Cord Vein Research Articles

The inflammatory and oxidative phenotype of gestational diabetes is epigenetically transmitted to the offspring: role of methyltransferase MLL1-induced H3K4me3.

Hyperglycaemia during gestational diabetes (GD) predisposes women and their offspring to later cardiometabolic disease. The hyperglycaemia-mediated epigenetic changes remain to be elucidated. Methyltransferase MLL1-induced trimethylation of histone 3 at lysine 4 (H3K4me3) activates inflammatory and oxidative phenotype. This epigenetic mark in GD women and its transmission to the offspring were investigated. Peripheral blood mononuclear cells (PBMC) were collected from GD and control (C) women and also from adolescents born to women of both groups. Endothelial human umbilical vein endothelial cells (HUVEC) and cord blood mononuclear cells (CBMC) were from umbilical cords. The NF-κBp65 and NOX4 expressions were investigated by reverse transcription quantitative polymerase chain reaction and immunofluorescence (IF). MLL1 and H3K4me3 were investigated by immunoblotting and IF. H3K4me3 on NF-κBp65 and NOX4 promoters was studied by chromatin immunoprecipitation. Superoxide anion generation was measured by electron spin resonance spectroscopy. Plasma cytokines were measured by enzyme-linked immunosorbent assay. To investigate the role of MLL1, HUVEC were exposed to inhibitor MM102 or siRNA transfection. PBMC, CBMC, and HUVEC showed an increase of NF-κBp65, IL-6, ICAM-1, MCP-1, and VCAM-1 mRNAs. These findings were associated with H3K4me3 enrichment in the promoter of NF-κBp65. Elevated H3K4me3 and cytokine levels were observed in GD adolescents. MLL1 drives H3K4me3 not only on NF-kB p65, but also on NOX4 promoter. Inhibition of MLL1 blunted NF-κBp65 and NOX4 by modulating inflammatory and oxidative phenotype. Such proof-of-concept study shows persistence of MLL1-dependent H3K4me3 in offspring born to GD women, suggesting an epigenetic-driven transmission of maternal phenotype. These findings may pave the way for pharmacological reprogramming of adverse histone modifications to mitigate abnormal phenotypes underlying early ASCVD.

Atherosclerosis on a Chip: A 3-Dimensional Microfluidic Model of Early Arterial Events in Human Plaques.

Realistic reconstruction of the in vivo human atherosclerotic environment requires the coculture of different cell types arranged in atherosclerotic vessel-like structures with exposure to flow and circulating cells, presenting challenges for disease modeling. This study aimed to develop a 3-dimensional tubular microfluidic model with quadruple coculture of human aortic smooth muscle cells, human umbilical cord vein endothelial cells, and foam cells to recreate a complex human atherosclerotic vessel in vitro to study the effects of flow and circulating immune cells. We developed a coculture protocol utilizing BFP (blue fluorescent protein)-labeled human aortic smooth muscle cells, GFP (green fluorescent protein)-labeled human umbilical cord vein endothelial cells, and THP-1 macrophage-derived, Dil-labeled oxidized LDL (low-density lipoprotein) foam cells within a fibrinogen/collagen I-based 3-dimensional ECM (extracellular matrix). Perfusion experiments were conducted for 24 hours on both atherosclerotic vessels and healthy vessels (BFP-labeled human aortic smooth muscle cells and GFP-labeled human umbilical cord vein endothelial cells without foam cells). Additionally, perfusion with circulating THP-1 monocytes was performed to observe cell extravasation and recruitment. The resulting vessels displayed early lesion morphology, with a layered composition including an endothelium and media, and foam cells accumulating in the subendothelial space. The layered wall composition of both atherosclerotic and healthy vessels remained stable under perfusion. Circulating THP-1 monocytes demonstrated cell extravasation into the atherosclerotic vessel wall and recruitment to the foam cell core. The qPCR analysis indicated increased expression of atherosclerosis markers in the atherosclerotic vessels and adaptation of vascular smooth muscle cell migration in response to flow and the plaque microenvironment, compared with control vessels. The human 3-dimensional atherosclerosis model demonstrated stability under perfusion and allowed for the observation of immune cell behavior, providing a valuable tool for the atherosclerosis research field.

