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2. The CD94/NKG2A inhibitory receptor educates uterine NK cells to optimize pregnancy outcomes in humans and mice

Author

Shreeve, Norman, Depierreux, Delphine, Hawkes, Delia, Traherne, James A, Sovio, Ulla, Huhn, Oisin, Jayaraman, Jyothi, Horowitz, Amir, Ghadially, Hormas, Perry, John RB, Moffett, Ashley, Sled, John G, Sharkey, Andrew M, Colucci, Francesco, Traherne, James [0000-0002-6003-8559], Sovio, Ulla [0000-0002-0799-1105], Perry, John [0000-0001-6483-3771], Moffett, Ashley [0000-0002-8388-9073], Colucci, Francesco [0000-0001-5193-6376], and Apollo - University of Cambridge Repository

Subjects
Male, HLA-B, uterine natural killer cells, placenta, HLA-E, education, Uterus, Pregnancy Outcome, NK cells, NKG2A, Killer Cells, Natural, Mice, Inbred C57BL, Mice, inhibitory receptors, HLA Antigens, Pregnancy, asymmetric fetal growth, Animals, Humans, Female, NK Cell Lectin-Like Receptor Subfamily C, NK Cell Lectin-Like Receptor Subfamily D, health care economics and organizations, Genome-Wide Association Study
Abstract

The conserved CD94/NKG2A inhibitory receptor is expressed by nearly all human and ∼50% of mouse uterine natural killer (uNK) cells. Binding human HLA-E and mouse Qa-1, NKG2A drives NK cell education, a process of unknown physiological importance influenced by HLA-B alleles. Here, we show that NKG2A genetic ablation in dams mated with wild-type males caused suboptimal maternal vascular responses in pregnancy, accompanied by perturbed placental gene expression, reduced fetal weight, greater rates of smaller fetuses with asymmetric growth, and abnormal brain development. These are features of the human syndrome pre-eclampsia. In a genome-wide association study of 7,219 pre-eclampsia cases, we found a 7% greater relative risk associated with the maternal HLA-B allele that does not favor NKG2A education. These results show that the maternal HLA-B→HLA-E→NKG2A pathway contributes to healthy pregnancy and may have repercussions on offspring health, thus establishing the physiological relevance for NK cell education. VIDEO ABSTRACT.

Published
2021

3. sj-pdf-1-jcb-10.1177_0271678X211045438 - Supplemental material for A functional cerebral endothelium is necessary to protect against cognitive decline

Author

Trigiani, Lianne J, Bourourou, Miled, Lacalle-Aurioles, María, Lecrux, Clotilde, Hynes, Amy, Spring, Shoshana, Fernandes, Darren J, Sled, John G, Lesage, Frédéric, Schwaninger, Markus, and Hamel, Edith

Subjects
110320 Radiology and Organ Imaging, FOS: Clinical medicine, FOS: Biological sciences, Medicine, Cell Biology, 110305 Emergency Medicine, 110306 Endocrinology, Biochemistry, 69999 Biological Sciences not elsewhere classified, 110904 Neurology and Neuromuscular Diseases, Neuroscience
Abstract

Supplemental material, sj-pdf-1-jcb-10.1177_0271678X211045438 for A functional cerebral endothelium is necessary to protect against cognitive decline by Lianne J Trigiani, Miled Bourourou, María Lacalle-Aurioles, Clotilde Lecrux, Amy Hynes, Shoshana Spring, Darren J Fernandes, John G Sled, Frédéric Lesage, Markus Schwaninger and Edith Hamel in Journal of Cerebral Blood Flow & Metabolism

Published
2021
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4. sj-pdf-1-jcb-10.1177_0271678X211045438 - Supplemental material for A functional cerebral endothelium is necessary to protect against cognitive decline

Author

Trigiani, Lianne J, Bourourou, Miled, Lacalle-Aurioles, María, Lecrux, Clotilde, Hynes, Amy, Spring, Shoshana, Fernandes, Darren J, Sled, John G, Lesage, Frédéric, Schwaninger, Markus, and Hamel, Edith

Subjects
110320 Radiology and Organ Imaging, FOS: Clinical medicine, FOS: Biological sciences, Medicine, Cell Biology, 110305 Emergency Medicine, 110306 Endocrinology, Biochemistry, 69999 Biological Sciences not elsewhere classified, 110904 Neurology and Neuromuscular Diseases, Neuroscience
Abstract

