Cord Blood Research Articles

Copper and zinc status in cord blood and breast milk and child's neurodevelopment at 18months: Results of the Italian PHIME cohort.

Trace elements, including zinc (Zn) and copper (Cu), although toxic at higher concentrations are known to play important roles in the maintenance of human health and neurodevelopment. Few epidemiological studies have investigated the association between prenatal or early postnatal Cu and Zn levels and child neurodevelopment. The aim of this research is to assess the association between child neurodevelopment at 18 months of age and cord blood and breast milk concentrations of Cu and Zn in Italian mother-child pairs enrolled in the Italian Northern Adriatic Cohort II (NAC-II), a part of the "Public health impact of long-term, low-level, mixed element exposure in susceptible population strata" project PHIME. The study population consisted of 632 children, and their mothers, born within the NAC-II, who were tested with the Bayley Scales of Infant and Toddler Development third edition (BSID-III) at age 18 months. Cu and Zn concentrations were measured in cord blood and breast milk samples. Only children born at term (≥37 gestational week), who completed the BSID-III test and had at least 1 measure of Cu and Zn concentrations were included in the analysis. Information about socio-demographics and lifestyles were collected through questionnaires at different phases of follow-up. Cu and Zn concentrations were log2 transformed because of their skewed distribution. Multiple linear regression models were performed to study the association between each BSID-III composite score (cognitive, motor and language) and each metal concentration. Separate models were applied for each biological sample. The β coefficient (β) and its 95% confidence interval (95% CI) were estimated. Stratified analyses by child's sex were also conducted. The mean±standard deviation (SD) of cognitive, motor and language composite scores were respectively: 106±8, 101±5 and 97±8. The mean±SD of Cu and Zn concentrations (ng/g) were respectively 699.2±129.0 and 2538±589 in cord blood and 607±498 and 3226±1428 in breast milk. No association between metal concentration and cognitive composite score was found. A higher motor composite score was associated with higher Cu concentrations in cord blood (β=4.31 95% CI 2.03; 6.59). No associations were found between language composite score and metal concentrations. The effect of Cu cord blood concentration on motor composite score was confirmed when stratified by sex: males (β=5.49 95% CI 2.15; 8.36) and females (β=3.11; 95% CI 0.00; 6.22). A direct association, in females only, was found between language composite score and Cu concentration in cord blood (β=5.60 95% CI 0.63; 10.57) and in breast milk (β=3.04 95% CI 1.06; 5.03), respectively. The results from this cohort study showed a strong direct association between prenatal Cu levels and child motor neurodevelopment at 18 months. However, for generalizability, future research on the effects of Zn and Cu on neurodevelopment should include a larger range of early-life concentration of trace elements.

Characterizing DNA methylation and hydroxymethylation in cord blood and identifying sex-specific differences using the Illumina EPIC array

Characterizing DNA methylation and hydroxymethylation in cord blood and identifying sex-specific differences using the Illumina EPIC array

Abstract A017: IGF2BP1 is essential for ETO2/GLIS2 leukemogenesis via stabilization of primitive myeloid transcriptional programs

