A Test of the Hypothesis That Environmental Chemicals Interfere With Thyroid Hormone Action in Human Placenta

Geromini, Katherine

01 January 2012

Thyroid hormone is essential for normal brain development and recognition of this has led to universal screening of newborns for thyroid function to ensure that circulating levels of thyroid hormone are within a range known to be supportive of normal growth and mental development. Environmental chemicals that interfere with thyroid function are known to inhibit normal growth and mental development. Work from our lab and from labs internationally demonstrates in animal systems that some industrial chemicals such as PCBs, PBDEs, and others may interact with the thyroid hormone receptor(s) in ways that are not predicted by changes in serum thyroid hormone levels. Our work demonstrates that the enzyme CYP1A1 must metabolize some individual PCB congeners before they can interact with the thyroid receptor. In animals, this requirement appears to be manifested in part by a strong correlation between CYP1A1 and TH target gene expression. Here we present that this pattern extends to humans by demonstrating a correlation between increased CYP1A1 mRNA and an abundance of thyroid hormone responsive gene mRNA.

endocrine disruption

thyroid hormone

placenta

cyp1a1

Molecular Biology

Capturing human trophoblast development with naive pluripotent stem cells in vitro / ナイーブ型多能性幹細胞を用いたヒト栄養膜細胞発生の再現

Io, Shingo

24 November 2021

京都大学 / 新制・課程博士 / 博士(医学) / 甲第23569号 / 医博第4783号 / 新制||医||1054(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 川口 義弥, 教授 篠原 隆司, 教授 近藤 玄 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

placenta

trophoblast

human pluripotent stem cells

early pregnancy

implantation

490

The Role of Abnormal Placentation in Congenital Heart Defects

Courtney, Jennifer A.

28 June 2021

No description available.

Developmental Biology

placenta

heart

angiogenesis

development

Hand1

congenital heart defects

Exprese vybraných membránových transportérů v placentách těhotných žen s diagnostikovanou předčasnou rupturou plodových obalů / Expression of selected membrane transporters in placentas of pregnant women diagnosed for preterm rupture of membranes

Michalská, Martina

January 2019

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Martina Michalská Supervisor: doc. PharmDr. Martina Čečková, Ph.D. Title of diploma thesis: Expression of selected membrane transporters in placentas of pregnant women diagnosed for preterm rupture of membranes Placenta is a key organ for pregnancy maintenance. One of its main functions is transport of compounds between mother and her fetus. The transplacental penetration is ensured due to membrane transporters that are present in the apical or basal side of trophoblast. Their expression level is affected by many physiological and pathological factors, among others it can be influenced by infection and inflamatory reaction. Inflammation is also one of the risk factors of preterm deliveries and it can be therefore assumed that these pathological states are accompanied by changes in expression of placental transporters. This study was performed using 51 placentas obtained from Faculty hospital in Hradec Králové from women who underwent preterm delivery and on 15 placentas delivered in term. The study employed quantitative RT-PCR approach. The mRNA expression of membrane transporters ABCB1, ABCG2, OATP1A2, OATP1B3, OATP2A1, OATP2B1, OATP3A1, OATP4A1 was assessed and the results were compared to...

A Novel Use of Digoxin Immune Fab Fragment in Identification and Isolation of an Endogenous Digitalis-like Factor Found in Preeclampsia

Hopoate-Sitake, Moana Lee

10 March 2011

The mechanisms mediating the hypertension of preeclampsia (PE) are unclear. Endogenous digitalis-like factors (EDLFs) are specific sodium pump (SP) inhibitors implicated in essential and experimental hypertension, but they have not been fully explored in the setting of PE. This study uses a digoxin antibody Fab fragment to address the question of whether such factors are present and increased in PE, to investigate a possible treatment of PE, and to isolate and characterize all EDLFs present in PE. Sera and placenta from women with PE did show a significant increase in SP inhibition in comparison to women with normal pregnancy and Digibind® was found to bind EDLFs and essentially block or reverse SP inhibition. Sera were collected in a Phase II, double-blind, placebo controlled clinical study in which women with severe preeclampsia were dosed with Digibind®, as a therapeutic, and the SP activity measured. Sera and placenta from women with PE was also investigated for their inhibitory effects on the SP. Known candidates for EDLFs were investigated for their SP inhibitory effects, as well as how digitalis antibody immune Fab fragments, Digibind® and DigiFab™, bound them and affected the SP activity. Digibind® is also a sufficient affinity material used to isolate and purify PE EDLFs. Additionally, the placentas of preeclamptic women have high levels of similar EDLFs. These studies provide evidence for the existence of EDLFs that circulate in women with PE, and Digibind® is an effective and novel tool to bind, isolate and purify EDLFs in PE.