Supplemental material, sj-pdf-1-jcb-10.1177_0271678X211045438 for A functional cerebral endothelium is necessary to protect against cognitive decline by Lianne J Trigiani, Miled Bourourou, María Lacalle-Aurioles, Clotilde Lecrux, Amy Hynes, Shoshana Spring, Darren J Fernandes, John G Sled, Frédéric Lesage, Markus Schwaninger and Edith Hamel in Journal of Cerebral Blood Flow & Metabolism

Published
2021
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5. Malaria in pregnancy alters l-arginine bioavailability and placental vascular development

Author

McDonald, Chloe R., Cahill, Lindsay S., Gamble, Joel R., Elphinstone, Robyn, Gazdzinski, Lisa M., Zhong, Kathleen J. Y., Philson, Adrienne C., Madanitsa, Mwayiwawo, Kalilani-Phiri, Linda, Mwapasa, Victor, terKuile, Feiko, Sled, John G., Conroy, Andrea L., and Kain, Kevin C.

Subjects
wq_200, wa_310, wq_240, wc_750
Abstract

Reducing adverse birth outcomes due to malaria in pregnancy (MIP) is a global health priority. However, there are few safe and effective interventions. l-Arginine is an essential amino acid in pregnancy and an immediate precursor in the biosynthesis of nitric oxide (NO), but there are limited data on the impact of MIP on NO biogenesis. We hypothesized that hypoarginemia contributes to the pathophysiology of MIP and that l-arginine supplementation would improve birth outcomes. In a prospective study of pregnant Malawian women, we show that MIP was associated with lower concentrations of l-arginine and higher concentrations of endogenous inhibitors of NO biosynthesis, asymmetric and symmetric dimethylarginine, which were associated with adverse birth outcomes. In a model of experimental MIP, l-arginine supplementation in dams improved birth outcomes (decreased stillbirth and increased birth weight) compared with controls. The mechanism of action was via normalized angiogenic pathways and enhanced placental vascular development, as visualized by placental microcomputerized tomography imaging. These data define a role for dysregulation of NO biosynthetic pathways in the pathogenesis of MIP and support the evaluation of interventions to enhance l-arginine bioavailability as strategies to improve birth outcomes.

Published
2018

6. Feto‐ and utero‐placental vascular adaptations to chronic maternal hypoxia in the mouse

Author

Cahill, Lindsay S., Rennie, Monique Y., Hoggarth, Johnathan, Yu, Lisa X., Rahman, Anum, Kingdom, John C., Seed, Mike, Macgowan, Christopher K., and Sled, John G.

Subjects
Mice, Fetus, Phenotype, Pregnancy, Placenta, Uterus, Animals, Female, Research papers, Hypoxia, Adaptation, Physiological
Abstract

KEY POINTS: Chronic fetal hypoxia is one of the most common complications of pregnancy and is known to cause fetal growth restriction. The structural adaptations of the placental vasculature responsible for growth restriction with chronic hypoxia are not well elucidated. Using a mouse model of chronic maternal hypoxia in combination with micro‐computed tomography and scanning electron microscopy, we found several placental adaptations that were beneficial to fetal growth including capillary expansion, thinning of the interhaemal membrane and increased radial artery diameters, resulting in a large drop in total utero‐placental vascular resistance. One of the mechanisms used to achieve the rapid increase in capillaries was intussusceptive angiogenesis, a strategy used in human placental development to form terminal gas‐exchanging villi. These results contribute to our understanding of the structural mechanisms of the placental vasculature responsible for fetal growth restriction and provide a baseline for understanding adaptive physiological responses of the placenta to chronic hypoxia. ABSTRACT: The fetus and the placenta in eutherian mammals have a unique set of compensatory mechanisms to respond to several pregnancy complications including chronic maternal hypoxia. This study examined the structural adaptations of the feto‐ and utero‐placental vasculature in an experimental mouse model of chronic maternal hypoxia (11% O(2) from embryonic day (E) 14.5–E17.5). While placental weights were unaffected by exposure to chronic hypoxia, using micro‐computed tomography, we found a 44% decrease in the absolute feto‐placental arterial vascular volume and a 30% decrease in total vessel segments in the chronic hypoxia group compared to control group. Scanning electron microscopy imaging showed significant expansion of the capillary network; consequently, the interhaemal membrane was 11% thinner to facilitate maternal–fetal exchange in the chronic hypoxia placentas. One of the mechanisms for the rapid capillary expansion was intussusceptive angiogenesis. Analysis of the utero‐placental arterial tree showed significant increases (24%) in the diameter of the radial arteries, resulting in a decrease in the total utero‐placental resistance by 2.6‐fold in the mice exposed to chronic maternal hypoxia. Together these adaptations acted to preserve placental weight whereas fetal weight was decreased.