Abstract Certain subtypes of pediatric leukemia continue to have dismal cure rates despite advances in targeted therapy. One such disease is acute megakaryoblastic leukemia (AMKL) with a rearrangement of ETO2/GLIS2 (also known as CBFA2T3/GLIS2.) Based on our preliminary data utilizing CRISPR/Cas9 screens in vivo in patient-derived xenografts, we have nominated IGF2BP1 as a potential vulnerability in ETO2/GLIS2-rearranged AMKL. For our discovery phase, we utilized a patient-derived E2G2r AMKL which successfully engrafts in NSGS mice. We created a stable Cas9-expressing subclone using lentiviral transduction followed by FACS enrichment and limiting dilution transplants. We then generated a custom library targeting the top 100 overexpressed genes between E2G2r leukemias versus other leukemia PDXs which we previously characterized, including eight transcription factors with motifs enriched in differentially expressed genes, as well as eight pan-essential positive controls. Mice were sacrificed at humane endpoints, and spleens and bone marrow underwent PCR amplification for gRNA sequences followed by sequencing and analysis with MAGeCK-VISPR (Wei L, et al. Genome Biol 2015). We observed the dropout of 38 genes with a false discovery rate < 0.25, including all positive control gRNAs. Among the most significantly depleted genes was the RNA binding protein IGF2BP1. We subsequently characterized phenotypic changes using shRNAs in the E2G2r cell line M07e and ETO2/GLIS2-transformed CD34+ umbilical cord blood cells. Notably, we observed impaired cell growth with IGF2BP1 knockdown in both cell lines as well as the parent xenograft. We also generated M07e lines expressing a degron (FKBPF36V, aka “dTAG”, Nabet et al. Nat Chem Biol 2018) knocked in at the endogenous IGF2BP1 locus and observed similar phenomena. Through flow cytometry of M07e following IGF2BP1 depletion, we observed changes in the leukemic immunophenotype as well, suggesting perturbation of megakaryocyte differentiation potential. To determine the mechanism underlying our observations, we performed enhanced UV crosslinking with IP and sequencing (Blue SM et al. Nat Protoc 2022) against both IGF2BP1 and m6A residues based on the putative role of IGF2BP1 as an m6A reader. We observed binding of IGF2BP1 predominantly in 3’UTRs, as well as the presence of m6A-modified bases at IGF2BP1 binding sites. Gene ontology (GO) analysis of IGF2BP1-bound transcripts demonstrated enrichment for GO terms pertaining to embryonic hematopoiesis and megakaryocyte maturation/development. We further evaluated global changes in gene expression following IGF2BP1 loss, and performed RNAseq 72 hours following shRNA-mediated knockdown. GO analysis showed that downregulated genes were highly enriched for E2F-mediated transcriptional programs. We hypothesize that IGF2BP1 regulates myeloid developmental transcripts essential for E2G2r leukemogenesis, likely via stabilization in an m6A-dependent fashion, and thus may represent a selective therapeutic target. Work is ongoing to further elucidate this proposed mechanism. Citation Format: Jason Clark, Mark Wunderlich, Jing Chen, Daniel Starczynowski, Lynn Lee. IGF2BP1 is essential for ETO2/GLIS2 leukemogenesis via stabilization of primitive myeloid transcriptional programs [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: RNAs as Drivers, Targets, and Therapeutics in Cancer; 2024 Nov 14-17; Bellevue, Washington. Philadelphia (PA): AACR; Mol Cancer Ther 2024;23(11_Suppl):Abstract nr A017.

Phenotypic and transcriptomic profiling of induced pluripotent stem cell (iPSC)-derived NK cells and their cytotoxicity against cancers.

Adoptive immunotherapy using natural killer (NK) cells has attracted considerable interest in numerous clinical trials targeting both hematological and solid tumors. Traditionally, NK cells are primarily derived from either peripheral blood (PB) or umbilical cord blood (UCB). However, these methods can lead to variability and heterogeneity within the NK cell population. In contrast, induced pluripotent stem cell (iPSC)-derived NK (iNK) cells provide a more controlled and uniform cellular population, suitable for large-scale clinical applications. This makes iNK cells a promising option for developing "off-the-shelf" immunotherapeutic products. Nevertheless, current NK cell differentiation protocols, which rely on embryoid body (EB) cultures, are labor-intensive and susceptible to unwanted heterogeneity during differentiation. Here, we developed a more efficient approach for generating iNK cells by employing a monolayer and feeder-free differentiation protocol, alongside optimized culture media. The iNK cells were generated using a two-step in vitro monolayer feeder-free system following NK cell development. To evaluate their maturity, phenotypic analysis was performed using flow cytometry, comparing with PB-NK cells and the NK-92 cell line. Additionally, single-cell RNA sequencing was performed to examine their transcriptomic profiles. The cytotoxic activity of the iNK cells was evaluated by co-culturing with cholangiocarcinoma (CCA) and breast cancer (BCA) cell lines in both monolayer (2D) and tumor spheroid (3D) co-culture systems. We successfully differentiated iPSCs into mesoderm (ME), hematopoietic stem/progenitor cells (HSPCs), and NK cells. The resulting iNK cells exhibited typical NK cell markers such as CD45, CD56, and CD16, and expressed key functional proteins, including both activating and inhibitory receptors. Single-cell RNA sequencing confirmed that the transcriptomic profile of our iNK cells closely resembles that of PB-NK cells. Importantly, our iNK cells demonstrated strong cytotoxic abilities against various CCA and BCA cell lines, surpassing the NK-92 cell line in both monolayer cultures and tumor spheroid cultures. This study highlights the potential of iPSCs as an effective alternative cell source for generating NK cells. Using a two-step in vitro monolayer feeder-free system, we successfully generated iNK cells that not only expressed key NK cell markers and their receptors but also displayed a transcriptomic profile closely resembling PB-NK cells. Furthermore, iNK cells exhibited cytotoxicity against CCA and BCA cell lines comparable to that of PB-NK cells. This approach could pave the way for off-the-shelf NK cell products, potentially enhancing the effectiveness of adoptive NK cell therapy.

