Publications

Technical Media

Maternal fructose consumption affects placental H2S production: impact on parameters related to pre-eclampsia.

Genotipia, April 2024, https://genotipia.com/genetica_medica_news/el-consumo-materno-de-fructosa-preeclampsia/

Fructose Consumption Affects Placental Production of H2S: Impact onPreeclampsia-Related Parameters

Nutrients 2024, 16, 309. https://doi.org/10.3390/nu16020309

Maternal fructose boosts the effects of a Western-type diet increasing SARS-COV-2 cell entry factors in male offspring

Journal of Functional Foods 100 (2023) 105366, https://doi.org/10.1016/j.jff.2022.105366

Fructose consumption decreases the production of a protective molecule against metabolic diseases: hydrogen sulphide (H2S).

Genotipia, January 2021, genotipia.com/genetica_medica_news/consumo-de-fructosa-hidrogeno-h2s/

Liquid carbohydrate intake modifies transsulfuration pathway both in pregnant rats and in their male descendants

Clinica e Investigacion en Arteriosclerosis 33 (2021) 127—137, https://doi.org/10.1016/j.arteri.2020.10.004

Measurement of Serum Testosterone in Nondiabetic Young Obese Men: Comparison of Direct Immunoassay to Liquid Chromatography-Tandem Mass Spectrometry.

Biomolecules 2020, 10, 1697; doi:10.3390/biom10121697

FGF21-protection against fructose-induced lipid accretion and oxidative stress is influenced by maternal nutrition in male progeny

Journal of Functional Foods 64 (2020) 103676,

Maternal Fructose Intake Increases Liver H2S Synthesis but Exarcebates its Fructose-Induced Decrease in female Progeny

Mol. Nutr. Food Res. 2020, 64, 2000628, DOI: 10.1002/mnfr.202000628

Cross-sectional, Primary Care–Based Study of the Prevalence of Hypoandrogenemia in Nondiabetic Young Men with Obesity

Obesity (2019) 0, 1-7. doi:10.1002/oby.22579

Effects of Maternal Fructose Intake on Perinatal ER-Stress: A Defective XBP1s Nuclear Translocation Affects the ER-stress Resolution

Nutrients 2019, 11, 1935; doi:10.3390/nu11081935

Effects of SHBG rs1799941 Polymorphism on Free Testosterone Levels and Hypogonadism Risk in Young Non-Diabetic Obese Males

J. Clin. Med. 2019, 8, 1136; doi:10.3390/jcm8081136

Prevalence of and risk factors for erectile dysfunction in young nondiabetic obese men: results from a regional study

Asian Journal of Andrology (2019) 21, 1–7

Maternal fructose induces gender-dependent changes in both LXRα promoter methylation and cholesterol metabolism in progeny

Journal of Nutritional Biochemistry 61 (2018) 163–172, https://doi.org/10.1016/j.jnutbio.2018.08.011

Biophotonic Sensing Cells: Performance comparison with ImmunoCAP.

Sensors (Basel). 2018 Aug 15;18(8):2686. doi: 10.3390/s18082686.

Excessive fructose consumption in pregnancy can damage the placenta and cause oxidative stress in foetuses.

Genética Médica News. 2017, Núm. 73, Vol 4, 17-22

Fructose during pregnancy provokes fetal oxidative stress: The key role of the placental heme oxygenase-1

Mol. Nutr. Food Res. 2016, 00,1–12

Maternal ingestion of liquid fructose accentuates the dyslipidaemia that results from fructose consumption in adult female offspring.

Genética Médica News. 2016, Núm. 53, Vol 3, 19-20

Liquid fructose in pregnancy exacerbates fructose-induced dyslipidemia in adult female offspring

Journal of Nutritional Biochemistry 32 (2016) 115–122

Fructose only in pregnancy provokes hyperinsulinemia, hypoadiponectinemia, and impaired insulin signaling in adult male, but not female, progeny

Eur J Nutr (2016) 55:665–674, DOI 10.1007/s00394-015-0886-1

Maternal Fructose Intake Induces Insulin Resistance and Oxidative Stress in Male, but Not Female, Offspring

Hindawi Publishing Corporation J. of Nutrition and Metabolism Volume 2015, Article ID 158091, http://dx.doi.org/10.1155/2015/158091

Fructose during pregnancy affects maternal and fetal leptin signaling

Journal of Nutritional Biochemistry 24 (2013) 1709–1716, http://dx.doi.org/10.1016/j.jnutbio.2013.02.011

DISSEMINATIVE PUBLICATIONS

M Pérez-Armas, E Fauste, C Donis, S Rodrigo, L Rodríguez, JJ Álvarez-Millán, MI Panadero, P Otero y C Bocos.

Maternal fructose consumption affects placental H2S production: impact on parameters related to pre-eclampsia.

Revista Genética Médica News (Genotipia) Number 258, 7 May 2024.

E Fauste, C Donis, M Pérez-Armas, Rodríguez L, Rodrigo S, Álvarez-Millán JJ, Otero P, Panadero MI, Bocos C.

Maternal fructose consumption potentiates the effects of a Western diet on offspring, increasing factors involved in SARS-CoV2 entry into cells.

Revista Genética Médica News (Genotipia) Number 228, 14 March 2023.

E Fauste, S Rodrigo, R Aguirre, C Donis, L Rodríguez, JJ Álvarez-Millán, MI Panadero, P Otero y C Bocos.

Fructose consumption decreases the production of a protective molecule against metabolic diseases: hydrogen sulphide (H2S).

