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1.
Physiol Rep ; 11(5): e15610, 2023 03.
Article in English | MEDLINE | ID: mdl-36863718

ABSTRACT

Maternal obesity is associated with increased risk of prolonged and dysfunctional labor and emergency caesarean section. To elucidate the mechanisms behind the associated uterine dystocia, a translational animal model is required. Our previous work identified that exposure to a high-fat, high-cholesterol (HFHC) diet to induce obesity down-regulates uterine contractile associated protein expression and causes asynchronous contractions ex vivo. This study aims to investigate the impact of maternal obesity on uterine contractile function in vivo using intrauterine telemetry surgery. Virgin female Wistar rats were fed either a control (CON, n = 6) or HFHC (n = 6) diet for 6 weeks prior to conception, and throughout pregnancy. On Day 9 of gestation, a pressure-sensitive catheter was surgically implanted aseptically within the gravid uterus. Following 5 days recovery, intrauterine pressure (IUP) was recorded continuously until delivery of the 5th pup (Day 22). HFHC induced obesity led to a significant 1.5-fold increase in IUP (p = 0.026) and fivefold increase in frequency of contractions (p = 0.013) relative to CON. Determination of the time of labor onset identified that HFHC rats IUP (p = 0.046) increased significantly 8 h prior to 5th pup delivery, which contrasts to CON with no significant increase. Myometrial contractile frequency in HFHC rats significantly increased 12 h prior to delivery of the 5th pup (p = 0.023) compared to only 3 h in CON, providing evidence that labor in HFHC rats was prolonged by 9 h. In conclusion, we have established a translational rat model that will allow us to unravel the mechanism behind uterine dystocia associated with maternal obesity.


Subject(s)
Dystocia , Hypercholesterolemia , Obesity, Maternal , Female , Humans , Pregnancy , Rats , Animals , Cesarean Section , Rats, Wistar , Parturition , Obesity/etiology , Contractile Proteins
3.
J Diabetes Investig ; 12(4): 493-500, 2021 Apr.
Article in English | MEDLINE | ID: mdl-33112506

ABSTRACT

AIMS/INTRODUCTION: Abnormalities in Ca2+ signaling have a key role in hemodynamic dysfunction in diabetic heart. The purpose of this study was to explore the effects of streptozotocin (STZ)-induced diabetes on Ca2+ signaling in epicardial (EPI) and endocardial (ENDO) cells of the left ventricle after 5-6 months of STZ injection. MATERIALS AND METHODS: Whole-cell patch clamp was used to measure the L-type Ca2+ channel (LTCC) and Na+ /Ca2+ exchanger currents. Fluorescence photometry techniques were used to measure intracellular free Ca2+ concentration. RESULTS: Although the LTCC current was not significantly altered, the amplitude of Ca2+ transients increased significantly in EPI-STZ and ENDO-STZ compared with controls. Time to peak LTCC current, time to peak Ca2+ transient, time to half decay of LTCC current and time to half decay of Ca2+ transients were not significantly changed in EPI-STZ and ENDO-STZ myocytes compared with controls. The Na+ /Ca2+ exchanger current was significantly smaller in EPI-STZ and in ENDO-STZ compared with controls. CONCLUSIONS: STZ-induced diabetes resulted in an increase in amplitude of Ca2+ transients in EPI and ENDO myocytes that was independent of the LTCC current. Such an effect can be attributed, at least in part, to the dysfunction of the Na+ /Ca2+ exchanger. Additional studies are warranted to improve our understanding of the regional impact of diabetes on Ca2+ signaling, which will facilitate the discovery of new targeted treatments for diabetic cardiomyopathy.


Subject(s)
Calcium Channels, L-Type/metabolism , Calcium Signaling , Diabetes Mellitus, Experimental/metabolism , Muscle Cells/metabolism , Sodium-Calcium Exchanger/metabolism , Animals , Heart Ventricles/cytology , Heart Ventricles/metabolism , Male , Rats, Wistar , Streptozocin
5.
6.
Sci Rep ; 8(1): 14716, 2018 Sep 27.
Article in English | MEDLINE | ID: mdl-30258197

ABSTRACT

A correction to this article has been published and is linked from the HTML and PDF versions of this paper. The error has not been fixed in the paper.

