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Inhibition of Epidermal Growth Factor Receptor Activation Is Associated With Improved Diabetic Nephropathy and Insulin Resistance in Type 2 Diabetes.
Li Z, Li Y, Overstreet JM, Chung S, Niu A, Fan X, Wang S, Wang Y, Zhang MZ, Harris RC
(2018) Diabetes 67: 1847-1857
MeSH Terms: Albuminuria, Animals, Biomarkers, Crosses, Genetic, Cytokines, Diabetes Mellitus, Type 2, Diabetic Nephropathies, ErbB Receptors, Erlotinib Hydrochloride, Fibrosis, Glomerulonephritis, Hypoglycemic Agents, Insulin Resistance, Kidney, Macrophages, Membrane Transport Modulators, Mice, Knockout, Mice, Mutant Strains, Nitric Oxide Synthase Type III, Oxidative Stress, Protein Kinase Inhibitors, T-Lymphocytes, Transforming Growth Factor alpha
Show Abstract · Added November 9, 2018
Previous studies by us and others have indicated that renal epidermal growth factor receptors (EGFR) are activated in models of diabetic nephropathy (DN) and that inhibition of EGFR activity protects against progressive DN in type 1 diabetes. In this study we examined whether inhibition of EGFR activation would affect the development of DN in a mouse model of accelerated type 2 diabetes (BKS with endothelial nitric oxide knockout [eNOS]). eNOS mice received vehicle or erlotinib, an inhibitor of EGFR tyrosine kinase activity, beginning at 8 weeks of age and were sacrificed at 20 weeks of age. In addition, genetic models inhibiting EGFR activity () and transforming growth factor-α () were studied in this model of DN in type 2 diabetes. Compared with vehicle-treated mice, erlotinib-treated animals had less albuminuria and glomerulosclerosis, less podocyte loss, and smaller amounts of renal profibrotic and fibrotic components. Erlotinib treatment decreased renal oxidative stress, macrophage and T-lymphocyte infiltration, and the production of proinflammatory cytokines. Erlotinib treatment also preserved pancreas function, and these mice had higher blood insulin levels at 20 weeks, decreased basal blood glucose levels, increased glucose tolerance and insulin sensitivity, and increased blood levels of adiponectin compared with vehicle-treated mice. Similar to the aforementioned results, both and diabetic mice also had attenuated DN, preserved pancreas function, and decreased basal blood glucose levels. In this mouse model of accelerated DN, inhibition of EGFR signaling led to increased longevity.
© 2018 by the American Diabetes Association.
1 Communities
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23 MeSH Terms
Blocking TGF- and -Catenin Epithelial Crosstalk Exacerbates CKD.
Nlandu-Khodo S, Neelisetty S, Phillips M, Manolopoulou M, Bhave G, May L, Clark PE, Yang H, Fogo AB, Harris RC, Taketo MM, Lee E, Gewin LS
(2017) J Am Soc Nephrol 28: 3490-3503
MeSH Terms: Animals, Aristolochic Acids, Cell Nucleus, Collagen, Crosses, Genetic, Epithelium, Female, Gene Deletion, Kidney Failure, Chronic, Kidney Tubules, Proximal, Male, Mice, Mice, Inbred BALB C, Mice, Knockout, Mice, Transgenic, Protein-Serine-Threonine Kinases, Receptor, Transforming Growth Factor-beta Type II, Receptors, Transforming Growth Factor beta, Signal Transduction, Transforming Growth Factor beta1, Wnt Proteins, beta Catenin
Show Abstract · Added July 18, 2017
The TGF- and Wnt/-catenin pathways have important roles in modulating CKD, but how these growth factors affect the epithelial response to CKD is not well studied. TGF- has strong profibrotic effects, but this pleiotropic factor has many different cellular effects depending on the target cell type. To investigate how TGF- signaling in the proximal tubule, a key target and mediator of CKD, alters the response to CKD, we injured mice lacking the TGF- type 2 receptor specifically in this epithelial segment. Compared with littermate controls, mice lacking the proximal tubular TGF- receptor had significantly increased tubular injury and tubulointerstitial fibrosis in two different models of CKD. RNA sequencing indicated that deleting the TGF- receptor in proximal tubule cells modulated many growth factor pathways, but Wnt/-catenin signaling was the pathway most affected. We validated that deleting the proximal tubular TGF- receptor impaired -catenin activity and Genetically restoring -catenin activity in proximal tubules lacking the TGF- receptor dramatically improved the tubular response to CKD in mice. Deleting the TGF- receptor alters many growth factors, and therefore, this ameliorated response may be a direct effect of -catenin activity or an indirect effect of -catenin interacting with other growth factors. In conclusion, blocking TGF- and -catenin crosstalk in proximal tubules exacerbates tubular injury in two models of CKD.
