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5. Aging. Aging-induced type I interferon response at the choroid plexus negatively affects brain function.

Author

Baruch K, Deczkowska A, David E, Castellano JM, Miller O, Kertser A, Berkutzki T, Barnett-Itzhaki Z, Bezalel D, Wyss-Coray T, Amit I, and Schwartz M

Subjects
Aging genetics, Animals, Hippocampus cytology, Mice, Mice, Transgenic, Neurogenesis, Receptors, Interferon genetics, Interferon gamma Receptor, Aging pathology, Brain physiology, Choroid Plexus metabolism, Cognition, Gene Expression Regulation, Interferon Regulatory Factors genetics, Interferon Type I physiology
Abstract

Aging-associated cognitive decline is affected by factors produced inside and outside the brain. By using multiorgan genome-wide analysis of aged mice, we found that the choroid plexus, an interface between the brain and the circulation, shows a type I interferon (IFN-I)-dependent gene expression profile that was also found in aged human brains. In aged mice, this response was induced by brain-derived signals, present in the cerebrospinal fluid. Blocking IFN-I signaling within the aged brain partially restored cognitive function and hippocampal neurogenesis and reestablished IFN-II-dependent choroid plexus activity, which is lost in aging. Our data identify a chronic aging-induced IFN-I signature, often associated with antiviral response, at the brain's choroid plexus and demonstrate its negative influence on brain function, thereby suggesting a target for ameliorating cognitive decline in aging., (Copyright © 2014, American Association for the Advancement of Science.)

Published
2014
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6. IFN-γ-dependent activation of the brain's choroid plexus for CNS immune surveillance and repair.

Author

Kunis G, Baruch K, Rosenzweig N, Kertser A, Miller O, Berkutzki T, and Schwartz M

Subjects
Animals, Cell Movement genetics, Cell Movement immunology, Central Nervous System metabolism, Central Nervous System pathology, Choroid Plexus metabolism, Epithelium immunology, Epithelium metabolism, Epithelium pathology, Female, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Protein Transport genetics, Protein Transport immunology, Receptors, Interferon deficiency, Receptors, Interferon genetics, Interferon gamma Receptor, Central Nervous System immunology, Choroid Plexus immunology, Choroid Plexus pathology, Interferon-gamma physiology
Abstract

Infiltrating T cells and monocyte-derived macrophages support central nervous system repair. Although infiltration of leucocytes to the injured central nervous system has recently been shown to be orchestrated by the brain's choroid plexus, the immunological mechanism that maintains this barrier and regulates its activity as a selective gate is poorly understood. Here, we hypothesized that CD4(+) effector memory T cells, recently shown to reside at the choroid plexus stroma, regulate leucocyte trafficking through this portal through their interactions with the choroid plexus epithelium. We found that the naïve choroid plexus is populated by T helper 1, T helper 2 and regulatory T cells, but not by encephalitogenic T cells. In vitro findings revealed that the expression of immune cell trafficking determinants by the choroid plexus epithelium is specifically induced by interferon-γ. Tumour necrosis factor-α and interferon-γ reciprocally controlled the expression of their receptors by the choroid plexus epithelium, and had a synergistic effect in inducing the epithelial expression of trafficking molecules. In vivo, interferon-γ-dependent signalling controlled trafficking through the choroid plexus; interferon-γ receptor knockout mice exhibited reduced levels of T cells and monocyte entry to the cerebrospinal fluid and impaired recovery following spinal cord injury. Moreover, reduced expression of trafficking molecules by the choroid plexus was correlated with reduced CD4(+) T cells in the choroid plexus and cerebrospinal fluid of interferon-γ receptor knockout mice. Similar effect on the expression of trafficking molecules by the choroid plexus was found in bone-marrow chimeric mice lacking interferon-γ receptor in the central nervous system, or reciprocally, lacking interferon-γ in the circulation. Collectively, our findings attribute a novel immunological plasticity to the choroid plexus epithelium, allowing it to serve, through interferon-γ signalling, as a tightly regulated entry gate into the central nervous system for circulating leucocytes immune surveillance under physiological conditions, and for repair following acute injury.

Published
2013
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7. Angiotensin 1-7 as means to prevent the metabolic syndrome: lessons from the fructose-fed rat model.