7.
Sci Rep ; 8(1): 9159, 2018 06 14.
Article in English | MEDLINE | ID: mdl-29904075

ABSTRACT

Aberrant uterine myometrial activities in humans are major health issues. However, the cellular and tissue mechanism(s) that maintain the uterine myometrium at rest during gestation, and that initiate and maintain long-lasting uterine contractions during delivery are incompletely understood. In this study we construct a computational model for describing the electrical activity (simple and complex action potentials), intracellular calcium dynamics and mechanical contractions of isolated uterine myocytes from the pregnant rat. The model reproduces variant types of action potentials - from spikes with a smooth plateau, to spikes with an oscillatory plateau, to bursts of spikes - that are seen during late gestation under different physiological conditions. The effects of the hormones oestradiol (via reductions in calcium and potassium selective channel conductance), oxytocin (via an increase in intracellular calcium release) and the tocolytic nifedipine (via a block of L-type calcium channels currents) on action potentials and contractions are also reproduced, which quantitatively match to experimental data. All of these results validated the cell model development. In conclusion, the developed model provides a computational platform for further investigations of the ionic mechanism underlying the genesis and control of electrical and mechanical activities in the rat uterine myocytes.


Subject(s)
Calcium Signaling/physiology , Models, Biological , Muscle Cells/metabolism , Pregnancy/physiology , Uterine Contraction/physiology , Uterus/metabolism , Animals , Calcium Channels, L-Type/metabolism , Female , Muscle Cells/cytology , Oxytocin/metabolism , Potassium Channels/metabolism , Rats , Uterus/cytology
8.
Sci Rep ; 8(1): 3389, 2018 02 21.
Article in English | MEDLINE | ID: mdl-29467407

ABSTRACT

Maternal obesity is associated with prolonged and dysfunctional labour, potentially through decreased synthesis of prostaglandins that stimulate myometrial contractions. We assessed the impact of maternal obesity on concentrations of precursor fatty acids (FA) for prostaglandin synthesis and whether any changes could be reversed by improved nutrition post-conception. Wistar rats were fed control (CON) or High-Fat, High-cholesterol (HFHC) diets 6 weeks before mating. At conception half the dams switched diets providing 4 dietary groups: (1) CON, (2) HFHC, (3) CON-HFHC or (4) HFHC-CON. During parturition rats were euthanized and FA composition of plasma, liver and uterus determined. Visceral fat was doubled in rats exposed to the HFHC diet prior to and/or during pregnancy compared to CON. HFHC diet increased MUFAs but decreased omega-3 and omega-6 PUFAs in plasma and liver. Uterine omega-3 FA concentrations were halved in HFHC versus CON rats, but all other FAs were similar. Switching from HFHC to CON diet at conception restored all FA profiles to those seen in CON rats. The increased MUFA and decreased PUFA concentrations in obese HFHC dams may contribute to aberrant prostaglandin synthesis and dysfunctional myometrial activity and it may be possible to reverse these changes, and potentially improve labour outcomes, by improving nutrition at conception.


Subject(s)
Fatty Acids, Unsaturated/blood , Fatty Acids, Unsaturated/metabolism , Fertilization/physiology , Labor, Obstetric/blood , Labor, Obstetric/metabolism , Nutritional Status/physiology , Obesity/complications , Animals , Cholesterol/blood , Diet, High-Fat/adverse effects , Fatty Acids, Omega-3/blood , Fatty Acids, Omega-3/metabolism , Female , Liver/metabolism , Obesity/blood , Obesity/metabolism , Parturition/blood , Parturition/metabolism , Pregnancy , Rats , Rats, Wistar , Uterus/metabolism
9.
Endocrinology ; 157(7): 2883-93, 2016 07.
Article in English | MEDLINE | ID: mdl-27167772