Associations of prenatal arsenic exposure with myopia in primary school children: modifying effects of vitamin D levels.

The increasing role of environmental pollutants and nutrients in the development of myopia. Further longitudinal evidence is needed to elucidate the effects of early-life environmental pollutants on myopia and nutrients to protect against pollutant-induced myopia. We used mother-child dyads from the Ma'anshan Birth Cohort (n = 2028) to explore the modifying effects of maternal vitamin D status of prenatal and childhood arsenic exposure with refractive parameters and myopia. We measured serum or plasma arsenic concentrations during three trimesters, in cord blood, in childhood (5-year-old), and performed cycloplegic refraction in children aged 7 to 9 years (n = 1616). Primary outcomes were myopia and refractive parameters including axial length (AL), corneal radius of curvature, and spherical equivalent refraction error. Linear regression, logistic regression, and multiple informant models were performed for the association of prenatal and childhood arsenic exposure with vision health. Sex- and vitamin D status stratification analyses were also conducted. Cord serum arsenic was positively associated with AL (β = 0.15, 95%CI: 0.01, 0.29) and the risk of developing myopia (OR = 1.72, 95%CI: 1.07, 2.75). Among boys, a 1 ng/L increase in cord serum log10-transformed arsenic resulted in larger AL and a higher risk of myopia. In the vitamin D deficient group (<20 ng/mL), cord serum arsenic showed positive associations with AL (0.26 [0.06, 0.46]) and the risk of myopia (1.99 [1.01, 3.90]). Late pregnancy arsenic exposure likely affects offspring development of myopia, especially in boys. Maternal sufficient vitamin D may confer protective effects against the development of myopia.

Cytokine and growth factor correlation networks associated with morbidities in extremely preterm infants.

Cytokines and growth factors (GF) have been implicated in the development of retinopathy of prematurity (ROP) and bronchopulmonary dysplasia (BPD). We hypothesize that even small coordinated changes in inflammatory proteins or GFs may reveal changes in underlying regulating mechanisms that do not induce obvious changes in concentration of individual proteins. We therefore applied correlation network analysis of serum factors to determine early characteristics of these conditions. Concentrations of 17 cytokines and five GFs were measured and analysed in blood samples from cord blood, on day one and during the following month in 72 extremely preterm infants. Spearman's correlation networks distinguishing BPD and severe ROP patients from non-affected were created. Most cytokine concentrations correlated positively with each other and negatively with GFs. Very few individual cytokines differed between patients with and without ROP or BPD. However, networks of differently correlated serum factors were characteristic of the diseases and changed with time. In ROP networks, EPO, G-CSF and IL-8 (cord blood), BDNF and VEGF-A (first month) were prominent. In BPD networks, IL-1β, IGF-1 and IL-17 (day one) were noted. Network analysis identifies protein signatures related to ROP or BPD in extremely preterm infants. The identified interactions between serum factors are not evident from the analysis of their individual levels, but may reveal underlying pathophysiological mechanisms in the development of these diseases.