The association between macrosomia and glucose, lipids and hormones levels in maternal and cord serum: a case-control study

BackgroundThe formation of macrosomia is associated with excessive nutrition and/or unable to regulate effectively. This case-control study aims to explore the relationship between macrosomia and glucose, lipids and hormones levels in maternal and cord serum.MethodsIn the case-control study, 78 pairs of mothers and newborns were recruited who received care at one hospital of Hebei, China between 2016 and 2019. According to the birth weight (BW) of newborns, participants were divided into macrosomia group (BW ≥ 4000 g, n = 39) and control group (BW between 2500 g and 3999 g, n = 39). Maternal vein blood and cord vein blood were collected and assayed. All data were compared between the two groups. Unconditional logistics regression analysis was used to test the relationship between macrosomia and glucose, lipids and hormones in maternal and cord serum.ResultsIn maternal and cord serum, the levels of leptin, leptin/adiponectin ratio (LAR), glucose and triglyceride (TG) in macrosomia group were higher than those in control group, and the levels of high-density lipoprotein cholesterol (HDL-C) were lower. The percentage of maternal glucose and lipids transfer to cord blood did not differ between the two groups. High levels of TG in maternal serum were positively correlated with macrosomia, and high levels of LAR, TG and glucose in cord serum were positively correlated with macrosomia.ConclusionIn conclusion, the results of the current study, suggest that the nutrients and metabolism-related hormones in maternal and umbilical cord are closely related to macrosomia. During pregnancy, the nutritional status of pregnant women should be paid attention to and to obtain a good birth outcome.

Comparison of standard and global hemostasis assays in cord and peripheral blood of newborns.

Umbilical cord blood is used for the testing of various parameters in newborns. However, data on its applicability for hemostasis assays is insufficient. To evaluate whether umbilical cord blood can be used for standard tests, thromboelastometry and thrombodynamics for preterm and term newborns. 187 newborns were included in the study. Blood was taken from the umbilical cord and by venipuncture of the newborn. Clotting times, fibrinogen, D-dimer, thromboelastometry and thrombodynamics were measured. Clotting times and fibrinogen indicated a hypocoagulable shift, while thromboelastometry and thrombodynamics showed a hypercoagulable shift in hemostasis in umbilical cord blood compared to newborn blood. D-dimer indicated an enhanced process of thrombus lysis in newborn blood compared to cord blood. Collecting blood into a tube with the addition of a contact pathway inhibitor did not significantly change the global assay parameters in either umbilical cord blood or newborn blood. In the thrombodynamics assay, spontaneous clotting was detected but suppressed by the addition of a tissue factor inhibitor. Hemostasis in cord and newborn blood differs for both global and standard tests. Hypercoagulability in newborns registered with the global assay thrombodynamics is associated with the presence of tissue factor in the blood. 1. We found a hypercoagulation shift in newborns compared with the adult references, possibly due to the presence of tissue factor in blood. 2. Blood coagulation is enhanced in cord blood compared with blood sampled from the vein of a newborn according to thromboelastometry and thrombodynamics assays. 3. Clotting times and fibrinogen concentrations in cord blood differ from these parameters in newborn blood. 4. Studying of the (patho)physiological features of hemostasis in newborns should consider differences in cord blood and vein sampled blood.

Vasorelaxant effect of phenylpropanoids: Methyl eugenol and eugenol in human umbilical cord vein

Methyl-eugenol (ME) and eugenol (EUG) are phenylpropanoids with vasodilatory effects. While EUG's vasorelaxant effect in human umbilical artery (HUA) is known, their action in veins is unclear. This study aimed to evaluate ME and EUG in human umbilical vein (HUV). Isolated HUV underwent tension recordings. ME and EUG caused 100 % relaxation in HUV, with EC50 values corresponding to: 174.3 ± 7.3 and 217.3 ± 6.2 µM for ME and EUG respectively in presence of K+; 362.3 ± 5.4 and 227.7 ± 4.9 µM for ME and EUG respectively and in presence of serotonin (5-HT). It was observed that in presence of BaCl2 and CaCl2 evoked contractions, ME (800 and 1000 µM) and EUG (1000 and 1400 µM) prevent the contractions. In presence of K+ channel blockers it was observed that ME promoted relaxation compared to its control, except in presence of 4-AP, suggesting a possible Ca2+-dependent K+ channel activation for this molecule; EUG increased all EC50 in presence of the K+ blockers except in presence of TEA 1 mM. Greater pharmacological potency was observed for ME. This study highlights natural substances' effects on HUV contractile parameters, suggesting ME and EUG as potential vasodilators in maintaining fetal oxygenation and venous flow during gestational hypertensive syndromes.

