Chronic diabetes is associated with metabolic and haemodynamic stresses which can facilitate modifications to DNA, proteins and lipids, induce cellular dysfunction and damage, and stimulate inflammatory and fibrotic responses which lead to various types of renal injury. Approximately 30-40% of patients with diabetes develop nephropathy and this renal injury normally progresses in about a third of patients. Due to the growing incidence of diabetes, diabetic nephropathy is now the main cause of end-stage renal disease (ESRD) worldwide. Accumulating evidence from experimental and clinical studies has demonstrated that renal inflammation plays a critical role in determining whether renal injury progresses during diabetes. However, the immune response associated with diabetic nephropathy is considerably different to that seen in autoimmune kidney diseases or in acute kidney injury arising from episodes of ischaemia or infection. This review evaluates the role of the immune system in the development of diabetic nephropathy, including the specific contributions of leucocyte subsets (macrophages, neutrophils, mast cells, T and B lymphocytes), danger-associated molecular patterns (DAMPs), inflammasomes, immunoglobulin and complement. It also examines factors which may influence the development of the immune response, including genetic factors and exposure to other kidney insults. In addition, this review discusses therapies which are currently under development for targeting the immune system in diabetic nephropathy and indicates those which have proceeded into clinical trials.

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The Role of p38α Mitogen-Activated Protein Kinase Activation in Renal Fibrosis

Stambe¹,

Atkins²,

Tesch³

et al. 2004

176

150

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The p38 mitogen-activated protein kinase (MAPK) pathway transduces external stress stimuli and is important in extracellular matrix synthesis in cell types in vitro; however, its role in renal fibrosis is not known. Explored was the role the p38 MAPK pathway in rat unilateral ureteric obstruction (UUO), a model of renal fibrosis induced by a noninflammatory surgical insult. In a time-course study, a marked increase in phosphorylation (activation) of p38 in both interstitial myofibroblasts and tubules was shown. Rats were then treated daily with a specific inhibitor of p38alpha, NPC 31169, from the time of UUO surgery until being killed 7 d later. Compared with vehicle, NPC 31169-treated rats had a significant reduction in renal fibrosis assessed by interstitial volume, collagen IV deposition, and mRNA levels. This was primarily due to a reduction in the accumulation of interstitial myofibroblasts, as shown by a reduction in the area of immunostaining for alpha-smooth muscle actin and heat shock protein 47. The increase in renal TGF-beta1 mRNA and protein levels in UUO was unaltered with NPC 31169 treatment; however, connective tissue growth factor mRNA was reduced. These results demonstrate that p38alpha MAPK plays an important role in renal fibrosis, acting downstream of TGF-beta1. Blockade of p38 MAPK reduces extracellular matrix production and may be considered a potential therapeutic option in the treatment of renal fibrosis.

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Abnormal p38 mitogen-activated protein kinase signalling in human and experimental diabetic nephropathy

et al. 2004

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Aims/hypothesis. Inflammation and fibrosis are pathological mechanisms that are partially regulated by cell signalling through the p38 mitogen-activated protein kinase (MAPK) pathway. Elements of the diabetic milieu such as high glucose and advanced glycation endproducts induce activation of this pathway in renal cells. Therefore, we examined whether p38 MAPK signalling is associated with the development of human and experimental diabetic nephropathy. Methods. Immunostaining identified phosphorylated (active) p38 MAPK in human biopsies with no abnormality (n=6) and with Type 2 diabetic nephropathy (n=12). Changes in kidney levels of phosphorylated p38 were assessed by immunostaining and western blotting in mice with streptozotocin-induced Type 1 diabetes that had been killed after 0.5, 2, 3, 4 and 8 months, and in Type 2 diabetic db/db mice at 2, 4, 6 and 8 months of age. Results. Phosphorylated p38 was detected in some intrinsic cells in normal human kidney, including podocytes, cortical tubules and occasional interstitial cells. Greater numbers of these phosphorylated p38+ cells were observed in diabetic patients, and phosphorylated p38 was identified in accumulating interstitial macrophages and myofibroblasts. A similar pattern of p38 activation was observed in both mouse models of diabetes. In mice, kidney levels of phosphorylated p38 increased (2-6 fold) following the onset of Type 1 and Type 2 diabetes. In both mouse models, interstitial phosphorylated p38+ cells were associated with hyperglycaemia, increased HbA 1 c levels and albuminuria. Further assessment of streptozotocin-induced diabetic nephropathy showed that interstitial phosphorylated p38+ cells correlated with interstitial fibrosis (myofibroblasts, collagen). Conclusions/interpretation. Increased p38 MAPK signalling is a feature of human and experimental diabetic nephropathy. Time course studies in mouse models suggest that phosphorylation of p38 plays a pathological role, particularly in the development of interstitial fibrosis.