In utero human cytomegalovirus infection expands NK-like FcγRIII+ CD8+ T cells that mediate Fc antibody functions.

Human cytomegalovirus (HCMV) profoundly impacts host T and natural killer (NK) cells across the lifespan, yet how this common congenital infection modulates developing fetal immune cell compartments remains underexplored. Using cord blood from neonates with and without congenital HCMV (cCMV) infection, we identify an expansion of Fcγ receptor III (FcγRIII)-expressing CD8+ T cells following HCMV exposure in utero. Most FcγRIII+ CD8+ T cells express the canonical αβ T cell receptor (TCR) but a proportion express non-canonical γδ TCR. FcγRIII+ CD8+ T cells are highly differentiated and have increased expression of NK cell markers and cytolytic molecules. Transcriptional analysis reveals FcγRIII+ CD8+ T cells upregulate T-bet and downregulate BCL11B, known transcription factors that govern T/NK cell fate. We show that FcγRIII+ CD8+ T cells mediate antibody-dependent IFNγ production and degranulation against IgG-opsonized target cells, similar to NK cell antibody-dependent cellular cytotoxicity (ADCC). FcγRIII+ CD8+ T cell Fc effector functions were further enhanced by interleukin-15 (IL-15), as has been observed in neonatal NK cells. Our study reveals that FcγRIII+ CD8+ T cells elicited in utero by HCMV infection can execute Fc-mediated effector functions bridging cellular and humoral immunity and may be a promising target for antibody-based therapeutics and vaccination in early life.

The potential utility of cord blood DNA methylation in pediatric clinical practice.

Our understanding of the origins of noncommunicable diseases has evolved over the years with greater consideration given to the lasting influence exposures and experiences during the preconceptional and prenatal periods can have. Research highlights the associations of parental exposures (e.g., diet, obesity, gestational diabetes, lipid profile, toxic exposures and microbiome) with the infant/fetal methylome and suggest associations with infant, child and/or adolescent chronic health outcomes. Thus, epigenetics and specifically cord blood DNA methylation may have utility as biomarkers for disease risk identification and stratification in pediatrics. However, for cord blood DNA methylation analyses to be leveraged as biomarkers of disease risk in pediatric clinical practice, the results must be replicable, validated and clinically meaningful. Challenges and opportunities to this prospect are herein discussed.

Generation of Functioning Platelets from Mature Megakaryocytes Derived from CD34+ Umbilical Cord Blood Cells.

Clinically patients with thrombocytopenia are in urgent need of platelet transfusion, thus it is necessary to produce the platelets in large scale in vitro to meet the clinical needs. In this study, we developed efficient protocol to generate functioning platelets by differentiating umbilical cord blood (CB)-derived CD34+ cells into mature megakaryocytes. Under our condition, up to 85% of mature megakaryocytes were generated from CB-derived CD34+ cells, and over 75% CD42b+CD62p+ platelets were produced. The megakaryocytes at day 12 after the differentiation had the similar gene expression pattern to natural mature megakaryocytes, and AMPK and insulin signal pathway were activated to inhibit the apoptosis and benefit platelet release. There were up to 72% of the platelets that could bind with PAC1, which is the highest rate of CB CD34+ cell-derived platelets to play function in vitro to date. The recovery of hemostasis and coagulation was similar in thrombocytopenia mice injected with CB CD34+ cell-derived platelets and with human blood-derived platelets, respectively, and it is the first time to demonstrate that human CB CD34+ cell-derived platelets were functional invivo. Therefore, our findings open a new avenue to provide an in vitro efficient approach to generate functional platelets for clinical applications.