Copyright © 2017 by the American Society of Nephrology.
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22 MeSH Terms
The PGE2 EP3 Receptor Regulates Diet-Induced Adiposity in Male Mice.
Ceddia RP, Lee D, Maulis MF, Carboneau BA, Threadgill DW, Poffenberger G, Milne G, Boyd KL, Powers AC, McGuinness OP, Gannon M, Breyer RM
(2016) Endocrinology 157: 220-32
MeSH Terms: Adipose Tissue, White, Adiposity, Animals, Cell Size, Crosses, Genetic, Diabetes Mellitus, Type 2, Diet, High-Fat, Insulin Resistance, Lipid Metabolism, Liver, Macrophage Activation, Male, Mice, Inbred C57BL, Mice, Knockout, Muscle, Skeletal, Necrosis, Non-alcoholic Fatty Liver Disease, Obesity, Panniculitis, Receptors, Prostaglandin E, EP3 Subtype, Weight Gain
Show Abstract · Added January 12, 2016
Mice carrying a targeted disruption of the prostaglandin E2 (PGE2) E-prostanoid receptor 3 (EP3) gene, Ptger3, were fed a high-fat diet (HFD), or a micronutrient matched control diet, to investigate the effects of disrupted PGE2-EP3 signaling on diabetes in a setting of diet-induced obesity. Although no differences in body weight were seen in mice fed the control diet, when fed a HFD, EP3(-/-) mice gained more weight relative to EP3(+/+) mice. Overall, EP3(-/-) mice had increased epididymal fat mass and adipocyte size; paradoxically, a relative decrease in both epididymal fat pad mass and adipocyte size was observed in the heaviest EP3(-/-) mice. The EP3(-/-) mice had increased macrophage infiltration, TNF-α, monocyte chemoattractant protein-1, IL-6 expression, and necrosis in their epididymal fat pads as compared with EP3(+/+) animals. Adipocytes isolated from EP3(+/+) or EP3(-/-) mice were assayed for the effect of PGE2-evoked inhibition of lipolysis. Adipocytes isolated from EP3(-/-) mice lacked PGE2-evoked inhibition of isoproterenol stimulated lipolysis compared with EP3(+/+). EP3(-/-) mice fed HFD had exaggerated ectopic lipid accumulation in skeletal muscle and liver, with evidence of hepatic steatosis. Both blood glucose and plasma insulin levels were similar between genotypes on a control diet, but when fed HFD, EP3(-/-) mice became hyperglycemic and hyperinsulinemic when compared with EP3(+/+) fed HFD, demonstrating a more severe insulin resistance phenotype in EP3(-/-). These results demonstrate that when fed a HFD, EP3(-/-) mice have abnormal lipid distribution, developing excessive ectopic lipid accumulation and associated insulin resistance.
3 Communities
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21 MeSH Terms
Global deletion of Ankrd1 results in a wound-healing phenotype associated with dermal fibroblast dysfunction.
Samaras SE, Almodóvar-García K, Wu N, Yu F, Davidson JM
(2015) Am J Pathol 185: 96-109
MeSH Terms: Adenoviridae, Animals, Cell Movement, Collagen, Crosses, Genetic, Exons, Female, Fibroblasts, Gels, Gene Deletion, Gene Expression Profiling, Genotype, Green Fluorescent Proteins, MAP Kinase Signaling System, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Muscle Proteins, Necrosis, Nuclear Proteins, Organ Size, Phenotype, Promoter Regions, Genetic, RNA, Recombination, Genetic, Repressor Proteins, Skin, Wound Healing
Show Abstract · Added January 20, 2015
The expression of ankyrin repeat domain protein 1 (Ankrd1), a transcriptional cofactor and sarcomeric component, is strongly elevated by wounding and tissue injury. We developed a conditional Ankrd1(fl/fl) mouse, performed global deletion with Sox2-cre, and assessed the role of this protein in cutaneous wound healing. Although global deletion of Ankrd1 did not affect mouse viability or development, Ankrd1(-/-) mice had at least two significant wound-healing phenotypes: extensive necrosis of ischemic skin flaps, which was reversed by adenoviral expression of ANKRD1, and delayed excisional wound closure, which was characterized by decreased contraction and reduced granulation tissue thickness. Skin fibroblasts isolated from Ankrd1(-/-) mice did not spread or migrate on collagen- or fibronectin-coated surfaces as efficiently as fibroblasts isolated from Ankrd1(fl/fl) mice. More important, Ankrd1(-/-) fibroblasts failed to contract three-dimensional floating collagen gels. Reconstitution of ANKRD1 by adenoviral infection stimulated both collagen gel contraction and actin fiber organization. These in vitro data were consistent with in vivo wound closure studies, and suggest that ANKRD1 is important for the proper interaction of fibroblasts with a compliant collagenous matrix both in vitro and in vivo.