Author

Marcus Y, Shefer G, Sasson K, Kohen F, Limor R, Pappo O, Nevo N, Biton I, Bach M, Berkutzki T, Fridkin M, Benayahu D, Shechter Y, and Stern N

Subjects
Adipose Tissue drug effects, Adipose Tissue metabolism, Animals, Disease Models, Animal, Drug Administration Schedule, Epididymis metabolism, Extracellular Signal-Regulated MAP Kinases genetics, Extracellular Signal-Regulated MAP Kinases metabolism, Gene Expression Regulation drug effects, Male, Muscle, Skeletal, Oxidative Stress, Phosphorylation, Proto-Oncogene Mas, Proto-Oncogene Proteins metabolism, Rats, Rats, Wistar, Reactive Oxygen Species, Receptors, G-Protein-Coupled metabolism, Transcription Factor RelA genetics, Transcription Factor RelA metabolism, Angiotensin I administration & dosage, Cardiovascular Agents administration & dosage, Dietary Carbohydrates administration & dosage, Fructose administration & dosage, Metabolic Syndrome prevention & control, Peptide Fragments administration & dosage
Abstract

We studied the effects of chronic angiotensin 1-7 (Ang 1-7) treatment in an experimental model of the metabolic syndrome, i.e., rats given high-fructose/low-magnesium diet (HFrD). Rats were fed on HFrD for 24 weeks with and without Ang 1-7 (576 µg/kg/day, s.c., Alzet pumps). After 6 months, Ang 1-7-treated animals had lower body weight (-9.5%), total fat mass (detected by magnetic resonance imaging), and serum triglycerides (-51%), improved glucose tolerance, and better insulin sensitivity. Similar metabolic effects were also evident, albeit in the absence of weight loss, in rats first exposed to HFrD for 5 months and then subjected to short-term (4 weeks) treatment with Ang 1-7. Six months of Ang 1-7 treatment were associated with lower plasma renin activity (-40%) and serum aldosterone (-48%), less hepatosteatatitis, and a reduction in epididymal adipocyte volume. The marked attenuation of macrophage infiltration in white adipose tissue (WAT) was associated with reduced levels of the pP65 protein in the epididymal fat tissue, suggesting less activation of the nuclear factor-κB (NFκB) pathway in Ang 1-7-treated rats. WAT from Ang 1-7-treated rats showed reduced NADPH-stimulated superoxide production. In single muscle fibers (myofibers) harvested and grown ex vivo for 10 days, myofibers from HFrD rats gave rise to 20% less myogenic cells than the Ang 1-7-treated rats. Fully developed adipocytes were present in most HFrD myofiber cultures but entirely absent in cultures from Ang 1-7-treated rats. In summary, Ang 1-7 had an ameliorating effect on insulin resistance, hypertriglyceridemia, fatty liver, obesity, adipositis, and myogenic and adipogenic differentiation in muscle tissue in the HFrD rats.

Published
2013
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8. CNS-specific immunity at the choroid plexus shifts toward destructive Th2 inflammation in brain aging.

Author

Baruch K, Ron-Harel N, Gal H, Deczkowska A, Shifrut E, Ndifon W, Mirlas-Neisberg N, Cardon M, Vaknin I, Cahalon L, Berkutzki T, Mattson MP, Gomez-Pinilla F, Friedman N, and Schwartz M

Subjects
Adaptive Immunity, Animals, Blood-Brain Barrier immunology, Blood-Brain Barrier pathology, Cell Proliferation, Epithelium immunology, Epithelium pathology, Hippocampus immunology, Hippocampus pathology, Immunologic Memory, Lymphopenia immunology, Lymphopenia pathology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Neuroimmunomodulation, Receptors, Interferon deficiency, Receptors, Interferon genetics, Interferon gamma Receptor, Aging immunology, Aging pathology, Brain immunology, Brain pathology, Choroid Plexus immunology, Choroid Plexus pathology, Th2 Cells immunology, Th2 Cells pathology
Abstract

