Person: Larqué Daza, Elvira
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Larqué Daza, Elvira
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Universidad de Murcia. Departamento de Fisiología
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- PublicationOpen AccessChild head circumference and placental MFSD2a expression are associated to the level of MFSD2a in maternal blood during pregnancy(Frontiers Media, 2020-02-05) Sánchez-Campillo, María; Ruiz-Palacios, María; Ruiz Alcaraz, Antonio José; Blanco Carnero, José Eliseo; Prieto Sánchez, María Teresa; Zornoza, Matilde; Ruiz-Pastor, María José; Demmelmair, Hans; Sánchez-Solís de Querol, Manuel; Koletzko, Berthold; Larqué Daza, Elvira; Bioquímica y Biología Molecular B e Inmunología; Facultad de BiologíaGestational diabetes mellitus (GDM) is a world-wide health challenge, which prevalence is expected to increase in parallel to the epidemic of obesity. Children born from GDM mothers have lower levels of docosahexaenoic acid (DHA) in cord blood, which might influence their neurodevelopment. Recently, the membrane transporter Major Family Super Domain 2a (MFSD2a) was associated with the selective transportation of DHA as lysophospholipids. The expression of the DHA membrane transporter MFSD2a is lower in GDM placentas, which could affect materno-fetal DHA transport. Humans with homozygous inactivating mutations in the MFSD2a gene present severe microcephalyand intellectual impairments. Herein, we intended to identify early blood biomarkers that maybeofuse during pregnancy to monitor the offspring development and the adequate nutritional interventions, such as nutritional supplementation, that may be selected to improve it. We evaluated MFSD2a expression in maternal blood at the third trimester of pregnancy, and its potential relationship with the expression of placental MFSD2a at delivery and child outcomes. Three groups of pregnant women were recruited: 25 controls, 23 GDM with dietary treatment, and 20 GDM with insulin treatment. Maternal and neonatal anthropometric and biochemical parameters were evaluated. MFSD2a was analyzed in placenta, blood and serum. MFSD2a protein expression in maternal blood was significantly lower in GDM groups and correlated with placental MFSD2a and Z-score neonatal head circumference during the first 6 months of life. The cord/maternal serum ratio of DHA, a solid indicator of materno-fetal DHA transport, was reduced in GDMgroups and correlated with MFSD2a in maternal blood at the third trimester and in placenta at delivery. This indicates that altered MFSD2a levels in maternal blood during pregnancy might influence placental nutrient transport and fetal neurodevelopment. Furthermore, MFSD2a levels in maternal blood on the third trimester were inversely correlated to DHA in maternal serum lyso-PL. Thus, the level of MFSD2a in maternal blood could be used as a potential biomarker for the early detection of disturbances of MFSD2a expression during pregnancy and the subsequent consequences for the neurodevelopment of the child, as well as it may help to choose the optimal treatment approach for the affected subjects.
- PublicationRestrictedIs low docosahexaenoic acid associated with disturbed rhythms and neurodevelopment in offsprings of diabetic mothers?( Springer Nature , 2014-06-11) Zorzona Moreno, M.; Fuentes Hernández, S.; Carrión, V.; Alcántara López, María Vicenta; López Soler, Concepción; Larqué Daza, Elvira; Madrid Pérez, Juan Antonio; Sánchez-Solís de Querol, Manuel; Personalidad, Evaluación y Tratamiento Psicológicos; Facultades de la UMU::Facultad de Psicología y LogopediaBACKGROUND/OBJECTIVE: To evaluate the relation between docosahexaenoic acid (DHA) status and neurodevelopment in the offsprings of gestational diabetic mothers (ODMs). SUBJECTS/METHODS: A prospective cohort study was performed. The offspring of 63 pregnant women (23 controls, 21 diet-controlled gestational diabetes mellitus (GDM) and 19 insulin-treated GDM) were recruited. Maternal and venous cord plasma DHA percentages were analyzed. Skin temperature and activity in children were recorded for 72 h at 3 and 6 months of life. Neurodevelopment was assessed using the Bayley Scale of Infant Development II (BSID II) at 6 and 12 months of age. RESULTS: Cord plasma DHA percentage was significantly lower in the ODMs compared with that in the controls (Control 6.43 [5.04–7.82]a; GDM+diet 5.65 [4.44–6.86]ab; GDM+insulin 5.53 [4.45–6.61]b). Both mental (Control 102.71 [97.61–107.81]a; GDM+diet100.39 [91.43–109.35]a; GDM+insulin 93.94 [88.31–99.57]b) and psychomotor (Control 91.52 [81.82–101.22]a; GDM+diet 81.67[73.95–89.39]b; GDM+insulin 81.89 [71.96–91.85]b) scores evaluated by the BSID II were significantly lower at 6 months in ODMs, even after adjusting for confounding factors such as breastfeeding, maternal educational level and gender. Cord plasma DHA percentage correlated with the psychomotor score from BSID II (r = 0.27; P = 0.049) and with the intra-daily variability in activity (r = − 0.24; P = 0.043) at 6 months. Maternal DHA was correlated with several sleep rhythm maturation parameters at 6 months. CONCLUSIONS: Lower DHA levels in cord plasma of ODMs could affect their neurodevelopment. Maternal DHA status was also associated with higher values in the sleep rhythm maturation parameters of children.
