María Luisa Nueda scite author profile

The protein DLK2, highly homologous to DLK1, belongs to the EGF-like family of membrane proteins, which includes NOTCH receptors and their DSL-ligands. The molecular mechanisms by which DLK proteins regulate cell differentiation and proliferation processes are not fully established yet. In previous reports, we demonstrated that DLK1 interacts with itself and with specific EGF-like repeats of the NOTCH1 extracellular region involved in the binding to NOTCH1 canonical ligands. Moreover, the interaction of DLK1 with NOTCH1 caused an inhibition of basal NOTCH signaling in preadipocytes and mesenchymal multipotent cells. In this work, we demonstrate, for the first time, that DLK2 interacts with itself, with DLK1, and with the same NOTCH1 receptor region as DLK1 does. We demonstrate also that the interaction of DLK2 with NOTCH1 similarly results in an inhibition of NOTCH signaling in preadipocytes and Mouse Embryo fibloblasts. In addition, we demonstrate that a membrane DLK1 variant, lacking the sequence recognized by the protease TACE, also inhibits NOTCH signaling. Furthermore, both DLK1 and DLK2 are able to decrease NOTCH activity also when triggered by specific NOTCH ligands. However, the decrease in NOTCH signaling induced by overexpression of Dlk2 is reversed by the overexpression of Dlk1, and viceversa. We conclude that DLK1 and DLK2 act as inhibitory non-canonical protein ligands for the NOTCH1 receptor that modulate NOTCH signaling.

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Functionalized CdSe/ZnS Quantum Dots for Intracellular pH Measurements by Fluorescence Lifetime Imaging Microscopy

Pacheco-Liñán

Bravo

Nueda

et al. 2020

ACS Sens.

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pH is an important biomarker for many human diseases and great efforts are being made to develop new pH probes for bioimaging and biomedical applications. Here, the use of three different CdSe/ZnS QDs, functionalized with D-penicillamine and small peptides, as pH probes for fluorescence lifetime imaging microscopy (FLIM) is investigated. The fluorescence pH sensitivity of the nanoparticles is analyzed in different experimental media: aqueous solution, synthetic intracellular medium, and mesenchymal C3H10T1/2 and tumoral SK-MEL-2 cell lines. Different experiments along with theoretical calculations are conducted to unravel the mechanisms causing pH sensitivity of the nanoparticles and the effect of the length and composition of the peripheral branches on their photophysical properties. Absolute intracellular pH values measured in live cells with FLIM using a fluorescent probe based on a QD are reported here for the first time (intracellular pH values of 7.0 and 7.1 for C3H10T1/2 and SK-MEL-2 cells, respectively). These fluorescent nanoprobes can also be used to distinguish between different types of cells in cocultures on the basis of their different fluorescence lifetimes in dissimilar intracellular environments.

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NOTCH3 signaling is essential for NF-κB activation in TLR-activated macrophages

López-López

Monsalve

Ávila

et al. 2020

Sci Rep

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Macrophage activation by Toll receptors is an essential event in the development of the response against pathogens. NOTCH signaling pathway is involved in the control of macrophage activation and the inflammatory processes. In this work, we have characterized NOTCH signaling in macrophages activated by Toll-like receptor (TLR) triggering and determined that DLL1 and DLL4 are the main ligands responsible for NOTCH signaling. We have identified ADAM10 as the main protease implicated in NOTCH processing and activation. We have also observed that furin, which processes NOTCH receptors, is induced by TLR signaling in a NOTCH-dependent manner. NOTCH3 is the only NOTCH receptor expressed in resting macrophages. Its expression increased rapidly in the first hours after TLR4 activation, followed by a gradual decrease, which was coincident with an elevation of the expression of the other NOTCH receptors. All NOTCH1, 2 and 3 contribute to the increased NOTCH signaling detected in activated macrophages. We also observed a crosstalk between NOTCH3 and NOTCH1 during macrophage activation. Finally, our results highlight the relevance of NOTCH3 in the activation of NF-κB, increasing p65 phosphorylation by p38 MAP kinase. Our data identify, for the first time, NOTCH3 as a relevant player in the control of inflammation.

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Study on the pH Dependence of the Photophysical Properties of a Functionalized Perylene Bisimide and Its Potential Applications as a Fluorescence Lifetime Based pH Probe

Pacheco-Liñán¹,

Moral

Nueda³

et al. 2017

J. Phys. Chem. C

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In this work, we have investigated the dependence on the pH of the photophysical properties of a functionalized perylene bisimide (PBI) and its potential pH sensing applications. Observed was the presence of aggregates which diminishes at acid pH values and low concentrations, without totally disappearing until a temperature of 80 °C was reached. At basic pH, significant changes in the absorption spectrum were observed, which were associated with more strongly coupled aggregates. The 1 H NMR spectra of the PBI dye in D 2 O/TFA also showed the dependence of aggregation on concentration and temperature. PBI fluorescence intensity and lifetime were also sensitive to pH values. The maximum fluorescence intensity and lifetime were observed in acid medium, in which protonation of the secondary amines on the PBI side chains likely hinders the formation of strongly coupled aggregates. On the contrary, the fluorescence intensity significantly decreased in basic medium, due to deprotonation of the amine groups and the formation of stronger aggregates. Density functional theory calculations corroborated that π-stacked aggregates of PBI derivatives are stable in the protonated state, but their supramolecular structure changes. In the aggregate, monomeric units slide over their adjacent ones and increase the intermolecular distance upon the protonation. Intermolecular hydrogen bonds can help maintain the stability of the protonated aggregate. Fluorescence lifetime showed a sigmoidal dependence on pH, with a linear response range between pH 6 and 8, both in Tris•HCl buffered solutions and in a synthetic buffer mimicking the intracellular environment. The biocompatibility of the PBI dye was tested in C3H10T1/2 mesenchymal cells. The cellular uptake was confirmed by confocal fluorescence microscopy. No significant effects on cellular viability and morphology were observed at the conditions in which compound 1 can be used as a fluorescent probe. This work supports the idea that PBI derivatives can be suitable dyes for fluorescence lifetime sensing applications.

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