Prolonged premature rupture of membranes with increased risk of infection is associated with gut accumulation of Pseudomonas from the environment

BackgroundPreterm premature rupture of membranes (PPROM) contributes to over one-third of preterm births, and PPROM infants are more susceptible to infections. However, the risk factors remain poorly understood. We here aim to investigate the association of duration of premature rupture of membranes (PROM) and environmental microbiota with the gut microbiota and infection in PPROM infants. MethodsForty-six premature infants were recruited from two hospitals, and infant fecal and environmental samples were collected. 16 s rRNA sequencing was performed to analyze the fecal and environmental microbiome. Human inflammatory cytokines in cord vein plasma were measured. ResultsThe gut microbiota composition of PPROM infants was different from that of non-PPROM infants, and the microbiome phenotypes were predicted to be associated with a higher risk of infection, further evidenced by the significantly increased levels of IL-6 and IL-8 in cord vein plasma of PPROM infants. The diversity of the gut microbiota in PPROM infants increased significantly as the duration of PROM excessed 12 h, and Pseudomonas contributed significantly to the dynamic changes. The Pseudomonas species in the gut of PPROM infants were highly homologous to those detected in the ward environment, suggesting that prolonged PROM is associated with horizontal transmission of environmental pathogens, leading to a higher risk of infection. ConclusionsThis study highlights that the duration of PROM is associated with the accumulation of environmental pathogens in the gut of PPROM infants, which is a risk factor for nosocomial infections. Improving environmental hygiene could be effective in optimizing the clinical care of PPROM infants.

The Impact of Opium Consumption on Inflammatory Factors in Umbilical Cord Blood and Maternal Blood Postpartum: A Potential Contributor to Neonatal Complications

Opium addiction during pregnancy can have significant effects on the activity of the immune system as well as on pregnancy outcomes. A study was conducted comparing opium-addicted pregnant women to healthy pregnant women. Blood samples were taken from the maternal vein and umbilical cord immediately after delivery to measure concentrations of inflammatory markers. The results showed that the opium-addicted group had significantly higher levels of IL-6, IL-10, CRP, C3, and C4 in both maternal and cord blood samples compared to the control group. Additionally, adverse pregnancy outcomes such as NICU admissions, neonatal deaths, and low Apgar scores were more prevalent in the opium-addicted group. These findings suggest that opium addiction during pregnancy can lead to postpartum inflammation and negatively impact pregnancy outcomes. It is important to address opium addiction and provide appropriate support and treatment to pregnant women to improve pregnancy outcomes and reduce the risk of complications.

Plasma polyamines during pregnancy and their relationships with maternal allergies and the immune response of the neonates

AbstractBackgroundSome studies have reported that polyamine levels may influence immune system programming. The aim of this study was to evaluate the polyamine profile during gestation and its associations with maternal allergy and cytokine production in cord blood cells in response to different allergenic stimuli.MethodsPolyamines were determined in plasma of pregnant women (24 weeks, N = 674) and in umbilical cord samples (N = 353 vein and N = 160 artery) from the Mediterranean NELA birth cohort. Immune cell populations were quantified, and the production of cytokines in response to different allergic and mitogenic stimuli was assessed in cord blood.ResultsSpermidine and spermine were the most prevalent polyamines in maternal, cord venous, and cord arterial plasma. Maternal allergies, especially allergic conjunctivitis, were associated with lower spermine in umbilical cord vein. Higher levels of polyamines were associated with higher lymphocyte number but lower Th2‐related cells in cord venous blood. Those subjects with higher levels of circulating polyamines in cord showed lower production of inflammatory cytokines, especially IFN‐α, and lower production of Th2‐related cytokines, mainly IL‐4 and IL‐5. The effects of polyamines on Th1‐related cytokines production were uncertain.ConclusionsSpermidine and spermine are the predominant polyamines in plasma of pregnant women at mid‐pregnancy and also in umbilical cord. Maternal allergic diseases like allergic conjunctivitis are related to lower levels of polyamines in cord vein, which could influence the immune response of the newborn. Cord polyamine content is related to a decreased Th2 response and inflammatory cytokines production, which might be important to reduce an allergenic phenotype in the neonate.