Revista Genética Médica nº 172, 19 January 2021.

S Rodrigo, E Fauste, M de la Cuesta, L Rodríguez, JJ Álvarez-Millán, MI Panadero, P Otero y C Bocos.

Epigenetics confirms it: maternal fructose intake influences cholesterol metabolism in offspring.

Revista Genética Médica vol. 5, nº 114, pps. 16-19, 30 October 2018.

S Rodrigo, L Rodríguez, P Otero, MI Panadero, A García, C Barbas, N Roglans, S Ramos, L Goya, JC Laguna, JJ Álvarez-Millán y C Bocos.

Excessive fructose consumption in pregnancy can damage the placenta and cause oxidative stress in foetuses.

Revista Genética Médica vol. 4, nº 73, pps. 17-19, 4 April 2017.

L Rodríguez, MI Panadero, S Rodrigo, N Roglans, P Otero, JJ Álvarez-Millán, JC Laguna y C Bocos.

Maternal ingestion of liquid fructose accentuates the dyslipidaemia that results from fructose consumption in adult female offspring.

Revista Genética Médica vol. 3, nº 53, pps. 19-20, 28 June 2016.

Congresses

S. Rodrigo, L. Rodríguez, M.I. Panadero, J.J. Álvarez-Millán, P. Otero and C.

BocosMaternal carbohydrate intake provokes oxidative stress in liver but not in adipose tissue. 2nd Annual Meeting of MetNet “Adipose tissue metabolism in obesity”.

IBUB, Barcelona, 27 May 2016. [Póster]

M. de la Cuesta, E. Fauste, S. Rodrigo, L. Rodríguez, M.I. Panadero, J.J. Álvarez-Millán, P. Otero and C. Bocos.

Nutrigenomics and fetal programming: maternal fructose affects the cholesterolemia of progeny in a gender-dependent manner. 10th Annual Congress of the Spanish Federation of Biotechnologists

SciBAC, Gijón, 13-15 julio2016 [Oral communication]

P. Otero, M. de la Cuesta, E. Fauste, S. Rodrigo, L. Rodríguez, M.I. Panadero, J.J. Álvarez-Millán, and C. Bocos.

Fetal programming and nutrigenomics: different response of female progeny versus male progeny in cholesterolemia to maternal intake of fructose.

85th Annual Congress of European Atherosclerosis Society (EAS), Praga (Czech Republic), 23-26 April 2017 [Póster]

• Atherosclerosis 263:e170, 2017.

E. Fauste, M. de la Cuesta, S. Rodrigo, L. Rodríguez, J.J. Álvarez-Millán, M.I. Panadero, P. Otero and C. Bocos.

Opposite response of cholesterol metabolism to maternal fructose intake in male and female progeny.

86th Annual Congress of European Atherosclerosis Society (EAS), Lisbon(Portugal), 5-8 May 2018 [Poster]

• Atherosclerosis 275:e206, 2018.

E Fauste, S Rodrigo, M de la Cuesta, L Rodríguez, JJ Álvarez-Millán, MI Panadero, P Otero and C Bocos.

Fructose intake during pregnancy modifies LXR promotor and cholesterol metabolism in male and female offspring. NUTRIMAD 2018. IV WorldCongress of Public Health Nutrition.

XII Congress of the Spanish Society of Community Nutrition (SENC), Madrid, 24-27 October 2018 [Comunicación oral]

• Rev Esp Nutr Comunitaria 24(Supl 2):94-95, 2018.

E. Fauste, R. Aguirre, S. Rodrigo, L. Rodriguez, J.J. Álvarez-Millán, M.I. Panadero, P. Otero and C. Bocos.

Fructose intake in pregnancy affects one-carbon metabolism of female progeny.

87th Annual Congress of European Atherosclerosis Society (EAS), Maastricht (Holanda), 26–29 May 2019 [Oral communication]

• Atherosclerosis 287:e32, 2019.

S. Rodrigo, M.I. Panadero, E. Fauste, L. Rodríguez, N. Roglans, J.J. Álvarez-Millán, P. Otero, J.C. Laguna and C. Bocos.

Maternal fructose produces a defect in XBP1s nuclear translocation affecting the ER-stress resolution.

1st Nutrients 2019: Nutritional Advances in the Prevention and Management of Chronic Disease. Barcelona 25-27 September 2019 [Poster

E. Fauste, S. Rodrigo, L. Rodriguez, C. Donis, J.J. Alvarez-Millan, M.I. Panadero, P. Otero, C. Bocos.

Maternal fructose affects transsulfuration pathway of female progeny.

88th EAS Congress, virtually, on October 4-7, 2020. [Póster]

• Atherosclerosis 315:e219, 2020.

C. Donis, E. Fauste, L. Rodríguez, J.J. Álvarez-Millán, M.I. Panadero, P. Otero and C. Bocos.

Maternal carbohydrate intake modulates the polyol pathway and the response to a fructose supplementation in female adult offspring.

89th EAS Congress, virtually,on may 30–june 2, 2021. [Póster]

• Atherosclerosis 331 (2021) e249.

C. Donis, E. Fauste, M. Pérez, L. Rodríguez, S. Rodrigo, J.J. Álvarez-Millán, P. Otero, M.I. Panadero, C. Bocos.

Maternal fructose intake reinforces the effects of a western-type diet in promoting SARS-CoV-2 cell entry factors in male offspring.

90th EAS Congress, Milán, Italia. may 30-june 2, 2022. [Póster]

• Atherosclerosis 355 (2022) e294, p.212.