The adaptive arm of the immune system has been suggested as an important factor in brain function. However, given the fact that interactions of neurons or glial cells with T lymphocytes rarely occur within the healthy CNS parenchyma, the underlying mechanism is still a mystery. Here we found that at the interface between the brain and blood circulation, the epithelial layers of the choroid plexus (CP) are constitutively populated with CD4(+) effector memory cells with a T-cell receptor repertoire specific to CNS antigens. With age, whereas CNS specificity in this compartment was largely maintained, the cytokine balance shifted in favor of the T helper type 2 (Th2) response; the Th2-derived cytokine IL-4 was elevated in the CP of old mice, relative to IFN-γ, which decreased. We found this local cytokine shift to critically affect the CP epithelium, triggering it to produce the chemokine CCL11 shown to be associated with cognitive dysfunction. Partial restoration of cognitive ability in aged mice, by lymphopenia-induced homeostasis-driven proliferation of memory T cells, was correlated with restoration of the IL-4:IFN-γ ratio at the CP and modulated the expression of plasticity-related genes at the hippocampus. Our data indicate that the cytokine milieu at the CP epithelium is affected by peripheral immunosenescence, with detrimental consequences to the aged brain. Amenable to immunomodulation, this interface is a unique target for arresting age-related cognitive decline.

Published
2013
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9. Blood glutamate scavengers prolong the survival of rats and mice with brain-implanted gliomas.

Author

Ruban A, Berkutzki T, Cooper I, Mohar B, and Teichberg VI

Subjects
Animals, Brain, Brain Neoplasms blood, Brain Neoplasms pathology, Cell Line, Tumor, Cell Proliferation, Dacarbazine administration & dosage, Glioma blood, Glioma pathology, Humans, Male, Mice, Mice, Nude, Rats, Rats, Sprague-Dawley, Temozolomide, Tumor Burden drug effects, Antineoplastic Agents, Alkylating administration & dosage, Aspartate Aminotransferases administration & dosage, Dacarbazine analogs & derivatives, Glutamic Acid blood, Oxaloacetic Acid administration & dosage
Abstract

L-Glutamate (Glu) plays a crucial role in the growth of malignant gliomas. We have established the feasibility of accelerating a naturally occurring brain to-blood Glu efflux by decreasing blood Glu levels with intravenous oxaloacetate, the respective Glu co-substrate of the blood resident enzyme humane glutamate–oxaloacetate transaminase(hGOT). We wished to demonstrate that blood Glu scavenging provides neuroprotection in the case of glioma.We now describe the neuroprotective effects of blood Glu scavenging in a fatal condition such as brain-implanted C6 glioma in rats and brain-implanted human U87 MG glioma in nude mice. Rat (C-6) or human (U87) glioma cells were grafted stereotactically in the brain of rats or mice. After development of tumors, the animals were drinking oxaloacetate with or without injections of hGOT. In addition, mice were treated with combination treatment, which included drinking oxaloacetate with intracutaneous injections of hGOT and intraperitoneal injection of Temozolomide. Animals drinking oxaloacetate with or without injections of hGOT displayed a smaller tumor volume, reduced invasiveness and prolonged survival than control animals drinking saline. These effects were significantly enhanced by Temozolomide in mice, which increased survival by 237%. This is the first demonstration of blood Glu scavenging in brain cancer, and because of its safety, is likely to be of clinical significance for the future treatment of human gliomas. As we demonstrated, the blood glutamate scavenging treatment in combination with TMZ could be a good candidate or as an alternative treatment to the patients that do not respond to TMZ.

Published
2012
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10. Stiffening of rabbit corneas by the bacteriochlorophyll derivative WST11 using near infrared light.

Author

Marcovich AL, Brandis A, Daphna O, Feine I, Pinkas I, Goldschmidt R, Kalchenko V, Berkutzki T, Wagner HD, Salomon Y, and Scherz A

Subjects
Animals, Bacteriochlorophylls pharmacokinetics, Biomechanical Phenomena drug effects, Biomechanical Phenomena physiology, Corneal Keratocytes drug effects, Corneal Keratocytes physiology, Corneal Keratocytes radiation effects, Corneal Stroma drug effects, Corneal Stroma physiology, Corneal Stroma radiation effects, Electron Spin Resonance Spectroscopy, Endothelium, Corneal drug effects, Endothelium, Corneal physiology, Endothelium, Corneal radiation effects, Infrared Rays therapeutic use, Lasers, Semiconductor, Models, Animal, Photobleaching drug effects, Photosensitizing Agents pharmacology, Rabbits, Spectrometry, Fluorescence, Stress, Mechanical, Tensile Strength physiology, Bacteriochlorophylls pharmacology, Cornea drug effects, Cornea physiology, Cornea radiation effects, Phototherapy methods, Tensile Strength drug effects, Tensile Strength radiation effects
Abstract

