Gestational Diabetes Mellitus Impairs Fetal Endothelial Cell Functions Through a Mechanism Involving MicroRNA-101 and Histone Methyltransferase Enhancer of Zester Homolog-2

Floris, Ilaria; Descamps, B; Vardeu, Antonella; Mitić, Tijana; Posadino, Anna Maria; Shantikumar, Saran; Sala-Newby, Graciela B.; Capobianco, Giampiero; Mangialardi, Giuseppe; Howard, Lynsey; Dessole, Salvatore; Urrutia, Raúl; Pintus, Gianfranco; Emanueli, Costanza

doi:10.1161/atvbaha.114.304730

Cited by 106 publications

(92 citation statements)

References 42 publications

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“…7 In order to investigate how diabetes affects endothelial function and miRs in human endothelial cells, Floris and colleagues took the approach of isolating human umbilical vein endothelial cells (HUVEC) from umbilical cords from pregnancies that were complicated by gestational diabetes (GDM) and from healthy control pregnancies. 8 The use of HUVECs from diabetics and non-diabetics is a clever approach to allow studies of diabetes on freshly isolated human endothelial cells, although it is possible that HUVECs exhibit some differences vis-à-vis endothelial cells involved in vascular complications of diabetes. The authors demonstrated that HUVECs isolated from GDM-complicated pregnancies exhibit increased apoptosis and a reduced ability to form capillary networks, as compared with HUVECs from healthy controls.…”

Section: Novel Pathways For Vascular Cell Perturbations In Diabetesmentioning

confidence: 99%

Impact of Diabetes Mellitus

Kanter

Bornfeldt

2016

ATVB

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Section: Novel Pathways For Vascular Cell Perturbations In Diabetesmentioning

confidence: 99%

Impact of Diabetes Mellitus

Kanter

Bornfeldt

2016

ATVB

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“…Transcription, translation, and protein degradation are prominent examples of how gene activity is controlled by miRNAs, considered to be “meta-regulators” [22]. Importantly, miRNAs can target epigenetic regulators, which play a role in fetal metabolic programming [23,24], mediating long-term effects on target cells [24,25], and on developing organs and tissues. Epigenetic factors and miRNAs have been shown to be reciprocally regulated [24,25].…”

Section: Micro-intro To the Microrna Worldmentioning

confidence: 99%

“…Importantly, miRNAs can target epigenetic regulators, which play a role in fetal metabolic programming [23,24], mediating long-term effects on target cells [24,25], and on developing organs and tissues. Epigenetic factors and miRNAs have been shown to be reciprocally regulated [24,25]. Thus, miRNAs are recognized as key regulators of diverse biological and developmental processes in eukaryotes (cell proliferation and differentiation, maintenance of tissue identity, apoptosis, immune system development, and responses) and are associated with pathologies, including different types of cancer [26], vascular diseases [27,28], and diabetes [24,29].…”

Section: Micro-intro To the Microrna Worldmentioning

confidence: 99%

Roles of MicroRNA across Prenatal and Postnatal Periods

Floris

Kraft

Altosaar

2016

IJMS

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Communication between mother and offspring in mammals starts at implantation via the maternal–placental–fetal axis, and continues postpartum via milk targeted to the intestinal mucosa. MicroRNAs (miRNAs), short, noncoding single-stranded RNAs, of about 22 nucleotides in length, are actively involved in many developmental and physiological processes. Here we highlight the role of miRNA in the dynamic signaling that guides infant development, starting from implantation of conceptus and persisting through the prenatal and postnatal periods. miRNAs in body fluids, particularly in amniotic fluid, umbilical cord blood, and breast milk may offer new opportunities to investigate physiological and/or pathological molecular mechanisms that portend to open novel research avenues for the identification of noninvasive biomarkers.

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“…miR-101 has been implicated in gestational diabetes mellitus. It targets EZH2, a histonelysine N-methyltransferase enzyme at lysine of histone 3 and inactivates the gene [110]. miR-101 has been shown to be upregulated in serum samples collected from Japanese population [84].…”

Section: Mir-101mentioning

confidence: 99%

MIRNAS: Early Prognostic Biomarkers for Type 2 Diabetes Mellitus?

et al. 2015

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Type 2 diabetes mellitus (T2DM) has reached epidemic proportions and is associated with peripheral insulin resistance. The currently used therapies aim to delay progression of T2DM. Their efficacy could drastically be improved if implemented at earlier stages. Classical diagnostic markers (blood glucose and HbA1C) are generally detected once metabolic imbalance has already set in. Therefore, development of biomarkers for early diagnosis would help identify individuals at risk for developing T2DM. Along with genetic predisposition, epigenetics also plays a major role in T2DM development. In this review, we discuss the potential role of early diagnostic markers such as circulating miRNAs, studies done so far and challenges to be considered while taking into account the novel role of miRNAs as prognostic biomarkers.

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Gestational Diabetes Mellitus Impairs Fetal Endothelial Cell Functions Through a Mechanism Involving MicroRNA-101 and Histone Methyltransferase Enhancer of Zester Homolog-2

Cited by 106 publications

References 42 publications

Impact of Diabetes Mellitus

Impact of Diabetes Mellitus

Roles of MicroRNA across Prenatal and Postnatal Periods

MIRNAS: Early Prognostic Biomarkers for Type 2 Diabetes Mellitus?

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