ABSTRACT

Decidualization denotes the transformation of endometrial stromal cells into specialized decidual cells. In pregnancy, decidual cells form a protective matrix around the implanting embryo, enabling coordinated trophoblast invasion and formation of a functional placenta. Continuous progesterone (P4) signaling renders decidual cells resistant to various environmental stressors, whereas withdrawal inevitably triggers tissue breakdown and menstruation or miscarriage. Here, we show that PLCL1, coding phospholipase C (PLC)-related catalytically inactive protein 1 (PRIP-1), is highly induced in response to P4 signaling in decidualizing human endometrial stromal cells (HESCs). Knockdown experiments in undifferentiated HESCs revealed that PRIP-1 maintains basal phosphoinositide 3-kinase/Protein kinase B activity, which in turn prevents illicit nuclear translocation of the transcription factor forkhead box protein O1 and induction of the apoptotic activator BIM. By contrast, loss of this scaffold protein did not compromise survival of decidual cells. PRIP-1 knockdown did also not interfere with the responsiveness of HESCs to deciduogenic cues, although the overall expression of differentiation markers, such as PRL, IGFBP1, and WNT4, was blunted. Finally, we show that PRIP-1 in decidual cells uncouples PLC activation from intracellular Ca(2+) release by attenuating inositol 1,4,5-trisphosphate signaling. In summary, PRIP-1 is a multifaceted P4-inducible scaffold protein that gates the activity of major signal transduction pathways in the endometrium. It prevents apoptosis of proliferating stromal cells and contributes to the relative autonomy of decidual cells by silencing PLC signaling downstream of Gq protein-coupled receptors.


Subject(s)
Endometrium/metabolism , Medroxyprogesterone Acetate/pharmacology , Nuclear Receptor Coactivators/metabolism , Stromal Cells/metabolism , Adult , Cell Proliferation/drug effects , Cell Survival/drug effects , Endometrium/cytology , Endometrium/drug effects , Female , Humans , Signal Transduction/drug effects , Stromal Cells/cytology , Stromal Cells/drug effects
10.
PLoS Comput Biol ; 12(4): e1004828, 2016 Apr.
Article in English | MEDLINE | ID: mdl-27105427

ABSTRACT

Uterine smooth muscle cells remain quiescent throughout most of gestation, only generating spontaneous action potentials immediately prior to, and during, labor. This study presents a method that combines transcriptomics with biophysical recordings to characterise the conductance repertoire of these cells, the 'conductance repertoire' being the total complement of ion channels and transporters expressed by an electrically active cell. Transcriptomic analysis provides a set of potential electrogenic entities, of which the conductance repertoire is a subset. Each entity within the conductance repertoire was modeled independently and its gating parameter values were fixed using the available biophysical data. The only remaining free parameters were the surface densities for each entity. We characterise the space of combinations of surface densities (density vectors) consistent with experimentally observed membrane potential and calcium waveforms. This yields insights on the functional redundancy of the system as well as its behavioral versatility. Our approach couples high-throughput transcriptomic data with physiological behaviors in health and disease, and provides a formal method to link genotype to phenotype in excitable systems. We accurately predict current densities and chart functional redundancy. For example, we find that to evoke the observed voltage waveform, the BK channel is functionally redundant whereas hERG is essential. Furthermore, our analysis suggests that activation of calcium-activated chloride conductances by intracellular calcium release is the key factor underlying spontaneous depolarisations.