Purpose: We evaluated the efficacy and safety of photochemical corneal stiffening by palladium bacteriochlorin 13'-(2-sulfoethyl)amide dipotassium salt (WST11) and near infrared (NIR) illumination, using ex vivo and in vivo rabbit eye models., Methods: Corneas of post mortem rabbits and living rabbits were pretreated topically with 2.5 mg/mL WST11 in saline or in 20% dextran T-500 (WST-D), washed and illuminated with an NIR diode laser (755 nm, 10 mW/cm(2). Studies with corneas of untreated fellow eyes served as controls. Tensile strength measurements, histopathology, electron spin resonance, and optical spectroscopy and fluorescence microscopy were used to assess treatment effects. Comparative studies were performed with standard riboflavin/ultraviolet-A light (UVA) treatment., Results: WST11/NIR treatment significantly increased corneal stiffness following ex vivo or in vivo treatment, compared to untreated contralateral eyes. The incremental ultimate stress and Young's modulus of treated corneas increased by 45, 113, 115%, and 10, 79, and 174% following 10, 20, and 30 minutes of incubation with WST11, respectively. WST-D/NIR had a similar stiffening effect, but markedly reduced post-treatment edema and shorter time of epithelial healing. WST11/NIR and WST-D/NIR generate hydroxyl and superoxide radicals, but no singlet oxygen in the cornea. Histology demonstrated a reduction in the keratocyte population in the anterior half of the corneal stroma, without damage to the endothelium., Conclusions: Treatment of rabbit corneas, with either WST11/NIR or WST-D/NIR, increases their biomechanical strength through a mechanism that does not involve singlet oxygen. The WST-D/NIR treatment showed less adverse effects, demonstrating a new potential for clinical use in keratoconus and corneal ectasia after refractive surgery.

Published
2012
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11. Immunomodulation by poly-YE reduces organophosphate-induced brain damage.

Author

Finkelstein A, Kunis G, Berkutzki T, Ronen A, Krivoy A, Yoles E, Last D, Mardor Y, Van Shura K, McFarland E, Capacio BA, Eisner C, Gonzales M, Gregorowicz D, Eisenkraft A, McDonough JH, and Schwartz M

Subjects
Animals, Brain pathology, Brain Diseases pathology, Brain-Derived Neurotrophic Factor metabolism, CD4-Positive T-Lymphocytes drug effects, Cell Proliferation, Flow Cytometry, Image Processing, Computer-Assisted, Immunohistochemistry, Magnetic Resonance Imaging, Male, Maze Learning drug effects, Motor Activity drug effects, Paraoxon antagonists & inhibitors, Paraoxon toxicity, Rats, Rats, Sprague-Dawley, Soman antagonists & inhibitors, Soman toxicity, T-Lymphocytes drug effects, Brain Diseases chemically induced, Brain Diseases drug therapy, Chemical Warfare Agents toxicity, Cholinesterase Inhibitors toxicity, Immunologic Factors pharmacology, Neuroprotective Agents pharmacology, Organophosphorus Compounds toxicity, Peptides pharmacology
Abstract

Accidental organophosphate poisoning resulting from environmental or occupational exposure, as well as the deliberate use of nerve agents on the battlefield or by terrorists, remain major threats for multi-casualty events, with no effective therapies yet available. Even transient exposure to organophosphorous compounds may lead to brain damage associated with microglial activation and to long-lasting neurological and psychological deficits. Regulation of the microglial response by adaptive immunity was previously shown to reduce the consequences of acute insult to the central nervous system (CNS). Here, we tested whether an immunization-based treatment that affects the properties of T regulatory cells (Tregs) can reduce brain damage following organophosphate intoxication, as a supplement to the standard antidotal protocol. Rats were intoxicated by acute exposure to the nerve agent soman, or the organophosphate pesticide, paraoxon, and after 24 h were treated with the immunomodulator, poly-YE. A single injection of poly-YE resulted in a significant increase in neuronal survival and tissue preservation. The beneficial effect of poly-YE treatment was associated with specific recruitment of CD4(+) T cells into the brain, reduced microglial activation, and an increase in the levels of brain derived neurotrophic factor (BDNF) in the piriform cortex. These results suggest therapeutic intervention with poly-YE as an immunomodulatory supplementary approach against consequences of organophosphate-induced brain damage., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2012
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12. Abnormal changes in NKT cells, the IGF-1 axis, and liver pathology in an animal model of ALS.