TMOD-31. SINGLE-CELL PROFILING AND CHARACTERIZATION OF PATIENT-DERIVED XENOGRAFT GLIOBLASTOMA MODEL IN HUMANIZED MICE

Abstract Glioblastoma (GBM) is the most common and aggressive malignant brain tumor in adults, and the current standard therapy has limited efficacy. To develop effective therapies, it is desirable to develop an animal model that can replicate the tumor heterogeneity and immune microenvironment of human GBM. Here, we describe a novel GBM mouse model established with a patient-derived xenograft (PDX) in humanized mice harboring a nearly complete human immune environment. Humanized mice were generated by engrafting human CD34+ hematopoietic stem cells from umbilical cord blood into immunocompromised mice (NSG, NSG-SGM3, and NOG-EXL) after myeloablation. NSG-SGM3 is a triple transgenic mouse encoding human IL3, GM-CSF, and SCF on the NSG strain background. NOG-EXL is a NOG strain with human IL3 and GM-CSF expression. These cytokines foster the development of the human myeloid lineage and its differentiation. NSG-SGM3 and NOG-EXL were superior in immune cell reproducibility, especially myeloid cells. Radioresistant PDX GBM cells established after repeated irradiation were injected into the forebrain of humanized mice and the same immunocompromised mice without humanization. Human PDX GBM cells formed aggressive tumors with similar growth speed in the humanized mice compared to non-humanized mice; however, their dissemination to the spinal cord was significantly suppressed in humanized mice, suggesting that human immune cells impact the spinal dissemination of GBM cells. Single-cell RNA sequencing analysis revealed infiltration of human CD4+ T, CD8+ T, NK cells, and macrophages, as well as infiltration of regulatory T and exhausted CD8+ cells into the brain tumor, reflecting the immunosuppressive landscape of recurrent human GBM. Furthermore, we found that tumor heterogeneity was increased in humanized mice compared to non-humanized mice. There was a notable rise in neural progenitor-like cell populations, indicating tumor adaptation to immune pressures. This novel GBM-PDX humanized mouse model might be highly beneficial for analyzing the interaction between human tumor cells and human immune cells, and evaluating the effect of immunotherapies.

Metabolomic signatures associated with fetal growth restriction and small for gestational age: a systematic review.

The pathways involved in the pathophysiology of fetal growth restriction (FGR) and small for gestational age (SGA) are incompletely understood. We conduct a systematic review to identify metabolomic signatures in maternal and newborn tissues and body fluids samples associated with FGR/SGA. Here, we report that 825 non-duplicated metabolites were significantly altered across the 48 included studies using 10 different human biological samples, of which only 56 (17 amino acids, 12 acylcarnitines, 11 glycerophosphocholines, six fatty acids, two hydroxy acids, and eight other metabolites) were significantly and consistently up- or down-regulated in more than one study. Three amino acid metabolism-related pathways and one related with lipid metabolism are significantly associated with FGR and/or SGA: biosynthesis of unsaturated fatty acids in umbilical cord blood, and phenylalanine, tyrosine and tryptophan biosynthesis, valine, leucine and isoleucine biosynthesis, and phenylalanine metabolism in newborn dried blood spot. Significantly enriched metabolic pathways were not identified in the remaining biological samples. Whether these metabolites are in the causal pathways or are biomarkers of fetal nutritional deficiency needs to be explored in large, well-phenotyped cohorts.

STEM-02. INSIGHTS INTO STEM CELL THERAPIES FOR GLIOBLASTOMA: A SYSTEMATIC REVIEW

Abstract BACKGROUND Glioblastoma accounts for the majority of gliomas, which are the most common brain tumors. Classified as grade 4 by the WHO, it carries a poor prognosis. Various stem cell therapies have been tested and analyzed for their efficacy in treating glioblastoma. The aim of this review is to examine the type, efficacy, and future considerations for different stem cell therapies in glioblastoma treatment. MATERIALS AND METHODS A literature review was conducted using Boolean operators in the form of Stem Cell Therapy AND Glioblastoma; Neural Stem Cells AND Glioblastoma; Cord Blood AND Glioblastoma. Electronic databases including Cochrane Library, PubMed, and Scopus were searched. The review followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) 2020 Statement. RESULTS Targeting Cancer Stem Cells (CSCs) may be crucial for effective GBM treatment, as these cells are considered key drivers of tumor initiation, progression, and therapeutic resistance. Future research and clinical trials in this area are necessary to fully understand the potential of stem cells in combating glioblastoma. CONCLUSIONS While some stem cell therapies have shown promising initial results, it is important to consider the complexity of targeting Glioblastoma Stem Cells (GSCs), including malignant transformation, the heterogeneity of glioblastoma, and glioma-associated mesenchymal stem cells.