Intertwin discordance of aldosterone levels in amniotic fluid with placental anastomoses in monochorionic twins: Insight into the pathophysiology of twin-to-twin transfusion syndrome.

Our objective was to investigate the association between the presence of placental anastomoses and intertwin differences in renin-angiotensin-aldosterone activation in monochorionic twins using amniotic fluid aldosterone (AF-ALD) levels. In addition, this study also examined the association between AF-ALD and the ALD levels in the umbilical cord blood (UCB-ALD) in monochorionic twins. This prospective study included monochorionic diamniotic (MD) twin pregnancies that were not complicated by twin-to-twin transfusion syndrome (TTTS) at delivery. Amniotic fluid and umbilical cord vein blood samples were collected from each twin at delivery, and the ALD levels were measured subsequently. The MD twins were divided into two groups: those with placental anastomoses and those without anastomoses owing to fetoscopic laser surgery. The differences in the AF-ALD levels between the larger and smaller twins were analyzed. The AF-ALD levels showed a strong and significant positive correlation with UCB-ALD levels in 131 MD twins (r = 0.804, p < 0.001). Intertwin differences were examined in 41 and 28 pairs of MD twins with and without placental anastomoses, respectively. The AF-ALD levels in the smaller twins were significantly higher than those in the larger twins among the pairs of MD twins with placental anastomoses (p = 0.003); however, no statistically significant intertwin differences were observed among the twins without placental anastomoses (p > 0.05). The AF-ALD levels reflect the UCB-ALD levels in MD twins. The presence of placental anastomoses led to intertwin discordance in the ALD levels in MD twins even uncomplicated with TTTS. It was considered that monochorionic twins have this clinical background, and it leads to the development of TTTS.

Orthotopic transplantation of the bioengineered lung using a mouse-scale perfusion-based bioreactor and human primary endothelial cells

Whole lung engineering and the transplantation of its products is an ambitious goal and ultimately a viable solution for alleviating the donor-shortage crisis for lung transplants. There are several limitations currently impeding progress in the field with a major obstacle being efficient revascularization of decellularized scaffolds, which requires an extremely large number of cells when using larger pre-clinical animal models. Here, we developed a simple but effective experimental pulmonary bioengineering platform by utilizing the lung as a scaffold. Revascularization of pulmonary vasculature using human umbilical cord vein endothelial cells was feasible using a novel in-house developed perfusion-based bioreactor. The endothelial lumens formed in the peripheral alveolar area were confirmed using a transmission electron microscope. The quality of engineered lung vasculature was evaluated using box-counting analysis of histological images. The engineered mouse lungs were successfully transplanted into the orthotopic thoracic cavity. The engineered vasculature in the lung scaffold showed blood perfusion after transplantation without significant hemorrhage. The mouse-based lung bioengineering system can be utilized as an efficient ex-vivo screening platform for lung tissue engineering.

Evaluation of serotonin levels in full-term newborns of diabetic mothers

BACKGROUND: The growth of neurological and mental diseases in the offspring of patients with pre- and gestational diabetes mellitus determines the need to study the regulatory function of the serotoninergic system of the brain in newborns. This plays a key role in its morphofunctional development in early ontogenesis, which is necessary for timely diagnosis of disorders and prevention of long-term consequences.&#x0D; AIM: The aim of this study was to evaluate serotonin levels in full-term newborns with diabetic fetopathy from mothers with pre- and gestational diabetes mellitus.&#x0D; MATERIALS AND METHODS: The main group consisted of 45 newborns with diabetic fetopathy, of whom 30 individuals were from mothers with type 1 diabetes mellitus and 15 ones from mothers with gestational diabetes mellitus. The control group comprised 20 healthy full-term newborns from healthy mothers without pregnancy complications. Serotonin concentrations were determined in platelet-rich plasma of blood from the umbilical cord vein, and in a platelet suspension prepared from venous blood taken on the first day of life, using high-performance liquid chromatography with electrochemical detection.&#x0D; RESULTS: Platelet-rich plasma serotonin level in umbilical cord blood taken from newborns of the main group was more than two times lower compared to children of healthy mothers. This parameter in venous blood taken from mothers with type 1 diabetes (0.744 ± 0.117 µmol/l) corresponded to that in healthy patients, while in mothers with gestational diabetes mellitus, it was significantly lower and amounted to 0.331 ± 0.071 µmol/l (p 0.05). Moreover, platelet-rich plasma serotonin level in all newborns correlated with that in their mothers (R = 0.505; p 0.05). Serotonin levels in venous blood platelets of newborns of the main group was almost 2.5 times lower than in healthy ones.&#x0D; CONCLUSIONS: The data obtained indicate the need to use platelet serotonin values as a biochemical marker of disorders of functional brain development in children with diabetic fetopathy.