Copyright © 2015 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.
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30 MeSH Terms
Loss of col8a1a function during zebrafish embryogenesis results in congenital vertebral malformations.
Gray RS, Wilm TP, Smith J, Bagnat M, Dale RM, Topczewski J, Johnson SL, Solnica-Krezel L
(2014) Dev Biol 386: 72-85
MeSH Terms: Alleles, Animals, Collagen Type VIII, Crosses, Genetic, Gene Expression Regulation, Developmental, In Situ Hybridization, Meiosis, Microscopy, Confocal, Microscopy, Electron, Transmission, Mutation, Notochord, Osteoblasts, Protein-Lysine 6-Oxidase, Spine, Time Factors, Zebrafish
Show Abstract · Added March 20, 2014
Congenital vertebral malformations (CVM) occur in 1 in 1000 live births and in many cases can cause spinal deformities, such as scoliosis, and result in disability and distress of affected individuals. Many severe forms of the disease, such as spondylocostal dystostosis, are recessive monogenic traits affecting somitogenesis, however the etiologies of the majority of CVM cases remain undetermined. Here we demonstrate that morphological defects of the notochord in zebrafish can generate congenital-type spine defects. We characterize three recessive zebrafish leviathan/col8a1a mutant alleles ((m531, vu41, vu105)) that disrupt collagen type VIII alpha1a (col8a1a), and cause folding of the embryonic notochord and consequently adult vertebral column malformations. Furthermore, we provide evidence that a transient loss of col8a1a function or inhibition of Lysyl oxidases with drugs during embryogenesis was sufficient to generate vertebral fusions and scoliosis in the adult spine. Using periodic imaging of individual zebrafish, we correlate focal notochord defects of the embryo with vertebral malformations (VM) in the adult. Finally, we show that bends and kinks in the notochord can lead to aberrant apposition of osteoblasts normally confined to well-segmented areas of the developing vertebral bodies. Our results afford a novel mechanism for the formation of VM, independent of defects of somitogenesis, resulting from aberrant bone deposition at regions of misshapen notochord tissue.
Copyright © 2013 Elsevier Inc. All rights reserved.
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16 MeSH Terms
Generation of a tenascin-C-CreER2 knockin mouse line for conditional DNA recombination in renal medullary interstitial cells.
He W, Xie Q, Wang Y, Chen J, Zhao M, Davis LS, Breyer MD, Gu G, Hao CM
(2013) PLoS One 8: e79839
MeSH Terms: Animals, Aquaporin 1, Aquaporin 2, Crosses, Genetic, Cyclooxygenase 2, Female, Fibroblasts, Founder Effect, Gene Expression Regulation, Gene Knock-In Techniques, Genes, Reporter, Green Fluorescent Proteins, Integrases, Kidney Medulla, Lac Operon, Male, Mice, Mice, Transgenic, Promoter Regions, Genetic, Tamoxifen, Tenascin, Transgenes
Show Abstract · Added January 10, 2014
Renal medullary interstitial cells (RMIC) are specialized fibroblast-like cells that exert important functions in maintaining body fluid homeostasis and systemic blood pressure. Here, we generated a RMIC specific tenascin-C promoter driven inducible CreER2 knockin mouse line with an EGFP reporter. Similar as endogenous tenascin-C expression, the reporter EGFP expression in the tenascin-C-CreER2(+/-) mice was observed in the inner medulla of the kidney, and co-localized with COX2 but not with AQP2 or AQP1, suggesting selective expression in RMICs. After recombination (tenascin-C-CreER2(+/-)/ROSA26-lacZ(+/-) mice + tamoxifen), β-gal activity was restricted to the cells in the inner medulla of the kidney, and didn't co-localize with AQP2, consistent with selective Cre recombinase activity in RMICs. Cre activity was not obvious in other major organs or without tamoxifen treatment. This inducible RMIC specific Cre mouse line should therefore provide a novel tool to manipulate genes of interest in RMICs.