preeclampsia

Digibind

ouabain

Na+/K+-ATPase

placenta

Biochemistry

Chemistry

DEVELOPMENT OF A MICROFLUIDIC OXYGENATOR AS AN OXYGENATING UNIT OF A LUNG ASSIST DEVICE FOR TERM AND PRE-TERM NEONATES WITH RESPIRATORY DISTRESS SYNDROME

Matharoo, Harpreet

January 2016

Respiratory distress syndrome is a major cause of mortality among infants. Current therapies are limited in terms of invasiveness, cost, infrastructure, and leads to long term morbidities such as bronchopulmonary dysplasia. As a result a form of respiratory support termed as “artificial placenta” has been developed that allows natural development of lungs and avoids long term morbidities. The artificial placenta is connected via the umbilical vessels and provide pumpless respiratory support and is characterized by non-invasiveness, low cost and low infrastructure. Our group previously reported on a development of porous PDMS membrane artificial placenta. To build upon its development, one of the objectives of this thesis was to reduce the variation in the oxygen saturation of the input blood for testing the oxygenator. Another objective was to setup a mathematical model to predict the oxygen uptake in an oxygenating unit and use the model to optimize the geometric parameters of a design. The final objective was to improve the oxygen uptake of the oxygenating unit of the artificial placenta by redesigning the blood flow path and the membrane material. The experimental setup was improved to employ an active controller that actively maintained the oxygen saturation of the input blood for testing the oxygenator within a variation of ±3% of the set point for at least an hour. As compared to previous experimental setup the blood deviated from the set point by 9%. Later, the blood flow path in the oxygenator was redesigned from a flat height profile to a sloping height profile; and the PDMS membrane was reinforced with a thin steel mesh. Such changes improved the oxygen uptake at the operating pressure of 30 mmHg from 16 µL/min in case of an oxygenator with flat height profile and PDMS membrane to 26 µL/min in case of an oxygenator with flat profile and composite membrane. Finally, a mathematical model was developed that coupled oxygen uptake, pressure drop and membrane expansion. The model was validated against experimental results and was later used to optimize the configuration of the oxygenator with sloping profile and composite membrane. The predicted oxygen uptake of the optimized configuration at the operating pressure of 30 mmHg was 78.8 µL/min. / Thesis / Master of Applied Science (MASc)

Microfluidic

Oxygenator

Respiratory Distress Syndrome

Neonate

Artificial Placenta

Maternal obesity remodels the maternal intestinal microbiota and is associated with altered maternal intestinal and placental function

Wallace, Jessica G.

January 2016

The prevalence of overweight and obesity have risen to epidemic proportions. Overweight and obesity are prominent risk factors for the development of chronic disease including diabetes, cardiovascular disease and cancer. Especially pronounced in women of reproductive age and children, the obesity epidemic represents a major threat to global health. Maternal obesity is a key predictor of childhood obesity and diseases of metabolic origin in adulthood. Previous work has demonstrated that the exposure to early life adversity, in the context of maternal obesity, is associated with an increased risk of metabolic disease and obesity in the offspring later in life. Although the mechanisms outlining the relationship between maternal and offspring obesity remain unclear, the intestinal microbiota has come forth as a promising area of research. To understand the factors involved in the maternal intestinal microbial shifts with healthy pregnancy, the preliminary study focused on investigating whether female sex-steroid hormones mediate maternal intestinal microbial shifts in non-pregnant, regularly cycling female mice. We have identified that intestinal microbial shifts are not associated with sex-steroid hormone fluctuations. The second study examined whether maternal intestinal microbial shifts that occur during obese pregnancy were associated with altered inflammatory signaling and function of the maternal intestine and placenta at a critical period of development; embryonic (E) day 14.5. Females fed a high fat diet (HFD) were significantly heavier at mating and throughout gestation compared to CON. At E14.5, High fat (HF) dams displayed increased adiposity, hyperglycemia, hyperinsulinemia, hyperleptinemia and were insulin resistant. Pregnancy and maternal obesity resulted in shifts in the maternal intestinal microbiota, where the most significant increase in microbial relative abundance was exhibited by the mucin degrading genus, Akkermansia. At E14.5, maternal intestinal microbial shifts were associated with higher maternal intestinal NFκB activity in all sections of the maternal intestine, most notably in the maternal colon. Maternal obesity was associated with increased Muc5ac mRNA levels and a modest increase in CD3+ T cells in the maternal colon at E14.5. However, maternal intestinal permeability was unchanged between groups. In the placenta, mRNA levels of key signaling components in the pro-inflammatory toll-like receptor 4 (TLR4) pathway; TRAF6, NFκB and potent pro-inflammatory cytokine TNF-α were increased and in HF females. Maternal obesity was associated with an increase in CD3+ T cells in the junctional zone (JZ), but not in the labyrinth zone (LZ) of the placenta at E14.5. These findings were associated with increased mRNA levels of critical nutrient transporters; glucose transporter 1 (GLUT1) and sodium-coupled neutral amino acid transporter 2 (SNAT2) and a modest increase in glucose transporter 3 (GLUT3) in HF placentae compared to CON. These data identify the mechanistic signaling pathways and cell types involved in modulating the intrauterine environment, thus contributing to the current literature devoted to the investigation of the developmental origins of obesity. / Thesis / Master of Science (MSc)