Paraparesis due to angio-neurotropic Gurltia paralysans in a domestic cat (Felis catus) and retrospective study on feline gurltiosis cases in South America.

The nematode Gurltia paralysans is a neglected angio-neurotropic parasite causing chronic meningomyelitis in domestic cats (Felis catus) as well as wild felids of the genus Leopardus in South America. Adult G. paralysans nematodes parasitize the leptomeningeal veins of the subarachnoid space and/or meningeal veins of the spinal cord parenchyma. The geographic range of G. paralysans encompasses rural and peri-urban regions of Chile, Argentina, Uruguay, Colombia and Brazil. This case report presents clinical and pathological findings of a G. paralysans-infected cat suffering from severe thrombophlebitis and meningomyelitis resulting in ambulatory paraparesis. Neurological examination of affected cat localized the lesions at the thoracolumbar (T3-L3) and lumbosacral (L4-Cd4) segments. Molecular and morphological characteristics of extracted nematodes from parasitized spinal cord veins confirmed G. paralysans. Additionally, data obtained from a questionnaire answered by cat owners of 12 past feline gurltiosis cases (2014-2015) were here analyzed. Questionnaire collected data on age, gender, geographic location, type of food, hunting behavior, type of prey, and other epidemiological features of G. paralysans-infected cats. Data revealed that the majority of cats originated from rural settlements thereby showing outdoor life styles with hunting/predatory behaviors, being in close contact to wild life [i.e. gastropods, amphibians, reptiles, rodents, birds, and wild felids (Leopardus guinia)] and with minimal veterinary assistance. Overall, this neglected angio-neurotropic G. paralysans nematode still represents an important etiology of severe thrombophlebitis and meningomyelitis of domestic cats living in endemic rural areas with high biodiversity of definitive hosts (DH), intermediary (IH), and paratenic hosts (PH). The intention of this study is to generate awareness among veterinary surgeons as well as biologists on this neglected feline neuroparasitosis not only affecting domestic cats but also endangered wild felid species of the genus Leopardus within the South American continent.

Chitosan-Rapamycin Carbon Dots Alleviate Glaucomatous Retinal Injury by Inducing Autophagy to Promote M2 Microglial Polarization.

Glaucoma is a prevalent cause of irreversible vision impairment, characterized by progressive retinal ganglion cells (RGCs) loss, with no currently available effective treatment. Rapamycin (RAPA), an autophagy inducer, has been reported to treat glaucoma in rodent models by promoting RGC survival, but its limited water solubility, systemic toxicity, and pre-treatment requirements hinder its potential clinical applications. Chitosan (CS)-RAPA carbon dot (CRCD) was synthesized via hydrothermal carbonization of CS and RAPA and characterized by transmission electron microscopy, Fourier transform infrared spectra, and proton nuclear magnetic resonance. In vitro assays on human umbilical cord vein endothelial and rat retinal cell line examined its biocompatibility and anti-oxidative capabilities, while lipopolysaccharide-stimulated murine microglia (BV2) assays measured its effects on microglial polarization. In vivo, using a mouse retinal ischemia/reperfusion (I/R) model by acute intraocular pressure elevation, the effects of CRCD on visual function, RGC apoptosis, oxidative stress, and M2 microglial polarization were examined. CRCD exhibited good water solubility and anti-oxidative capabilities, in the form of free radical scavenging. In vitro, CRCD was bio-compatible and lowered oxidative stress, which was also found in vivo in the retinal I/R model. Additionally, both in vitro with lipopolysaccharide-stimulated BV2 cells and in vivo with the I/R model, CRCD was able to promote M2 microglial polarization by activating autophagy, which, in turn, down-regulated pro-inflammatory cytokines, such as IL-1β and TNF-α, as well as up-regulated anti-inflammatory cytokines, such as IL-4 and TGF-β. All these anti-oxidative and anti-inflammatory effects ultimately aided in preserving RGCs, and subsequently, improved visual function. CRCD could serve as a potential novel treatment strategy for glaucoma, via incorporating RAPA into CDs, in turn not only mitigating its toxic side effects but also enhancing its therapeutic efficacy.