May the indication for a previous cesarean section affect the outcome at trial of labor in women with induction of labor? Aretrospective cohort study.

Cesarean sections are increasing worldwide and are associated with altered risks of complications for both mother and child. Vaginal birth after cesarean section is associated with lower maternal and neonatal morbidity than in repeat cesarean section. Only a few studies have considered the indication for the previous cesarean section to be of importance for the outcome of subsequent labor. The aim of this study was to evaluate whether the indication for a previous cesarean section affects the outcomes at a subsequent delivery in women with induction of labor. This retrospective cohort study of the four largest delivery units in Stockholm during 2012-2015 included 1150 women with one previous cesarean section with induction of labor. women with induced labor and a previous cesarean section, singleton pregnancy, cephalic presentation, gestational age of ≥34 weeks. The women were grouped by indication for the previous cesarean section. mode of delivery (vaginal birth after previous cesarean section or repeat cesarean section). induction to delivery time, postpartum hemorrhage, uterine rupture. Neonatal outcomes: birth weight, Apgar score <7, arterial umbilical cord blood gas pH <7.0. Our study found that the indication of labor dystocia at the previous cesarean section, increased the risk of repeat cesarean section (aOR 5.35; 95% CI: 1.64-17.50) in women with induction of labor. Other risk factors for repeat cesarean section were birth weight >4000 g, maternal BMI ≥30 or if vaginal prostaglandin was used as the method for induction of labor. A previous vaginal delivery and use of oxytocin increased the chance of a vaginal delivery in this group of women. Our study showed that the indication for the previous cesarean section affects the outcome in the subsequent delivery in women with induction of labor. If the indication for the previous cesarean section was labor dystocia, the risk of repeat cesarean section was increased.

Exposure to drinking water pollutants and non-syndromic birth defects: a systematic review and meta-analysis synthesis

ObjectivesTo evaluate the association between drinking water pollutants and non-syndromic birth defects.DesignSystematic review and meta-analysis synthesis.Data sourcesA search of MEDLINE, EMBASE and Google Scholar was performed to review relevant citations...

Cord Blood Platelet Lysate-Loaded Thermo-Sensitive Hydrogels for Potential Treatment of Chronic Skin Wounds

Background/Objectives: Chronic skin wounds (CSWs) are a worldwide healthcare problem with relevant impacts on both patients and healthcare systems. In this context, innovative treatments are needed to improve tissue repair and patient recovery and quality of life. Cord blood platelet lysate (CB-PL) holds great promise in CSW treatment thanks to its high growth factors and signal molecule content. In this work, thermo-sensitive hydrogels based on an amphiphilic poly(ether urethane) (PEU) were developed as CB-PL carriers for CSW treatment. Methods: A Poloxamer 407®-based PEU was solubilized in aqueous medium (10 and 15% w/v) and added with CB-PL at a final concentration of 20% v/v. Hydrogels were characterized for their gelation potential, rheological properties, and swelling/dissolution behavior in a watery environment. CB-PL release was also tested, and the bioactivity of released CB-PL was evaluated through cell viability, proliferation, and migration assays. Results: PEU aqueous solutions with concentrations in the range 10–15% w/v exhibited quick (within a few minutes) sol-to-gel transition at around 30–37 °C and rheological properties modulated by the PEU concentration. Moreover, CB-PL loading within the gels did not affect the overall gel properties. Stability in aqueous media was dependent on the PEU concentration, and payload release was completed between 7 and 14 days depending on the polymer content. The CB-PL-loaded hydrogels also showed biocompatibility and released CB-PL induced keratinocyte migration and proliferation, with scratch wound recovery similar to the positive control (i.e., CB-PL alone). Conclusions: The developed hydrogels represent promising tools for CSW treatment, with tunable gelation properties and residence time and the ability to encapsulate and deliver active biomolecules with sustained and controlled kinetics.

