Fernando Bonet scite author profile

It is known that secreted proteins from the anterior lateral endoderm, FGF8 and BMP2, are involved in mesodermal cardiac differentiation, which determines the first cardiac field, defined by the expression of the earliest specific cardiac markers Nkx-2.5 and Gata4. However, the molecular mechanisms responsible for early cardiac development still remain unclear. At present, microRNAs represent a novel layer of complexity in the regulatory networks controlling gene expression during cardiovascular development. This paper aims to study the role of miR130 during early cardiac specification. Our model is focused on developing chick at gastrula stages. In order to identify those regulatory factors which are involved in cardiac specification, we conducted gain- and loss-of-function experiments in precardiac cells by administration of Fgf8, Bmp2 and miR130, through in vitro electroporation technique and soaked beads application. Embryos were subjected to in situ hybridization, immunohistochemistry and qPCR procedures. Our results reveal that Fgf8 suppresses, while Bmp2 induces, the expression of Nkx-2.5 and Gata4. They also show that Fgf8 suppresses Bmp2, and vice versa. Additionally, we observed that Bmp2 regulates miR-130 -a putative microRNA that targets Erk1/2 (Mapk1) 3'UTR, recognizing its expression in precardiac cells which overlap with Erk1/2 pattern. Finally, we evidence that miR-130 is capable to inhibit Erk1/2 and Fgf8, resulting in an increase of Bmp2, Nkx-2.5 and Gata4. Our data present miR-130 as a necessary linkage in the control of Fgf8 signaling, mediated by Bmp2, establishing a negative feed-back loop responsible to achieve early cardiac specification.

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MiR‐23b and miR‐199a impair epithelial‐to‐mesenchymal transition during atrioventricular endocardial cushion formation

Bonet

Dueñas

López‐Sánchez

et al. 2015

Developmental Dynamics

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Background: Valve development is a multistep process involving the activation of the cardiac endothelium, epithelialmesenchymal transition (EMT) and the progressive alignment and differentiation of distinct mesenchymal cell types. Several pathways such as Notch/delta, Tgf-beta and/or Vegf signaling have been implicated in crucial steps of valvulogenesis. We have previously demonstrated discrete changes in microRNAs expression during cardiogenesis, which are predicted to target Bmp-and Tgf-beta signaling. We now analyzed the expression profile of 20 candidate microRNAs in atrial, ventricular, and atrioventricular canal regions at four different developmental stages. Results: qRT-PCR analyses of microRNAs demonstrated a highly dynamic and distinct expression profiles within the atrial, ventricular, and atrioventricular canal regions of the developing chick heart. miR-23b, miR-199a, and miR-15a displayed increased expression during early AVC development whereas others such as miR-130a and miR-200a display decreased expression levels. Functional analyses of miR-23b, miR-199a, and miR-15a overexpression led to in vitro EMT blockage. Molecular analyses demonstrate that distinct EMT signaling pathways are impaired after microRNA expression, including a large subset of EMT-related genes that are predicted to be targeted by these microRNAs. Conclusions: Our data demonstrate that miR-23b and miR-199a over-expression can impair atrioventricular EMT.

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CCBE1 is required for coronary vessel development and proper coronary artery stem formation in the mouse heart

Bonet

Pereira

Bover

et al. 2018

Developmental Dynamics

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Visceral leishmaniasis in a renal transplant recipient: A diagnostic and therapeuticlenge

Aguado

Bonet

Plaza

et al. 1986

Journal of Infection

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Fernando Bonet

Single fraction per day versus two fractions per day versus radiochemotherapy in the treatment of head and neck cancer

Negative Fgf8-Bmp2 feed-back is regulated by miR-130 during early cardiac specification

MiR‐23b and miR‐199a impair epithelial‐to‐mesenchymal transition during atrioventricular endocardial cushion formation

CCBE1 is required for coronary vessel development and proper coronary artery stem formation in the mouse heart

Visceral leishmaniasis in a renal transplant recipient: A diagnostic and therapeuticlenge

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