Subject(s)
Calcium/metabolism , Models, Biological , Myocytes, Smooth Muscle/metabolism , Myometrium/metabolism , Action Potentials , Biophysical Phenomena , Cell Membrane/metabolism , Computational Biology , Computer Simulation , Female , Gene Expression Profiling , Humans , Ion Channel Gating , Ion Channels/genetics , Ion Channels/metabolism , Ion Pumps/genetics , Ion Pumps/metabolism , Ion Transport , Kinetics , Membrane Potentials , Myometrium/cytology , Patch-Clamp Techniques , RNA, Messenger/genetics , RNA, Messenger/metabolism
11.
Clin Sci (Lond) ; 130(3): 183-92, 2016 Feb.
Article in English | MEDLINE | ID: mdl-26543049

ABSTRACT

Maternal obesity is associated with prolonged and dysfunctional labour and emergency caesarean section, but the mechanisms are unknown. The present study investigated the effects of an adiposity-inducing high-fat, high-cholesterol (HFHC) diet on uterine contractile-associated protein (CAP) expression and ex vivo uterine contractility in term non-labouring (TNL) and term labouring (TL) rats. Female rats were fed either control chow (CON n=20) or HFHC (n=20) diet 6 weeks before conception and during pregnancy. On gestational day 21 (TNL) or day 22 (TL) CON and HFHC (n=10) rats were killed to determine plasma cholesterol, triacylglycerol and progesterone concentrations and collection of myometrium for contractility studies and expression of CAPs caveolin-1 (Cav-1), connexin-43 (CX-43) and it's phosphorylated form (pCX-43), oxytocin receptor (OXTR) and cyclooxygenase-2 (COX-2). HFHC feeding increased visceral fat (P≤0.001), plasma cholesterol (P≤0.001) and triacylglycerol (P=0.039) concentrations. Stage of labour effected uterine expression of CAV-1 (P<0.02), pCX43 and COX-2 (both P<0.03). CAV-1 and pCX43 decreased but COX-2 increased with parturition. Significant diet- and labour-stage interactions were evident for CX-43 and pCX43 (P<0.03 and P<0.004 respectively). CX-43 decreased with TL in HFHC animals but was unaltered in CON. pCX-43 fell with labour in CON but remained high in HFHC. OXTR expression was significantly higher in HFHC compared with CON animals (P<0.03). Progesterone was higher in HFHC rats at term (P<0.014) but fell significantly with labour to similar concentrations as CON. Contractility studies identified synchronous contractions of stable amplitude in lean animals, but unstable asynchronous contractions with obesity. Uterine dose response to oxytocin was blunted during labour in HFHC rats with a log EC50 of -8.84 compared with -10.25 M in CON for integral activity (P<0.05). In conclusion, our adiposity model exhibits adverse effects on contractile activity during labour that can be investigated further to unravel the mechanisms causing uterine dystocia in obese women.


Subject(s)
Caveolin 1/metabolism , Cyclooxygenase 2/metabolism , Obesity/metabolism , Pregnancy Complications/metabolism , Uterine Contraction , Uterus/metabolism , Animals , Cholesterol, Dietary/adverse effects , Connexin 43/metabolism , Contractile Proteins/metabolism , Diet, High-Fat/adverse effects , Dinoprost , Disease Models, Animal , Female , Lipids/blood , Litter Size , Male , Obesity/etiology , Oxytocin , Pregnancy , Progesterone/blood , Rats, Wistar , Weight Gain
12.
Sci Prog ; 98(Pt 2): 103-27, 2015.
Article in English | MEDLINE | ID: mdl-26288915

ABSTRACT

The uterus undergoes changes throughout a woman's life, beginning with her own embryonic development when she is still in the womb, commencing a monthly cycle at the onset of adulthood, and undergoing dramatic changes during pregnancy and parturition. The impact of preterm labour and other perinatal health problems is significant, both in human and financial terms; therefore the study of the physiological and regulatory changes which the uterus undergoes can be of enormous potential benefit. Here we briefly review the current state of knowledge, with an emphasis on the importance of changes in connectivity in the uterine smooth muscle cell network and on recent mathematical modelling work aimed at elucidating the role of spatial heterogeneity in this connected network.