Development of a Tri-Layered Vascular Construct and In Vitro Evaluation of Endothelization.

Advances in the development of vascular substitutes for small-sized arteries are ongoing because the present grafts do not entirely meet the requirements of native equivalents and are suboptimal in clinical performance. This study aims to develop a tri-layered vascular construct mimicking natural tissue using polyester blends and to investigate its endothelization through in vitro studies as a potential small-caliber vascular graft. The innermost layer is obtained by dip coating as a tubular porous film with a lumen diameter of 3mm and a pore size of ≤8µm. Circumferentially aligned electrospun fiber (diameter 100-800nm) with a deviation angle of 15° are deposited over the porous film forming the intermediate layer. The random electrospun fibers (diameter 100-1100nm) deviating at different angles are wrapped as the outermost layer. The mechanical properties of the tri-layered vascular construct are determined to be 44.80±14.80MPa for Young's modulus and 4.25±0.75MPa for ultimate tensile strength. MTS and cell behavior studies show that the isolated human umbilical cord vein endothelial cells proliferate and line the lumen of the vascular substitute. The vascular construct developed, with its biomimetic architecture, mechanical features, size, and endothelization, can be tested with in vivo studies.

Establishment of a 3D multicellular placental microtissues for investigating the effect of antidepressant vortioxetine

The placenta is a unique organ with an active metabolism and dynamically changing physiology throughout pregnancy. It is difficult to elucidate the structure of cell-cell and cell-extracellular matrix interactions of the placenta in in vivo studies due to interspecies differences and ethical constraints. In this study, human umbilical cord vein cells (HUVEC) and human placental choriocarcinoma cells (BeWo) were co-cultured for the first time to form spheroids (microtissues) on a three-dimensional (3D) Petri Dish® mold and compared with a traditional two-dimensional (2D) system. Vortioxetine is an antidepressant with a lack of literature on its use in pregnancy in established cultures, the toxicity of vortioxetine was studied to investigate the response of spheroids representing placental tissue. Spheroids were characterised by morphology and exposed to vortioxetine. Cell viability and barrier integrity were then measured. Intercellular junctions and the localisation of serotonin transporter (SERT) proteins were demonstrated by immunofluorescence (IF) staining in BeWo cells. Human chorionic gonadotropin (beta-hCG) hormone levels were also measured. In the 3D system, cell viability and hormone production were higher than in the 2D system. It was observed that the barrier structure was impaired, the structure of intracellular skeletal elements was altered and SERT expression decreased depending on vortioxetine exposure. These results demonstrate that the multicellular microtissue placenta model can be used to obtain results that more closely resemble in vivo toxicity studies of various xenobiotics than other 2D and mono-culture spheroid models in the literature. It also describes the use of 3D models for soft tissues other than the placenta.

Epigenetically-driven persistence of inflammatory and oxidative phenotypes in adolescents born to women with gestational diabetes