1 Communities
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22 MeSH Terms
β-Cell-specific protein kinase A activation enhances the efficiency of glucose control by increasing acute-phase insulin secretion.
Kaihara KA, Dickson LM, Jacobson DA, Tamarina N, Roe MW, Philipson LH, Wicksteed B
(2013) Diabetes 62: 1527-36
MeSH Terms: Animals, Crosses, Genetic, Cyclic AMP, Cyclic AMP-Dependent Protein Kinases, Enzyme Induction, Exenatide, Glucose Clamp Technique, Hyperglycemia, Hypoglycemic Agents, Insulin, Insulin Secretion, Insulin-Secreting Cells, Kinetics, Mice, Mutant Proteins, Patch-Clamp Techniques, Peptides, Phosphorylation, Protein Processing, Post-Translational, Protein Subunits, Second Messenger Systems, Up-Regulation, Venoms
Show Abstract · Added February 12, 2015
Acute insulin secretion determines the efficiency of glucose clearance. Moreover, impaired acute insulin release is characteristic of reduced glucose control in the prediabetic state. Incretin hormones, which increase β-cell cAMP, restore acute-phase insulin secretion and improve glucose control. To determine the physiological role of the cAMP-dependent protein kinase (PKA), a mouse model was developed to increase PKA activity specifically in the pancreatic β-cells. In response to sustained hyperglycemia, PKA activity potentiated both acute and sustained insulin release. In contrast, a glucose bolus enhanced acute-phase insulin secretion alone. Acute-phase insulin secretion was increased 3.5-fold, reducing circulating glucose to 58% of levels in controls. Exendin-4 increased acute-phase insulin release to a similar degree as PKA activation. However, incretins did not augment the effects of PKA on acute-phase insulin secretion, consistent with incretins acting primarily via PKA to potentiate acute-phase insulin secretion. Intracellular calcium signaling was unaffected by PKA activation, suggesting that the effects of PKA on acute-phase insulin secretion are mediated by the phosphorylation of proteins involved in β-cell exocytosis. Thus, β-cell PKA activity transduces the cAMP signal to dramatically increase acute-phase insulin secretion, thereby enhancing the efficiency of insulin to control circulating glucose.
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23 MeSH Terms
Absence of Ca2+-stimulated adenylyl cyclases leads to reduced synaptic plasticity and impaired experience-dependent fear memory.
Wieczorek L, Majumdar D, Wills TA, Hu L, Winder DG, Webb DJ, Muglia LJ
(2012) Transl Psychiatry 2: e126
MeSH Terms: Adenylyl Cyclases, Animals, Calcium, Crosses, Genetic, Fear, Gene-Environment Interaction, Hippocampus, Long-Term Potentiation, Membrane Glycoproteins, Mental Recall, Mice, Mice, Inbred C57BL, Mice, Knockout, Nerve Tissue Proteins, Neurogenesis, Neuronal Plasticity, Prosencephalon, Synapses
Show Abstract · Added May 19, 2014
Ca(2+)-stimulated adenylyl cyclase (AC) 1 and 8 are two genes that have been shown to play critical roles in fear memory. AC1 and AC8 couple neuronal activity and intracellular Ca(2+) increases to the production of cyclic adenosine monophosphate and are localized synaptically, suggesting that Ca(2+)-stimulated ACs may modulate synaptic plasticity. Here, we first established that Ca(2+)-stimulated ACs modulate protein markers of synaptic activity at baseline and after learning. Primary hippocampal cell cultures showed that AC1/AC8 double-knockout (DKO) mice have reduced SV2, a synaptic vesicle protein, abundance along their dendritic processes, and this reduction can be rescued through lentivirus delivery of AC8 to the DKO cells. Additionally, phospho-synapsin, a protein implicated in the regulation of neurotransmitter release at the synapse, is decreased in vivo 1 h after conditioned fear (CF) training in DKO mice. Importantly, additional experiments showed that long-term potentiation deficits present in DKO mice are rescued by acutely replacing AC8 in the forebrain, further supporting the idea that Ca(2+)-stimulated AC activity is a crucial modulator of synaptic plasticity. Previous studies have demonstrated that memory is continually modulated by gene-environment interactions. The last set of experiments evaluated the effects of knocking out AC1 and AC8 genes on experience-dependent changes in CF memory. We showed that the strength of CF memory in wild-type mice is determined by previous environment, minimal or enriched, whereas memory in DKO mice is unaffected. Thus, overall these results show that AC1 and AC8 modulate markers of synaptic activity and help integrate environmental information to modulate fear memory.