Subject(s)
Morphogenesis/physiology , Muscle, Smooth/physiology , Pregnancy/physiology , Uterine Contraction/physiology , Uterus/anatomy & histology , Uterus/physiology , Adolescent , Adult , Aged , Aged, 80 and over , Aging/pathology , Aging/physiology , Child , Child, Preschool , Female , Humans , Infant , Infant, Newborn , Middle Aged , Models, Biological , Muscle Contraction/physiology , Young Adult
13.
J Biomech ; 48(9): 1620-4, 2015 Jun 25.
Article in English | MEDLINE | ID: mdl-25702249

ABSTRACT

Elucidation of cellular mechanisms regulating myometrial contractility is crucial for improvement in management of many obstetric abnormalities, such as premature delivery, uterine dystocia and post-partum haemorrhage. Myometrial contractions are triggered by periodic synchronous rises in intracellular calcium concentration ([Ca(2+)]i) elicited by spontaneously generated action potentials propagating throughout the entire myometrium. During labour, hormones like oxytocin and prostaglandins potentiate uterine contractions by increasing their duration, strength and frequency. The most informative approach to studying the mechanisms underlying hormonal modulation of uterine contractility is to record [Ca(2+)]i responses to hormones in intact myometrial samples that have not been subjected to enzymatic treatment for cell isolation or cell culture conditions. However, the spatio-temporal resolution of such recording is limited due to the motion artifacts occurring in contracting tissue. Here we describe the application of our newly developed motion correction algorithm to investigate the [Ca(2+)]i dynamics in control and oxytocin stimulated slices of human myometrium on a cellular level. We present evidence that oxytocin induces asynchronous [Ca(2+)]i oscillations in individual myocytes within intact myometrium which are similar to those observed in cultured cells. The oscillations occur between synchronous action potential-driven [Ca(2+)]i transients but appear to be unrelated to contractions. Furthermore, the oxytocin-triggered [Ca(2+)]i oscillations wane within 30-50min of hormone application, while the action potential induced [Ca(2+)]i transients remain augmented. We conclude that oxytocin-induced [Ca(2+)]i oscillations are not relevant to the acute regulation of myometrial contractility but may play a role in longer-term regulatory processes, for example, by triggering gene expression.


Subject(s)
Calcium Signaling , Muscle Cells/physiology , Action Potentials , Biomechanical Phenomena , Calcium/metabolism , Female , Humans , Myometrium/cytology , Myometrium/physiology , Oxytocin/physiology , Pregnancy , Single-Cell Analysis , Uterine Contraction , Uterus
14.
Antioxid Redox Signal ; 23(7): 613-29, 2015 Sep 01.
Article in English | MEDLINE | ID: mdl-25178584

ABSTRACT

AIMS: Stress responsive signaling coordinated by nuclear factor erythroid 2-related factor 2 (Nrf2) provides an adaptive response for protection of cells against toxic insults, oxidative stress and metabolic dysfunction. Nrf2 regulates a battery of protective genes by binding to regulatory antioxidant response elements (AREs). The aim of this study was to examine how Nrf2 signals cell stress status and regulates transcription to maintain homeostasis. RESULTS: In live cell microscopy we observed that Nrf2 undergoes autonomous translocational frequency-modulated oscillations between cytoplasm and nucleus. Oscillations occurred in quiescence and when cells were stimulated at physiological levels of activators, they decrease in period and amplitude and then evoke a cytoprotective transcriptional response. We propose a mechanism whereby oscillations are produced by negative feedback involving successive de-phosphorylation and phosphorylation steps. Nrf2 was inactivated in the nucleus and reactivated on return to the cytoplasm. Increased frequency of Nrf2 on return to the cytoplasm with increased reactivation or refresh-rate under stress conditions activated the transcriptional response mediating cytoprotective effects. The serine/threonine-protein phosphatase PGAM5, member of the Nrf2 interactome, was a key regulatory component. INNOVATION: We found that Nrf2 is activated in cells without change in total cellular Nrf2 protein concentration. Regulation of ARE-linked protective gene transcription occurs rather through translocational oscillations of Nrf2. We discovered cytoplasmic refresh rate of Nrf2 is important in maintaining and regulating the transcriptional response and links stress challenge to increased cytoplasmic surveillance. We found silencing and inhibition of PGAM5 provides potent activation of Nrf2. CONCLUSION: Frequency modulated translocational oscillations of Nrf2 mediate the ARE-linked cytoprotective transcriptional response.