Étude des acides gras polyinsaturés et des F₂-isoprostanes dans le placenta en prééclampsie

Brien, Mélanie

24 April 2018

La prééclampsie est caractérisée par une hypertension gestationnelle accompagnée d’une protéinurie détectable après 20 semaines de grossesse. Une invasion anormale de l’endomètre par le placenta est à l’origine de la pathophysiologie. L’apparition d’une condition hypoxique placentaire est associée à un stress oxydatif ainsi qu’à un dérèglement de la synthèse et du transport des acides gras polyinsaturés vers le fœtus. L’oxydation non enzymatique de l’acide arachidonique, un acide gras insaturé oméga-6, mène à la formation potentielle de soixante-quatre isomères de F₂-isoprostanes. Ces derniers sont d’excellents biomarqueurs du stress oxydatif et peuvent jouer un rôle de vasoconstricteurs, lorsque libérés des phospholipides des membranes cellulaires par les phospholipases A₂. J’ai étudié les niveaux d’acides gras intacts et oxydés libérés par les phospholipases A₂ ainsi que la voie du thromboxane A₂ dans le placenta de grossesses normotensives et prééclamptiques. Mes travaux ont mis en lumière que le plasmalogène, une classe particulière de phospholipides riche en acides gras polyinsaturés, est augmenté dans le placenta en prééclampsie. De plus, les F₂-isoprostanes libres se retrouvent en plus grandes concentrations dans le placenta des grossesses prééclamptiques. Parallèlement, l’expression génique de certaines phospholipases A₂ est plus élevée dans le placenta en prééclampsie que chez les contrôles. En résumé, une augmentation des F₂-isoprostanes à effet vasoconstricteur, additionné à une augmentation de l’expression génique du récepteur au thromboxane A₂, pourraient jouer un rôle important dans l’hypertension locale placentaire en cas de prééclampsie. / Preeclampsia is a complex disorder during pregnancy. It is characterized by hypertension and proteinuria detectable after twenty weeks of gestation. An abnormal placental development/invasion is believed to be the first step of the pathophysiology. Preeclampsia is associated with an hypoxic condition, oxidative stress and the deregulation of polyunsaturated fatty acid synthesis and transfer to the growing fetus. Lipid peroxidation of arachidonic acid, an omega-6 fatty acid, lead potentially to the formation of sixty-four isomers of F₂-isoprostanes. F₂-isoprostanes are reliable biomarkers of oxidative stress and some are vasoconstrictors when released from the phospholipids membranes by phospholipases A₂. I have studied intact and oxidized fatty acids liberated by phospholipases A₂ and the thromboxane A₂ pathways in the placenta of normotensives and preeclamptic placentas. We have observed that plasmalogen, a sub-class of phospholipids enriched in polyunsaturated fatty acids, is elevated in the placenta of preeclamptic pregnancies. Furthermore, concentration of free F₂-isoprostanes is higher in preeclamptic placentas compared to controls. The latter was accompanied by elevated mRNA expression of specific phospholipases A₂ in preeclamptic placentas when compared to normotensive controls. In brief, elevated levels of free F₂-isoprostanes in addition to higher expression of thromboxane A₂ receptors could be involved in the local placental hypertension in preeclampsia.