Published
2017

7. Quantification of Gestational Changes in the Uteroplacental Vascular Tree Reveals Vessel Specific Hemodynamic Roles During Pregnancy in Mice1

Author

Rennie, Monique Y., Whiteley, Kathie J., Adamson, S. Lee, and Sled, John G.

Subjects
Mice, Uterine Artery, Pregnancy, Placenta, Radial Artery, Uterus, Hemodynamics, Animals, Female, Placental Circulation, Vascular Resistance, Articles, X-Ray Microtomography
Abstract

The purpose of this study was to establish the time course and hemodynamic significance of de novo formed and enlarged uteroplacental arteries during pregnancy. Using x-ray microcomputed tomography (n = 4-7 placentas from 2-4 dams/gestational group), uteroplacental arterial vascular dimensions were measured at individual implantation sites. Dimensions and topology were used to compute total and vessel-specific resistances and cross-sectional areas. Diameter enlargement of the uterine artery (+55% by Embryonic Day 5.5 [E5.5]) and preplacental radial arteries (+30% by E8.5) was significant only in early gestation. Formation of spiral arteries (E9.5-E11.5), maternal canals, and canal branches (E11.5-E13.5) during midgestation was followed by enlargement of these vessels such that, from E9.5 to E17.5 (near term), spiral artery resistance dropped 9-fold, and canal resistance became negligible. A 12-fold increase in terminal vessel cross-sectional area was nearly sufficient to offset known increases in flow so that blood velocity entering the exchange region was predicted to increase by only 2-fold. The calculated 47% decrease in total resistance downstream of the uterine artery, determined from vascular geometry, was in accord with prior uterine blood flow data in vivo and was due to enlarging spiral artery diameters. Interestingly, radial artery resistance was unchanged after E9.5 so that radial arteries accounted for 91% of resistance and pressure drop in the uteroplacental arterial network by E17.5. These findings led us to propose functional roles for the three morphologically defined vessel types: radial arteries to reduce pressure, spiral artery enlargement to increase flow with gestation, and maternal canal elaboration and enlargement to maintain low exit velocities into the exchange region.

Published
2016

8. Effects of prolonged treatment with memantine in the MRL model of CNS lupus

Author

Marcinko, Katarina, Parsons, Tiffany, Lerch, Jason P., Sled, John G., and Sakic, Boris

Subjects
Article
Abstract

Neuropsychiatric manifestations and brain atrophy of unknown etiology are common and severe complications of systemic lupus erythematosus (SLE). An autoantibody that binds to N-methyl-D-aspartate (NMDA) receptor NR2 has been proposed as a key factor in the etiology of central nervous system (CNS) SLE. This hypothesis was supported by evidence suggesting memantine (MEM), an uncompetitive NMDA receptor antagonist, prevents behavioral dysfunction and brain pathology in healthy mice immunized with a peptide similar to an epitope on the NR2 receptor. Given that SLE is a chronic condition, we presently examine the effects of MEM in MRL/lpr mice, which develop behavioral deficits alongside SLE-like disease.A broad behavioral battery and 7-Tesla MRI were used to examine whether prolonged treatment with MEM (~25 mg/kg b.w. in drinking water) prevents CNS involvement in this spontaneous model of SLE.Although MEM increased novel object exploration in MRL/lpr mice, it did not show other beneficial, substrain-specific effects. Conversely, MEM was detrimental to spontaneous activity in control MRL +/+ mice and had a negative effect on body mass gain. Similarly, MRI revealed comparable increases in the volume of periventricular structures in MEM-treated groups.Sustained exposure to MEM affects body growth, brain morphology, and behavior primarily by pharmacological, and not autoimmunity-dependant mechanisms. Substrain-specific improvement in exploratory behavior of MEM-treated MRL/lpr mice may indicate that the NMDA system is merely a constituent of a complex pathogenenic cascade. However, it was evident that chronic administration of MEM is unable to completely prevent the development of a CNS SLE-like syndrome.

Published
2012

9. Angiopoietin-1 Causes Reversible Degradation of the Portal Microcirculation in Mice : Implications for Treatment of Liver Disease

Author

Ward, Nicole L., Haninec, Alexandra L., Van Slyke, Paul, Sled, John G., Sturk, Celina, Henkelman, R. Mark, Wanless, Ian R., and Dumont, Daniel J.