Subject(s)
Antioxidant Response Elements , Cell Nucleus/metabolism , Cytoplasm/metabolism , NF-E2-Related Factor 2/genetics , NF-E2-Related Factor 2/metabolism , Carrier Proteins/metabolism , Cell Line , Humans , Mitochondrial Proteins/metabolism , Oxidative Stress , Phosphoprotein Phosphatases , Phosphorylation , Protein Transport , Transcriptional Activation
15.
J R Soc Interface ; 11(101): 20140726, 2014 Dec 06.
Article in English | MEDLINE | ID: mdl-25401181

ABSTRACT

The smooth muscle cells of the uterus contract in unison during delivery. These cells achieve coordinated activity via electrical connections called gap junctions which consist of aggregated connexin proteins such as connexin43 and connexin45. The density of gap junctions governs the excitability of the myometrium (among other factors). An increase in gap junction density occurs immediately prior to parturition. We extend a mathematical model of the myometrium by incorporating the voltage-dependence of gap junctions that has been demonstrated in the experimental literature. Two functional subtypes exist, corresponding to systems with predominantly connexin43 and predominantly connexin45, respectively. Our simulation results indicate that the gap junction protein connexin45 acts as a negative modulator of uterine excitability, and hence, activity. A network with a higher proportion of connexin45 relative to connexin43 is unable to excite every cell. Connexin45 has much more rapid gating kinetics than connexin43 which we show limits the maximum duration of a local burst of activity. We propose that this effect regulates the degree of synchronous excitation attained during a contraction. Our results support the hypothesis that as labour approaches, connexin45 is downregulated to allow action potentials to spread more readily through the myometrium.


Subject(s)
Connexin 43/metabolism , Connexins/metabolism , Models, Biological , Muscle Contraction/physiology , Myometrium/metabolism , Signal Transduction/physiology , Female , Gap Junctions/metabolism , Humans
16.
J Physiol ; 592(20): 4447-63, 2014 Oct 15.
Article in English | MEDLINE | ID: mdl-25085893

ABSTRACT

Successful childbirth depends on the occurrence of precisely coordinated uterine contractions during labour. Calcium indicator fluorescence imaging is one of the main techniques for investigating the mechanisms governing this physiological process and its pathologies. The effective spatiotemporal resolution of calcium signals is, however, limited by the motion of contracting tissue: structures of interest in the order of microns can move over a hundred times their width during a contraction. The simultaneous changes in local intensity and tissue configuration make motion tracking a non-trivial problem in image analysis and confound many of the standard techniques. This paper presents a method that tracks local motion throughout the tissue and allows for the almost complete removal of motion artefacts. This provides a stabilized calcium signal down to a pixel resolution, which, for the data examined, is in the order of a few microns. As a byproduct of image stabilization, a complete kinematic description of the contraction-relaxation cycle is also obtained. This contains novel information about the mechanical response of the tissue, such as the identification of a characteristic length scale, in the order of 40-50 µm, below which tissue motion is homogeneous. Applied to our data, we illustrate that the method allows for analyses of calcium dynamics in contracting myometrium in unprecedented spatiotemporal detail. Additionally, we use the kinematics of tissue motion to compare calcium signals at the subcellular level and local contractile motion. The computer code used is provided in a freely modifiable form and has potential applicability to in vivo calcium imaging of neural tissue, as well as other smooth muscle tissue.