- PublicationOpen AccessBreastmilk polyamines modify gut gene expression in children at three months of age(Elsevier, 2025-01-22) Sánchez-Campillo, María; Gázquez García, Antonio; Pastor-Fajardo, María T.; López-Andreo, María J.; Pérez-Andrés, Adrián; Martínez Gracia, Carmen; Vioque, Jesús; Pérez Fernández, Virginia; García-Marcos Álvarez, Luis Vicente; Larqué Daza, Elvira; Nela Study Group; Tecnología de Alimentos, Nutrición y Bromatología; Facultad de VeterinariaBackground & aims: Breastmilk is one of the main sources of exogenous polyamines for newborns and contains higher polyamine content than infant formulas. Polyamines are involved in gut maturation and immune system regulation in animals, although the underlying mechanisms are not fully understood. We quantified polyamines in human mature breastmilk and evaluate their effects on intestinal gene expression in babies at three months of age. Methods: Polyamines were quantified in mature milk of 195 women from the prospective Mediterranean NELA birth cohort (Murcia, Spain) at 3 months postpartum. Maternal dietary intake was assessed by food frequency questionnaires. Intestinal gene expression was analysed in babies receiving breastmilk, with high (>p50, n = 25) or low (
- PublicationRestrictedSerum vitamins A and E at mid-pregnancy and their relationships with both maternal and cord blood antioxidant status and perinatal conditions: The NELA Cohort(2023-06-02) Sánchez-Campillo, María; Gázquez García, Antonio; Serrano-Munuera, Ana; Bañón Arnao, Marino; Avilés Plaza, Francisco Valeriano; Garcia-Serna, Azahara M.; Noguera Velasco, José Antonio; Martínez López de Castro, Ana María; Martínez Gracia, Carmen; Suárez Martínez, Clara; Santaella-Pascual, Marina; Vioque, Jesús; Montoya-Hernández, Carmen; Ballesteros Meseguer, Carmen; Sánchez Ferrer, María Luisa; Pérez Fernández, Virginia; Morales Bartolomé, Eva; García-Marcos Álvarez, Luis Vicente; Larqué Daza, Elvira; Nela Study Group; Tecnología de Alimentos, Nutrición y Bromatología; Facultad de VeterinariaIntroduction: Most of the pregnant women do not achieve the recommended dietary intake of vitamins A and E. These vitamins may counteract oxidative stress involved in some adverse perinatal outcomes. We aimed to assess the associations between maternal vitamin A and E at mid-pregnancy with both maternal and fetal outcomes and to identify possible early biomarkers during pregnancy to predict and prevent oxidative stress in the offspring. Methods: Data on dietary and serum levels of vitamins A and E were collected from 544 pregnant women from the Nutrition in Early Life and Asthma (NELA) study, a prospective mother-child cohort set up in Spain. Results: There were large discrepancies between low dietary vitamin E intake (78% of the mothers) and low serum vitamin E levels (3%) at 24 weeks of gestation. Maternal serum vitamins A and E at mid-pregnancy were associated with higher antioxidant status not only in the mother at this time point (lower hydroperoxides and higher total antioxidant activity [TAA]) but also with the newborn at birth (higher TAA). Gestational diabetes mellitus (GDM) was negatively associated with maternal serum vitamin A (OR: 0.95 CI: 0.91–0.99, p = 0.009) at mid-pregnancy. Nevertheless, we could not detect any association between GDM and oxidative stress parameters. Conclusions: In conclusion, maternal vitamin A and E serum levels may be used as an early potential biomarker of antioxidant status of the neonate at birth. Control of these vitamins during pregnancy could help avoid morbid conditions in the newborn caused by oxidative stress in GDM pregnancies.
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