Abstract Background According to the theory of developmental origins of health and disease1, environmental changes during the in-utero period can permanently affect health and vulnerability to diseases later in life. As a matter of fact, the offspring of women with gestational diabetes (GD) exhibit a higher risk for developing obesity, type 2 diabetes (T2D), and atherosclerotic cardiovascular disease (ASCVD) than those individuals with a family history of diabetes2–4. Importantly, epigenetics has emerged as a crucial determinant for this transmission across generations5–8. Mixed Lineage Leukemia 1 (MLL1) histone methyltransferase activates inflammatory and oxidative pathways through trimethylation of histone 3 at lysine 4 amino (H3K4me3)9. Purpose To investigate whether such epigenetic mark regulates genes triggering inflammation and oxidative stress in GD women, and its potential transmission and persistence in their offspring. Methods We isolated peripheral blood mononuclear cells (PBMCs), fetal cord blood mononuclear cells (CBMCs), and umbilical cord vein endothelial cells (HUVECs) from GD and control pregnant women, as well as PBMCs and plasma samples from a retrospective cohort of adolescents (12-16 years old) born to control or GD women. Gene and protein expressions were investigated by RT-PCR, immunoblotting and/or confocal microscopy. H3K4me3 levels on NF-kB p65 and NADPH oxidase isoform 4 (NOX4) promoter regions were assessed by chromatin immunoprecipitation (ChIP) and RT-PCR. Mechanistic studies were performed in control- and GD-HUVECs using the MLL1 inhibitor MM-102 to assess downstream inflammatory mediators and superoxide anion (O2-) generation by electron spin resonance (ESR) spectroscopy. Results Our data showed upregulation of MLL1 and H3K4me3 levels in PBMCs, HUVECs, and CBMCs isolated from GD as compared to control women. ChIP analysis revealed H3K4me3 enrichment in the promoter region of the inflammatory and oxidative master regulatory genes NF-kB p65 and NOX4, respectively, in these cells. We also found an upregulation of NF-kB p65 target genes IL-6, MCP-1, ICAM-1, and VCAM-1, and increased monocyte adhesion and O2- production. The inhibition of MLL1 was able to reduce H3K4me3 levels blunting the inflammatory and oxidative phenotypes in GD-HUVECs. Interestingly enough, we demonstrated a persistent increase of H3K4me3 in the NF-kB p65 promoter region of PBMCs together with an elevation of inflammatory markers in plasma from adolescents born to GD women. Conclusions Our results suggest that GD may induce inflammation and oxidative stress through MLL1-dependent H3K4me3 mechanisms. Such epigenetic mark is transmitted to the offspring and, most importantly, can still be found in adolescence as a pro-inflammatory trigger. These findings pave the way for pharmacological reprogramming of adverse histone modifications to counteract early abnormal phenotypes in GD offspring which may accelerate ASCVD burden.

Non-invasive and probeless rapid in-vitro monitoring and quantification of HUVECs counts based on FFT impedimetery

Introduction: The endothelial cells derived from the human vein cord (HUVECs) are used as in-vitro models for studying cellular and molecular pathophysiology, drug and hormones transport mechanisms, or pathways. In these studies, the proliferation and quantity of cells are important features that should be monitored and assessed regularly. So rapid, easy, noninvasive, and inexpensive methods are favorable for this purpose. Methods: In this work, a novel method based on fast Fourier transform square-wave voltammetry (FFTSWV) combined with a 3D printed electrochemical cell including two inserted platinum electrodes was developed for non-invasive and probeless rapid in-vitro monitoring and quantification of human umbilical vein endothelial cells (HUVECs). The electrochemical cell configuration, along with inverted microscope images, provided the capability of easy use, online in-vitro monitoring, and quantification of the cells during proliferation. Results: HUVECs were cultured and proliferated at defined experimental conditions, and standard cell counts in the initial range of 12 500 to 175 000 were prepared and calibrated by using a hemocytometer (Neubauer chamber) counting for electrochemical measurements. The optimum condition, for FFTSWV at a frequency of 100 Hz and 5 mV amplitude, were found to be a safe electrochemical measurement in the cell culture medium. In each run, the impedance or admittance measurement was measured in a 5 seconds time window. The total measurements were fulfilled at 5, 24, and 48 hours after the seeding of the cells, respectively. The recorded microscopic images before every electrochemical assay showed the conformity of morphology and objective counts of cells in every plate well. The proposed electrochemical method showed dynamic linearity in the range of 12 500-265 000 HUVECs 48 hours after the seeding of cells. Conclusion: The proposed electrochemical method can be used as a simple, fast, and noninvasive technique for tracing and monitoring of HUVECs population in in-vitro studies. This method is highly cheap in comparison with other traditional tools. The introduced configuration has the versatility to develop electrodes for the study of various cells and the application of other electrochemical designations.

Diagnostic Accuracy of Haematological Scoring System in Paired cord Blood and Peripheral Venous Blood for early Detection of Neonatal Sepsis – A Prospective Analytical Study