Subject(s)
Calcium Signaling , Image Processing, Computer-Assisted/methods , Muscle Contraction , Myometrium/physiology , Female , Humans , Microscopy, Fluorescence/methods , Motion , Myometrium/metabolism
17.
EMBO Mol Med ; 6(9): 1161-74, 2014 Sep.
Article in English | MEDLINE | ID: mdl-25056913

ABSTRACT

Abnormal uterine activity in pregnancy causes a range of important clinical disorders, including preterm birth, dysfunctional labour and post-partum haemorrhage. Uterine contractile patterns are controlled by the generation of complex electrical signals at the myometrial smooth muscle plasma membrane. To identify novel targets to treat conditions associated with uterine dysfunction, we undertook a genome-wide screen of potassium channels that are enriched in myometrial smooth muscle. Computational modelling identified Kir7.1 as potentially important in regulating uterine excitability during pregnancy. We demonstrate Kir7.1 current hyper-polarizes uterine myocytes and promotes quiescence during gestation. Labour is associated with a decline, but not loss, of Kir7.1 expression. Knockdown of Kir7.1 by lentiviral expression of miRNA was sufficient to increase uterine contractile force and duration significantly. Conversely, overexpression of Kir7.1 inhibited uterine contractility. Finally, we demonstrate that the Kir7.1 inhibitor VU590 as well as novel derivative compounds induces profound, long-lasting contractions in mouse and human myometrium; the activity of these inhibitors exceeds that of other uterotonic drugs. We conclude Kir7.1 regulates the transition from quiescence to contractions in the pregnant uterus and may be a target for therapies to control uterine contractility.


Subject(s)
Potassium Channels, Inwardly Rectifying/physiology , Uterine Contraction/metabolism , Animals , Cell Line , Cricetinae , Cricetulus , Female , Gene Knockdown Techniques , Humans , Immunohistochemistry , In Vitro Techniques , Labor, Obstetric/metabolism , Membrane Potentials , Mice , Mice, Inbred C57BL , Patch-Clamp Techniques , Potassium Channels, Inwardly Rectifying/genetics , Potassium Channels, Inwardly Rectifying/metabolism , Pregnancy , Uterine Contraction/genetics
18.
Biochem Soc Trans ; 42(2): 548-55, 2014 Apr.
Article in English | MEDLINE | ID: mdl-24646277

ABSTRACT

MG (methylglyoxal) is a potent glycating agent and an endogenous reactive dicarbonyl metabolite formed in all live cells and organisms. It is an important precursor of AGEs (advanced glycation end-products) and is implicated in aging and disease. MG is assayed by derivatization by 1,2-diaminobenzene derivatives in cell extracts. Such assays are not applicable to high sample throughput, subcellular, live-cell and in vivo estimations. The use of fluorogenic probes designed for NO (nitric oxide) detection in biological samples and living cells has inadvertently provided probes for the detection of dicarbonyls such as MG. We describe the application of DAF-2 (4,5-diaminofluorescein) and DAR-1 (4,5-diaminorhodamine) for the detection of MG in cell-free systems and application for high-throughput assay of glyoxalase activity and assay of glucose degradation products in peritoneal dialysis fluids. DAF-2 and DAR-1, as for related BODIPY probes, do not have sufficient sensitivity to detect MG in live cells. Care will also be required to control for NO and dehydroascorbate co-detection and interference from peroxidase catalysing the degradation of probes to MG and glyoxal. Fluorogenic detection of MG, however, has great potential to facilitate the assay of MG and to advance towards that capability of imaging this product in live cells in vitro and small animals in vivo.


Subject(s)
Biological Assay/methods , Pyruvaldehyde/analysis , Fluorescein/chemistry , Glycation End Products, Advanced/chemistry , Nitric Oxide/chemistry , Pyruvaldehyde/chemistry
19.
Sci Rep ; 4: 3894, 2014 Feb 06.
Article in English | MEDLINE | ID: mdl-24503642

ABSTRACT

Human embryos frequently harbor large-scale complex chromosomal errors that impede normal development. Affected embryos may fail to implant although many first breach the endometrial epithelium and embed in the decidualizing stroma before being rejected via mechanisms that are poorly understood. Here we show that developmentally impaired human embryos elicit an endoplasmic stress response in human decidual cells. A stress response was also evident upon in vivo exposure of mouse uteri to culture medium conditioned by low-quality human embryos. By contrast, signals emanating from developmentally competent embryos activated a focused gene network enriched in metabolic enzymes and implantation factors. We further show that trypsin, a serine protease released by pre-implantation embryos, elicits Ca(2+) signaling in endometrial epithelial cells. Competent human embryos triggered short-lived oscillatory Ca(2+) fluxes whereas low-quality embryos caused a heightened and prolonged Ca(2+) response. Thus, distinct positive and negative mechanisms contribute to active selection of human embryos at implantation.