Subjects
Male, Neovascularization, Pathologic, Portal Vein, Microcirculation, Mice, Transgenic, Hepatic Veins, Mice, Hepatic Artery, Phenotype, Arteriovenous Fistula, Hypertension, Portal, cardiovascular system, Angiopoietin-1, Hepatocytes, Animals, Humans, Female, Transgenes, Regular Articles, Liver Circulation
Abstract

In many different liver diseases, such as cirrhosis, degradation of the microcirculation, including obliteration of small portal or hepatic veins contributes to disease-associated portal hypertension. The present study demonstrates the importance of angiogenesis in the establishment of arteriovenous shunts and the accompanying changes to the venous bed. One aspect of angiogenesis involves the branching of new vessels from pre-existing ones, and the molecular mechanisms controlling it are complex and involve a coordinated effort between specific endothelial growth factors and their receptors, including the angiopoietins. We modulated the hepatic vasculature in mice by conditionally expressing angiopoietin-1 in hepatocytes. In mice exposed to angiopoietin-1 during development, arterial sprouting, enlarged arteries, marked loss of portal vein radicles, hepatic vein dilation, and suggestion of arteriovenous shunting were observed. Most importantly, these phenotypic changes were completely reversed within 14 days of turning off transgene expression. Expression of excess angiopoietin-1 beginning in adulthood did not fully recapitulate the phenotype, but did result in enlarged vessels. Our findings suggest that controlling excessive angiogenesis during liver disease may promote the restoration of the portal vein circuit and aid in the resolution of disease-associated portal hypertension.

Published
2004

10. Normal human and sheep fetal vessel oxygen saturations by T2 magnetic resonance imaging

Author

Liqun Sun, Jack R. T. Darby, Joshua F.P. van Amerom, Brahmdeep S. Saini, Sharon Portnoy, Stacey L. Holman, Mitchell C. Lock, John G. Sled, Janna L. Morrison, Jia Yin Soo, Mike Seed, Sunthara R. Perumal, Christopher K. Macgowan, John Kingdom, Saini, Brahmdeep S, Darby, Jack RT, Portnoy, Sharon, Sun, Liqun, van Amerom, Joshua, Lock, Mitchell C, Soo, Jia Yin, Holman, Stacey L, Perumal, Sunthara R, Kingdom, John C, Sled, John G, MacGowan, Christopher K, Morrison, Janna L, and Seed, Mike

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, Relaxometry, Heart disease, Physiology, MRI oximetry, complex mixtures, 03 medical and health sciences, 0302 clinical medicine, Fetus, In vivo, medicine, Animals, Humans, streaming, Sheep, medicine.diagnostic_test, business.industry, saturation, T2 relaxation time oxygen, Magnetic resonance imaging, Venous blood, medicine.disease, Fetal Blood, Magnetic Resonance Imaging, respiratory tract diseases, Cardiovascular physiology, Oxygen, fetus, 030104 developmental biology, Fetal circulation, embryonic structures, Female, Blood Gas Analysis, business, 030217 neurology & neurosurgery
Abstract

KEY POINTS Human fetal Doppler ultrasound and invasive blood gas measurements obtained by cordocentesis or at the time of delivery reveal similarities with sheep (an extensively used model for human fetal cardiovascular physiology). Oxygen saturation (SO2 ) measurements in human fetuses have been limited to the umbilical and scalp vessels, providing little information about normal regional SO2 differences in the fetus. Blood T2 MRI relaxometry presents a non-invasive measure of SO2 in the major fetal vessels. This study presents the first in vivo validation of fetal vessel T2 oximetry against the in vitro T2-SO2 relationship using catheterized sheep fetuses and compares the normal SO2 in the major vessels between the human and sheep fetal circulations. Human fetal vessel SO2 by T2 MRI confirms many similarities with the sheep fetal circulation and is able to demonstrate regional differences in SO2 ; in particular the significantly higher SO2 in the left versus right heart. ABSTRACT Blood T2 magnetic resonance imaging (MRI) relaxometry non-invasively measures oxygen saturation (SO2 ) in major vessels but has not been validated in fetuses in vivo. We compared the blood T2-SO2 relationship in vitro (tubes) and in vivo (vessels) in sheep, and measured SO2 across the normal human and sheep fetal circulations by T2. Singleton pregnant ewes underwent surgery to implant vascular catheters. In vitro and in vivo sheep blood T2 measurements were related to corresponding SO2 measured using a blood gas analyser, as well as relating T2 and SO2 of human fetal blood in vitro. MRI oximetry was performed in the major vessels of 30 human fetuses at 36 weeks (term, 40 weeks) and 10 fetal sheep (125 days; term, 150 days). The fidelity of in vivo fetal T2 oximetry was confirmed through comparison of in vitro and in vivo sheep blood T2-SO2 relationships (P = 0.1). SO2 was similar between human and sheep fetuses, as was the fetal oxygen extraction fraction (human, 33 ± 11%; sheep, 34 ± 7%; P = 0.798). The presence of streaming in the human fetal circulation was demonstrated by the SO2 gradient between the ascending aorta (68 ± 10%) and the main pulmonary artery (49 ± 9%; P