Introduction: Sepsis is one of the major causes of neonatal morbidity and mortality. Early recognition and diagnosis of early onset neonatal sepsis (EONS) is difficult. Hence, there is a need for early predictive screening method for EONS, for which Haematological Scoring System (HSS) is used. It comprises of total leucocyte count, immature / total neutrophil ratio, total PMN count, immature PMN count, degenerative changes in PMN and platelet count.&#x0D; Methods: 100 inborn neonates with two or more risk factors for EONS, chosen by sequential sampling method were included in this prospective analytical study. Blood samples were collected from umbilical cord and peripheral vein and analysed for haematological parameters. Blood cultures were performed as gold standard for diagnosing neonatal sepsis and sepsis screen was done to corroborate the diagnosis of EONS.&#x0D; Results: Out of 100 neonates, 21 had sepsis, 14 had probable sepsis and 65 had no sepsis. Among the variables of HSS it was observed that elevated I:T ratio, thrombocytopenia, elevated I:M ratio and elevated immature neutrophil count have shown significant correlation with EONS with statistically significant p values (p value &lt; 0.05), with raised I:T ratio being highly sensitive in identifying neonatal sepsis and degenerative changes in neutrophils being highly specific.&#x0D; Conclusions: The HSS was found to be satisfactory in identifying EONS. It can be used as a simple, quick, cost effective and readily available screening test with decent sensitivity and high specificity, for detection of EONS.

Effect of preconditioning of human umbilical cord mesenchymal stem cells with hydrogen peroxide on the therapeutic potential of MSCs in the cyclophosphamide -induced premature ovarian failure mice model.

Exposure of stem cells to sublethal levels of hydrogen peroxide (H2O2) can prevent oxidative stress-induced apoptosis. In the present study, the effects of H2O2 preconditioning on the therapeutic potential of human umbilical vein cord mesenchymal stem cells (hUCV-MSCs) were evaluated in a murine model of premature ovarian failure. Mature mice were divided into 4 groups, and 10 mice were incorporated into each group. The control (Ctrl) group received phosphate buffered saline (PBS) intraperitoneal (IP), and the CTX group was injected IP with cyclophosphamide (CTX). The CTX+MSC group after receiving CTX was injected with a single dose of hUCV-MSCs labeled with CM-DiI intravenously (IV), whereas the CTX+preMSCs group after CTX injection received preconditioned MSCs with H2O2 IV. Seven days later, the mice were euthanized, and their ovaries were removed for histological studies such as H&E staining and the TUNEL assay. Furthermore, the numbers of CM-DiI-labeled hUCV-MSCs in the different regions of the ovary were calculated. FSH and estradiol values in the serum were measured. Our studies showed that CTX caused degenerative changes and follicular loss in the ovary. The number of follicles in the CTX+MSCs and CTX+PreMSCs groups was significantly higher compared to the CTX group. In addition, in the CTX+PreMSCs group, the numbers of different types of follicles were higher than in the CTX-MSC group. Immunohistochemical studies in the CTX+MSCs and CTX+PreMSCs groups showed little evidence of TUNEL positivity compared with the CTX group. Moreover, the apoptotic index decreased in the CTX+PreMSCs group compared to the CTX+MSCs group. Moreover, CM-DiI-labeled MSCs in the ovary in the CTX+pre-MSCs group were higher than in the CTX+MSCs group. Our experiment offers preconditioning as an effective strategy in stem cell therapy to potentiate MSCs' therapeutic efficacy in ovarian function failure.

PHEMA-based cryogels as 3D placental scaffolds

The placental barrier regulates the passage of nutrients, waste, drugs, and chemicals between maternal and fetal tissues. Mono and co-culture systems were constituted with human placental choriocarcinoma cells (BeWo) and human umbilical cord vein cells (HUVEC) on biocompatible poly (2-hydroxyethyl methacrylate) (PHEMA)-based cryogels. PHEMA cryogels were supported with extracellular matrix (ECM) elements. According to the Fourier transform infrared spectrometry-Attenuated Total Reflectance (FTIR-ATR) results, it was confirmed that gelatin, folic acid (FA), fibronectin (FN), and collagen type IV (COL Type IV) were successfully incorporated into the structure of cryogels. The mean pore size of the cryogels confirmed by micro-computed tomography analysis was in the range of 15–195 µm. The antidepressant active ingredient Vortioxetine was investigated by 3-(4,5-dimethylthiazol2-yl)− 2,5-diphenyltetrazolium-bromide (MTT) viability analysis in the constituted cryogel co-culture system. The cryogels did not cause any toxic effect on the cells. High doses of Vortioxetine showed reduced cell viability in monocultures, but not the expected reduction in cell viability at the same doses of co-culture. The highest amount of human chorionic gonadotropin hormone was in the PHEMA+COL Type IV+FA group. There were no significant changes in matrix metalloproteinase (MMP) 2 and 9 protein levels due to Vortioxetine dose administration.