Subject(s)
Blastocyst/physiology , Decidua/cytology , Embryo Implantation/physiology , Embryo, Mammalian/physiology , Uterus/physiology , Animals , Calcium Signaling/physiology , Cells, Cultured , Chromosome Aberrations/embryology , Culture Media, Conditioned/pharmacology , Endoplasmic Reticulum Stress/genetics , Epithelial Cells/metabolism , Female , Gene Expression Profiling , HSC70 Heat-Shock Proteins/biosynthesis , HSC70 Heat-Shock Proteins/genetics , Humans , Insulin-Like Growth Factor Binding Protein 1/metabolism , Mice , Mice, Inbred C57BL , Prolactin/metabolism , RNA Interference , RNA, Small Interfering , Signal Transduction , Trypsin/metabolism
20.
J Clin Endocrinol Metab ; 98(11): 4429-37, 2013 Nov.
Article in English | MEDLINE | ID: mdl-24025400

ABSTRACT

BACKGROUND: Decidualizing human endometrial stromal cells (HESCs) profoundly up-regulate 11ß-hydroxysteroid dehydrogenase type 1 (11ßHSD1), the enzyme that converts inert cortisone to active cortisol. We postulated that the induction of a cortisol gradient upon decidualization of the periimplantation endometrium may impact on the uterine natural killer (uNK) cell population and on local expression of corticosteroid-dependent target genes. METHODS: Midluteal endometrial biopsies (n = 55) were processed for uNK cell (CD56) analysis and primary HESC cultures. The cultures remained either untreated or were decidualized for 4 or 8 days. A tissue microarray was constructed from endometria with normal (n = 18) and elevated uNK cell (n = 18) scores. An abnormal uNK cell test was defined as greater than 5% CD56(+) cells in the subluminal stroma. RESULTS: Increased uNK cell density was associated with lower endometrial expression of 11ßHSD1 and mineralocorticoid receptor (MR) but not glucocorticoid receptor in vivo. Elevated uNK cell density also corresponded to impaired induction of key decidual markers (11ßHSD1, prolactin, and insulin-like growth factor binding protein-1) and MR-dependent enzymes (dehydrogenase/reductase member 3 and retinol saturase) in differentiating HESC cultures. Increased uNK cell density in vivo was not associated with increased in vitro expression of either IL-15 or IL-11, two cytokines implicated in uNK cell regulation. CONCLUSIONS: Elevated levels of uNK cells in the stroma underlying the surface epithelium are associated with inadequate cortisol biosynthesis by resident decidualizing cells and suboptimal induction of key MR-dependent enzymes involved in lipid biogenesis and the retinoid transport pathway. Our observations suggest that uNK cell testing identifies those women at risk of reproductive failure due to relative uterine cortisol deficiency.


Subject(s)
Adrenal Cortex Hormones/metabolism , Decidua/cytology , Decidua/metabolism , Killer Cells, Natural/metabolism , Signal Transduction/immunology , Stromal Cells/metabolism , 11-beta-Hydroxysteroid Dehydrogenase Type 1/metabolism , Biomarkers/metabolism , Cell Differentiation/physiology , Decidua/immunology , Endometrium/cytology , Endometrium/immunology , Endometrium/metabolism , Female , Humans , Hydrocortisone/metabolism , Killer Cells, Natural/cytology , Killer Cells, Natural/immunology , Pregnancy , Primary Cell Culture , Receptors, Mineralocorticoid/metabolism , Stromal Cells/cytology , Stromal Cells/immunology
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