Published
2020

11. Fetal hemodynamics and cardiac streaming assessed by 4D flow cardiovascular magnetic resonance in fetal sheep

Author

Eric M. Schrauben, Mike Seed, Brahmdeep S. Saini, Janna L. Morrison, John G. Sled, Jack R. T. Darby, Christopher K. Macgowan, Greg Stortz, Mitchell C. Lock, Elaine Stirrat, Jia Yin Soo, Schrauben, Eric M, Saini, Brahmdeep Singh, Darby, Jack RT, Soo, Jia Yin, Lock, Mitchell C, Stirrat, Elaine, Stortz, Greg, Sled, John G, Morrison, Janna L, Seed, Mike, and MacGowan, Christopher K

Subjects
lcsh:Diseases of the circulatory (Cardiovascular) system, Heart disease, 4D flow CMR, Hemodynamics, hemodynamics, 030218 nuclear medicine & medical imaging, 0302 clinical medicine, Pregnancy, Prenatal Diagnosis, education.field_of_study, Radiological and Ultrasound Technology, medicine.diagnostic_test, Myocardial Perfusion Imaging, Heart Rate, Fetal, fetal, Magnetic Resonance Imaging, 3. Good health, medicine.anatomical_structure, Circulatory system, Cardiology, Female, Cardiology and Cardiovascular Medicine, Cardiac, Ductus venosus, Blood Flow Velocity, medicine.medical_specialty, cardiac, Population, Gestational Age, Fetal, cardiovascular magnetic resonance, 03 medical and health sciences, Fetal Heart, Predictive Value of Tests, Internal medicine, Coronary Circulation, medicine, Animals, Radiology, Nuclear Medicine and imaging, education, Sheep, Domestic, Angiology, Foramen ovale (heart), business.industry, Research, Magnetic resonance imaging, medicine.disease, lcsh:RC666-701, Blood Vessels, Cardiovascular magnetic resonance, business
Abstract

Background To date it has not been possible to obtain a comprehensive 3D assessment of fetal hemodynamics because of the technical challenges inherent in imaging small cardiac structures, movement of the fetus during data acquisition, and the difficulty of fusing data from multiple cardiac cycles when a cardiac gating signal is absent. Here we propose the combination of volumetric velocity-sensitive cardiovascular magnetic resonance imaging (“4D flow” CMR) and a specialized animal preparation (catheters to monitor fetal heart rate, anesthesia to immobilize mother and fetus) to examine fetal sheep cardiac hemodynamics in utero. Methods Ten pregnant Merino sheep underwent surgery to implant arterial catheters in the target fetuses. Anesthetized ewes underwent 4D flow CMR with acquisition at 3 T for fetal whole-heart coverage with 1.2–1.5 mm spatial resolution and 45–62 ms temporal resolution. Flow was measured in the heart and major vessels, and particle traces were used to visualize circulatory patterns in fetal cardiovascular shunts. Conservation of mass was used to test internal 4D flow consistency, and comparison to standard 2D phase contrast (PC) CMR was performed for validation. Results Streaming of blood from the ductus venosus through the foramen ovale was visualized. Flow waveforms in the major thoracic vessels and shunts displayed normal arterial and venous patterns. Combined ventricular output (CVO) was 546 mL/min per kg, and the distribution of flows (%CVO) were comparable to values obtained using other methods. Internal 4D flow consistency across 23 measurement locations was established with differences of 14.2 ± 12.1%. Compared with 2D PC CMR, 4D flow showed a strong correlation (R2 = 0.85) but underestimated flow (bias = − 21.88 mL/min per kg, p

Published
2019

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