Author

Finkelstein A, Kunis G, Seksenyan A, Ronen A, Berkutzki T, Azoulay D, Koronyo-Hamaoui M, and Schwartz M

Subjects
Amyotrophic Lateral Sclerosis enzymology, Amyotrophic Lateral Sclerosis metabolism, Animals, Base Sequence, DNA Primers, Enzyme-Linked Immunosorbent Assay, Flow Cytometry, Immunohistochemistry, Mice, Real-Time Polymerase Chain Reaction, Spinal Cord immunology, Spleen immunology, Superoxide Dismutase metabolism, Amyotrophic Lateral Sclerosis immunology, Disease Models, Animal, Insulin-Like Growth Factor I metabolism, Killer Cells, Natural immunology, Liver pathology, T-Lymphocytes immunology
Abstract

Amyotrophic lateral sclerosis (ALS) is a rapidly progressing fatal neurodegenerative disorder characterized by the selective death of motor neurons (MN) in the spinal cord, and is associated with local neuroinflammation. Circulating CD4(+) T cells are required for controlling the local detrimental inflammation in neurodegenerative diseases, and for supporting neuronal survival, including that of MN. T-cell deficiency increases neuronal loss, while boosting T cell levels reduces it. Here, we show that in the mutant superoxide dismutase 1 G93A (mSOD1) mouse model of ALS, the levels of natural killer T (NKT) cells increased dramatically, and T-cell distribution was altered both in lymphoid organs and in the spinal cord relative to wild-type mice. The most significant elevation of NKT cells was observed in the liver, concomitant with organ atrophy. Hepatic expression levels of insulin-like growth factor (IGF)-1 decreased, while the expression of IGF binding protein (IGFBP)-1 was augmented by more than 20-fold in mSOD1 mice relative to wild-type animals. Moreover, hepatic lymphocytes of pre-symptomatic mSOD1 mice were found to secrete significantly higher levels of cytokines when stimulated with an NKT ligand, ex-vivo. Immunomodulation of NKT cells using an analogue of α-galactosyl ceramide (α-GalCer), in a specific regimen, diminished the number of these cells in the periphery, and induced recruitment of T cells into the affected spinal cord, leading to a modest but significant prolongation of life span of mSOD1 mice. These results identify NKT cells as potential players in ALS, and the liver as an additional site of major pathology in this disease, thereby emphasizing that ALS is not only a non-cell autonomous, but a non-tissue autonomous disease, as well. Moreover, the results suggest potential new therapeutic targets such as the liver for immunomodulatory intervention for modifying the disease, in addition to MN-based neuroprotection and systemic treatments aimed at reducing oxidative stress.

Published
2011
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13. A critical role for ceramide synthase 2 in liver homeostasis: II. insights into molecular changes leading to hepatopathy.

Author

Pewzner-Jung Y, Brenner O, Braun S, Laviad EL, Ben-Dor S, Feldmesser E, Horn-Saban S, Amann-Zalcenstein D, Raanan C, Berkutzki T, Erez-Roman R, Ben-David O, Levy M, Holzman D, Park H, Nyska A, Merrill AH Jr, and Futerman AH

Subjects
Animals, Biomarkers, Tumor genetics, Blotting, Western, Carcinoma, Hepatocellular enzymology, Carcinoma, Hepatocellular genetics, Female, Gene Expression Profiling, Hepatocytes cytology, Hepatocytes enzymology, Hepatomegaly enzymology, Homeostasis, Lipids analysis, Liver metabolism, Liver Function Tests, Liver Neoplasms, Experimental enzymology, Liver Neoplasms, Experimental genetics, Mice, Mice, Inbred C57BL, Mice, Knockout, Oligonucleotide Array Sequence Analysis, Oxidoreductases antagonists & inhibitors, RNA, Messenger genetics, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Biomarkers, Tumor metabolism, Carcinoma, Hepatocellular pathology, Gene Expression Regulation, Developmental, Hepatomegaly pathology, Liver pathology, Liver Neoplasms, Experimental pathology, Oxidoreductases physiology
Abstract