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Recent insights into diabetic renal injury from thedb/dbmouse model of type 2 diabetic nephropathy

Tesch

Lim

2011

American Journal of Physiology-Renal Physiology

123

112

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The db/db mouse is the most widely used animal model of type 2 diabetic nephropathy. Recent studies have utilized genetic backcrossing with transgenic mouse strains to create novel db/db strains that either lack or overexpress specific genes. These novel strains [ICAM-1-/-, CCL2-/-, MKK3-/-, osteopontin-/-, plasminogen activator inhibitor-1 (PAI-1)-/-, endothelial nitric oxide synthase-/-, SOD-Tg, rCAT-Tg] have provided valuable insights into the molecular mechanisms which promote diabetic renal injury. In addition, surgical removal of one kidney has been shown to accelerate injury in the remaining kidney of diabetic db/db mice. A number of novel therapeutic agents have also been tested in db/db mice, including inhibitors of inflammation (chemokine receptor antagonists, anti-CCL2 RNA aptamer, anti-c-fms antibody); oxidative stress (oxykine, biliverdin); the renin-angiotensin-aldosterone system (aliskiren, angiotensin-converting enzyme inhibitors, angiotensin receptor blockers, eplerenone); advanced glycation end products (AGE; pyridoxamine, alagebrium, soluble AGE receptor); angiogenesis (NM-3, anti-CXCL12 RNA aptamer, soluble Flt-1); lipid accumulation (statins, farnesoid X receptor agonists, Omacor); intracellular signaling pathways (PKC-β or JNK inhibitors); and fibrosis [transforming growth factor (TGF)-β antibody, TGF-βR kinase inhibitor, soluble betaglycan, SMP-534, CTGF-antisense oligonucleotide, mutant PAI-1, pirfenidone], which have identified potential therapeutic targets for clinical translation. This review summarizes the advances in knowledge gained from studies in genetically modified db/db mice and treatment of db/db mice with novel therapeutic agents.

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Blockade of p38α MAPK Ameliorates Acute Inflammatory Renal Injury in Rat Anti-GBM Glomerulonephritis

Stambe¹,

Atkins²,

Tesch³

et al. 2003

103

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TGF-β1-activated kinase-1 regulates inflammation and fibrosis in the obstructed kidney

Frank

Tesch

Ozols

et al. 2011

American Journal of Physiology-Renal Physiology

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Intrinsic renal cells are the major source of interleukin-1 synthesis in normal and diseased rat kidney

Tesch¹,

Yang²,

Hai³

et al. 1997

Nephrology Dialysis Transplantation

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Greg H. Tesch

Monocyte chemoattractant protein-1 promotes the development of diabetic renal injury in streptozotocin-treated mice

Diabetic nephropathy – is this an immune disorder?

The Role of p38α Mitogen-Activated Protein Kinase Activation in Renal Fibrosis

Abnormal p38 mitogen-activated protein kinase signalling in human and experimental diabetic nephropathy

Recent insights into diabetic renal injury from thedb/dbmouse model of type 2 diabetic nephropathy

Blockade of p38α MAPK Ameliorates Acute Inflammatory Renal Injury in Rat Anti-GBM Glomerulonephritis

TGF-β1-activated kinase-1 regulates inflammation and fibrosis in the obstructed kidney

Intrinsic renal cells are the major source of interleukin-1 synthesis in normal and diseased rat kidney

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