Acides gras insaturés

F2-isoprostanes

Hypertension gravidique

Placenta

Advanced Microfabrication Techniques for the Development of Microfluidic-Based Artificial Placenta-Type Lung Assist Device

Saraei, Neda

11 1900

Preterm infants are at risk for respiratory distress syndrome (RDS) due to immature lungs, leading to notable neonatal mortality. About 10% of US births are premature. While mechanical ventilation is a common RDS treatment, it can cause complications. If it fails, extracorporeal membrane oxygenation (ECMO) is employed, but standard ECMO devices are not suited for preterm babies. The limitations of hollow fiber membrane oxygenators used in ECMO have spurred interest in an artificial placenta that connects to the umbilical cord and supports lung growth. Microfluidic blood oxygenators, with their biomimetic designs, have being explored for this purpose. This thesis advances microfabrication techniques for Lung Assist Devices (LADs), focusing on two main objectives: I. Improving Throughput for Elevated Blood Flow Rates: This section delves into refining Microfluidic Blood Oxygenators (MBOs) to accommodate greater blood flow rates. By combining parallel units, we increased throughput and optimized LAD designs. Newly designed MBOs, with an expanded gas exchange surface area, can manage blood flow rates up to 60 mL/min. Using these enhanced MBOs, we constructed a novel LAD achieving superior oxygenation compared to predecessors. Our in vitro tests confirmed that this LAD can sustain blood flow rates of up to 150 ml/min, elevating oxygen saturation by approximately 20%—equivalent to an oxygen transfer of 7.48 mL/min, a leading figure for AP-type devices. II. Hierarchically Designed Microchannels: The second objective revolves around developing microchannels with a hierarchical layout to mitigate stagnation and high shear stress regions. Traditional photolithography poses challenges at channel intersections, inducing clotting risks. We pioneered alternative microfabrication methods, yielding diverse microchannels and intricate hierarchical designs that emulate natural vascular networks devoid of dead zones. These advancements have propelled the microfabrication domain for artificial placenta-like LADs. Utilizing our method, we produced channels varying from hundreds to a few microns in height with a single exposure and an opal diffuser. Thin membranes (~60 µm top and ~45 µm bottom) were amalgamated, culminating in a total depth of about 200 µm. Such oxygenators excel in oxygenating blood even at intense flow rates of up to 15 mL/min per unit. Leveraging these hierarchically designed MBOs, we crafted a LAD supporting a flow rate of 100 mL/min, offering an oxygen transfer of 5.21 mL/min. Both LADs developed in this research proficiently support premature neonates weighing up to 2 kg. Notably, the priming volume of the LAD using the enhanced MBOs has been substantially minimized, underscoring its advancements over earlier models. Realizing these objectives can transform neonatal care, addressing respiratory challenges in premature neonates and bolstering their chances for a healthier life. / Thesis / Master of Science (MSc)

Microfluidic

Microfabrication

Artificial Placenta

Lung Assist Device

Premature Neonates

Temporal alterations in bovine placental capacity during compromised pregnancies

Contreras, Zully E

06 August 2021

The circadian rhythms are not solely regulated by photoperiod but are also influenced by feed regimen. Therefore, maternal nutrient restriction during gestation could potentially impact the fetal circadian rhythm. Melatonin, a circadian rhythm modulator hormone, has shown to act as an antioxidant reducing reactive oxygen species during stress exposure; and two potential mechanisms have been proposed for melatonin causing vasoconstriction and vasodilation regulating blood flow. In livestock species, nutrient restriction during gestation reduces uterine blood flow, limiting nutrients availability to the fetus for growth and development. Therefore, this project aimed to use beef heifers to evaluate the maternal nutrient restriction and/ or melatonin supplementation in (1) temporal transcript abundance of clock genes, angiogenic factors and nutrient sensing genes in bovine placenta, (2) temporal alterations of uteroplacental blood flow, vaginal temperatures, and placentome vascularization, and (3) fetal morphometrics. Early maternal nutrient restriction did not alter placental explants gene expression. Furthermore, the maternal portion of the placentome exhibited limit temporal variation, while the fetal tissue exhibited a clear temporal rhythm in the mRNA relative abundance of the genes measured. Additionally, melatonin supplementation during late gestation, showed to increased uterine blood flow, reduced vaginal temperatures, and rescued fetal weights during compromised pregnancies in a season dependent manner. In conclusion, the bovine placenta exhibited an autonomous circadian rhythm, while the fetal and maternal circadian rhythms appeared to be independent systems. Future research should examine the effects of melatonin supplementation in fetal organ development.

Melatonin

Developmental programming

bovine placenta

circadian rhythms

compromised pregnancy