Cord Blood Metabolic Markers as Mediators of the Effect of Maternal Adiposity on Fetal Growth in Diabetic and Non-diabetic Mothers

Cord Blood Metabolic Markers as Mediators of the Effect of Maternal Adiposity on Fetal Growth in Diabetic and Non-diabetic Mothers

Methylation Patterns of Diabetes and Obesity Susceptibility Genes in Gestational Diabetes Mellitus: A Cross-Sectional Analysis from Karachi, Pakistan.

Background: Women with gestational diabetes mellitus (GDM) and their offspring have an increased risk of adverse perinatal and long-term health outcomes, which may be attributable to epigenetic modification of diabetes and obesity susceptibility genes. We aimed to investigate the methylation patterns of eight genes in GDM and normoglycemic (NG) mothers, and their respective offspring. Methods: This cross-sectional study, conducted at Aga Khan University from August 2019 to December 2022, recruited pregnant women in the first trimester of gestation from the outpatient obstetrics clinic. Participants were classified as NG or GDM based on the Society of Obstetricians and Gynecologists Pakistan. Venous blood samples were collected from mothers and cord blood from neonates. Peripheral blood mononuclear cells were used for DNA extraction and methylation analysis using methylation-specific PCR. Maternal and neonatal clinical data were recorded. Statistical analysis was performed using R, including binary logistic regression to assess the association between various gene methylation levels and GDM. Results: The study found that GDM mothers had significantly higher fasting blood glucose, 2-hr OGTT, and serum carboxymethyl lysine (CML) levels compared to NG mothers, but no significant differences in neonatal birth weight or serum CML levels. Chemerin methylation was significantly lower in GDM mothers and their babies, while NAMPT, MTNR1B, FNDC5, FAT4, and FTO methylation levels were higher in GDM offspring compared to NG offspring. GDM mothers also had higher methylation levels of brain-derived neurotrophic factor gene (BDNF). Multivariable binary logistic regression identified methylation levels of maternal BDNF and neonatal MTNR1B to be independently associated with GDM. Conclusions: Our study shows a trend of epigenetic modifications in both GDM mothers and their offspring in various genes related to metabolism and inflammation, suggesting an intergenerational transmission of increased risk of developing metabolic disorders. These findings emphasize the need for high throughput studies, early screening, tight glucose control during pregnancy, and postnatal follow-up to mitigate long-term health risks.

Cyclosporin H Improves the Transduction of CD34+ Cells with an Anti-Sickling Globin Vector, a Possible Therapeutic Approach for Sickle Cell Disease.

Sickle cell disease (SCD) is a debilitating monogenic disease originating from mutations in the hemoglobin beta chain gene producing an abnormal hemoglobin HbS. The polymerization of HbS is responsible for the sickling of erythrocytes leading to anemia and vaso-occlusive events. Gene therapy is a promising treatment of SCD, and two different gene therapy drugs, using gene editing or gene transfer, have already reached the marketing stage. There is still a need to improve the efficacy of gene therapy in SCD, particularly when using anti-sickling beta-globin gene transfer strategies, which must outcompete the pathological HbS. One possibility is to increase transduction by inhibiting lentiviral restriction factors such as interferon-induced transmembrane proteins (IFITMs). This can be achieved by the addition of cyclosporin H (CsH) during the transduction process. This strategy was applied here in CD34+ hematopoietic progenitor and stem cells obtained from cord blood (CB). A first series of experiments with lentiviral vector coding for a green fluorescent protein (GFP) gene confirmed that the addition of CsH enhanced transgene expression levels and vector copy number per cell (VCN), while CD34+ cells remained viable and functional. Notably, the production of colony-forming cells (CFC) remained unaffected unless very high VCN values were reached. In a second step, CD34+ cells obtained from the CB of newborns with homozygous (n = 2) or heterozygous (n = 1) SCD mutations were transduced with the GLOBE-AS3 lentiviral vector coding for the HbAS3 anti-sickling beta globin. As with GFP, GLOBE-AS3 lentiviral transduction was clearly enhanced by CsH, leading to VCN > 2 and therapeutic levels of expression of the HbAS3. Moreover, the process did not affect the viability or functions of CFC. The combination of CB progenitors, the GLOBE-AS3 vector, and CsH is thus shown here to be a promising approach for the treatment of SCD.