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18 MeSH Terms
Defect in regulatory B-cell function and development of systemic autoimmunity in T-cell Ig mucin 1 (Tim-1) mucin domain-mutant mice.
Xiao S, Brooks CR, Zhu C, Wu C, Sweere JM, Petecka S, Yeste A, Quintana FJ, Ichimura T, Sobel RA, Bonventre JV, Kuchroo VK
(2012) Proc Natl Acad Sci U S A 109: 12105-10
MeSH Terms: Animals, Autoantibodies, Autoimmunity, B-Lymphocytes, Regulatory, Blotting, Western, Crosses, Genetic, DNA Primers, Enzyme-Linked Immunosorbent Assay, Flow Cytometry, Hepatitis A Virus Cellular Receptor 1, Interferon-gamma, Interleukin-10, Membrane Proteins, Mice, Mice, Inbred C57BL, Mice, Mutant Strains, Mucins, Mutagenesis, Protein Structure, Tertiary, Reverse Transcriptase Polymerase Chain Reaction, T-Lymphocytes
Show Abstract · Added September 12, 2016
Tim-1, a type I transmembrane glycoprotein, consists of an IgV domain and a mucin domain. The IgV domain is essential for binding Tim-1 to its ligands, but little is known about the role of the mucin domain, even though genetic association of TIM-1 with atopy/asthma has been linked to the length of mucin domain. We generated a Tim-1-mutant mouse (Tim-1(Δmucin)) in which the mucin domain was deleted genetically. The mutant mice showed a profound defect in IL-10 production from regulatory B cells (Bregs). Associated with the loss of IL-10 production in B cells, older Tim-1(Δmucin) mice developed spontaneous autoimmunity associated with hyperactive T cells, with increased production of IFN-γ and elevated serum levels of Ig and autoantibodies. However, Tim-1(Δmucin) mice did not develop frank systemic autoimmune disease unless they were crossed onto the Fas-mutant lpr mice on a C57BL/6 background. Tim-1(Δmucin)lpr mice developed accelerated and fulminant systemic autoimmunity with accumulation of abnormal double-negative T cells and autoantibodies to a number of lupus-associated autoantigens. Thus, Tim-1 plays a critical role in maintaining suppressive Breg function, and our data also demonstrate an unexpected role of the Tim-1 mucin domain in regulating Breg function and maintaining self-tolerance.
1 Communities
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21 MeSH Terms
Inducible deletion of epidermal Dicer and Drosha reveals multiple functions for miRNAs in postnatal skin.
Teta M, Choi YS, Okegbe T, Wong G, Tam OH, Chong MM, Seykora JT, Nagy A, Littman DR, Andl T, Millar SE
(2012) Development 139: 1405-16
MeSH Terms: Animals, Crosses, Genetic, DEAD-box RNA Helicases, Epidermal Cells, Gene Deletion, Hair Follicle, Mice, MicroRNAs, Microscopy, Fluorescence, Phenotype, Ribonuclease III, Signal Transduction, Skin, Stem Cells, Wound Healing
Show Abstract · Added January 30, 2013
MicroRNAs (miRNAs) regulate the expression of many mammalian genes and play key roles in embryonic hair follicle development; however, little is known of their functions in postnatal hair growth. We compared the effects of deleting the essential miRNA biogenesis enzymes Drosha and Dicer in mouse skin epithelial cells at successive postnatal time points. Deletion of either Drosha or Dicer during an established growth phase (anagen) caused failure of hair follicles to enter a normal catagen regression phase, eventual follicular degradation and stem cell loss. Deletion of Drosha or Dicer in resting phase follicles did not affect follicular structure or epithelial stem cell maintenance, and stimulation of anagen by hair plucking caused follicular proliferation and formation of a primitive transient amplifying matrix population. However, mutant matrix cells exhibited apoptosis and DNA damage and hair follicles rapidly degraded. Hair follicle defects at early time points post-deletion occurred in the absence of inflammation, but a dermal inflammatory response and hyperproliferation of interfollicular epidermis accompanied subsequent hair follicle degradation. These data reveal multiple functions for Drosha and Dicer in suppressing DNA damage in rapidly proliferating follicular matrix cells, facilitating catagen and maintaining follicular structures and their associated stem cells. Although Drosha and Dicer each possess independent non-miRNA-related functions, the similarity in phenotypes of the inducible epidermal Drosha and Dicer mutants indicates that these defects result primarily from failure of miRNA processing. Consistent with this, Dicer deletion resulted in the upregulation of multiple direct targets of the highly expressed epithelial miRNA miR-205.
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15 MeSH Terms