We have generated a mouse that cannot synthesize very long acyl chain (C22-C24) ceramides (Pewzner-Jung, Y., Park, H., Laviad, E. L., Silva, L. C., Lahiri, S., Stiban, J., Erez-Roman, R., Brugger, B., Sachsenheimer, T., Wieland, F. T., Prieto, M., Merrill, A. H., and Futerman, A. H. (2010) J. Biol. Chem. 285, 10902-10910) due to ablation of ceramide synthase 2 (CerS2). As a result, significant changes were observed in the sphingolipid profile of livers from these mice, including elevated C16-ceramide and sphinganine levels. We now examine the functional consequences of these changes. CerS2 null mice develop severe nonzonal hepatopathy from about 30 days of age, the age at which CerS2 expression peaks in wild type mice, and display increased rates of hepatocyte apoptosis and proliferation. In older mice there is extensive and pronounced hepatocellular anisocytosis with widespread formation of nodules of regenerative hepatocellular hyperplasia. Progressive hepatomegaly and noninvasive hepatocellular carcinoma are also seen from approximately 10 months of age. Even though CerS2 is found at equally high mRNA levels in kidney and liver, there are no changes in renal function and no pathological changes in the kidney. High throughput analysis of RNA expression in liver revealed up-regulation of genes associated with cell cycle regulation, protein transport, cell-cell interactions and apoptosis, and down-regulation of genes associated with intermediary metabolism, such as lipid and steroid metabolism, adipocyte signaling, and amino acid metabolism. In addition, levels of the cell cycle regulator, the cyclin dependent-kinase inhibitor p21(WAF1/CIP1), were highly elevated, which occurs by at least two mechanisms, one of which may involve p53. We propose a functional rationale for the synthesis of sphingolipids with very long acyl chains in liver homeostasis and in cell physiology.

Published
2010
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14. Uterine DCs are crucial for decidua formation during embryo implantation in mice.

Author

Plaks V, Birnberg T, Berkutzki T, Sela S, BenYashar A, Kalchenko V, Mor G, Keshet E, Dekel N, Neeman M, and Jung S

Subjects
Animals, Cell Differentiation immunology, Cell Proliferation, Dendritic Cells cytology, Embryo Implantation genetics, Embryo Loss genetics, Embryo Loss immunology, Embryo, Mammalian cytology, Embryo, Mammalian embryology, Endometrium blood supply, Endometrium cytology, Female, Male, Mice, Mice, Inbred BALB C, Mice, Transgenic, Neovascularization, Physiologic genetics, Neovascularization, Physiologic immunology, Pregnancy genetics, T-Lymphocytes cytology, T-Lymphocytes immunology, Transforming Growth Factor beta1 genetics, Transforming Growth Factor beta1 immunology, Vascular Endothelial Growth Factor Receptor-1 genetics, Vascular Endothelial Growth Factor Receptor-1 immunology, Dendritic Cells immunology, Embryo Implantation immunology, Embryo, Mammalian immunology, Endometrium immunology, Immune Tolerance physiology, Pregnancy immunology
Abstract

Implantation is a key stage during pregnancy, as the fate of the embryo is often decided upon its first contact with the maternal endometrium. Around this time, DCs accumulate in the uterus; however, their role in pregnancy and, more specifically, implantation, remains unknown. We investigated the function of uterine DCs (uDCs) during implantation using a transgenic mouse model that allows conditional ablation of uDCs in a spatially and temporally regulated manner. Depletion of uDCs resulted in a severe impairment of the implantation process, leading to embryo resorption. Depletion of uDCs also caused embryo resorption in syngeneic and T cell-deficient pregnancies, which argues against a failure to establish immunological tolerance during implantation. Moreover, even in the absence of embryos, experimentally induced deciduae failed to adequately form. Implantation failure was associated with impaired decidual proliferation and differentiation. Dynamic contrast-enhanced MRI revealed perturbed angiogenesis characterized by reduced vascular expansion and attenuated maturation. We suggest therefore that uDCs directly fine-tune decidual angiogenesis by providing two critical factors, sFlt1 and TGF-beta1, that promote coordinated blood vessel maturation. Collectively, uDCs appear to govern uterine receptivity, independent of their predicted role in immunological tolerance, by regulating tissue remodeling and angiogenesis. Importantly, our results may aid in understanding the limited implantation success of embryos transferred following in vitro fertilization.

Published
2008
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