Risk of introducing Zika virus in the Canadian cord blood supply: A risk analysis.

In Canada, as many as 24% of mothers are deferred from cord blood (CB) donation due to risk factors for Zika virus (ZIKV). However, the ZIKV epidemic has waned considerably since 2016, and there has not been any report of ZIKV transmission by CB transplantation, which questions this policy. Thus, we performed an analysis of the risk of introducing ZIKV in the CB supply maintained by Héma-Québec (HQ) and Canadian Blood Services (CBS). This simulation considered the following parameters: the risk of travel exposure in a high-risk ZIKV country, the duration of travel, the daily risk of acquiring ZIKV in a high-risk country, the probability of materno-fetal ZIKV transmission, the probability of asymptomatic fetal viremia, and the probability of sexual transmission. A hundred million Monte Carlo simulations were run. In the most-likely scenario (probability of traveling to a high-risk ZIKV country while pregnant = 0.178), the risk was estimated at 0.9 ZIKV-positive donations per million donations (95% confidence interval [CI] = 0.4-1.6)-or one every 868 years at HQ and one every 453 years at CBS. In the pessimistic model (probability of traveling to a high-risk ZIKV country while pregnant = 0.240), the risk was estimated at 1.2 ZIKV-positive donations per million donations (95% CI = 0.6-2.1)-or one every 644 years at HQ and one every 340 years at CBS. We conclude that the risk of introducing ZIKV in the Canadian CB supply is too small to justify maintaining the current policy.

Effects of gestational age on blood cortisol and prolactin levels during pregnancy in malaria endemic area.

The hormonal shift occurring in pregnant women is crucial for the outcome of pregnancy. We conducted a study in pregnant women living in a malaria endemic area to determine the potential effect of gestational age on the modulation of the endocrine system by cortisol and prolactin production during pregnancy. Primigravidae and multigravidae with a gestational age between 16-20 weeks were included in the study and followed up to delivery and 6-7 weeks thereafter. Venous blood was collected at scheduled visit: Visit 1 (V1; 16-20 weeks of amenorrhea), Visit 2 (V2; 28 ±1 weeks of pregnancy), Visit 3 (V3; 32 ±1 weeks of pregnancy), Visit4 (V4; delivery) and Visit5 (V5; 6-7 weeks after delivery). In addition, a cord blood sample was also collected during labour at delivery. Nulliparous and primiparous/multiparous non-pregnant women were enrolled in the control group. Cortisol and prolactin plasma concentrations were measured using ichroma II and i-chamber apparatus. Light microscopy was used to detect Plasmodium falciparum infections. A linear mixed-effects regression (LMER) model was used to assess the association between the variation of cortisol titres and prolactin levels during the pregnancy and the post-partum. Results showed that cortisol and prolactin levels in the peripheral blood were globally up-regulated during pregnancy. Concentrations of cortisol during follow-up was significantly higher in primigravidae than in multigravidae during the whole pregnancy (p<0.024). Moreover, the level of prolactin which was higher before delivery in primigravidae reversed at delivery and postpartum visit, but the difference was not statistically significant during the follow-up (V1 to V5) (p = 0.60). The cortisol level in peripheral blood at delivery was higher than that in the cord blood, and conversely for prolactin. Cortisol and prolactin levels decreased after delivery, though the level of prolactin was still higher than that at enrolment. An increase of one unit of prolactin was associated with the decrease of the average concentration of cortisol by 0.04 ng/ml (p = 0.009). However, when cortisol increases with one unit, the average concentration of prolactin decreases by 1.16 ng/ml (p = 0.013). These results showed that the up-regulation effects of cortisol and prolactin are related to gestational age. A The downward regulation effect that both hormones have on each other during the pregnancy when each increase to 1 unit (1.0 ng/ml) was also reported.