Leda Lacaria scite author profile

Leda Lacaria

3Publications

62Citation Statements Received

129Citation Statements Given

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123

Affiliations

Inserm, Aix-Marseille University, University of Calabria

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A microfluidic method generating monodispersed microparticles with controllable sizes and mechanical properties

Zhang

Grossier

Lacaria

et al. 2020

Chemical Engineering Science

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Seeking to produce microparticles that mimic red blood cells (RBCs), we present a microfluidic method of generating monodispersed hydrogel microparticles of Na-/Ca-alginate with controllable sizes (micrometer range) and mechanical properties. No surfactant is used. Transformation from Na-alginate to Ca-alginate microparticles is realized via ex situ gelation, which proves essential to obtaining desired microparticle properties, such as insolubility in water and RBC-like mechanical properties. For both Na-alginate and Ca-alginate microparticles, a smooth surface and a porous inner structure are observed under a scanning electron microscope. A platform of microgrippers is successfully developed to manipulate the microparticles. The Young's modulus measured using an atomic force microscope on the surface of Ca-alginate microparticles is of the same order as that of RBCs.

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Interplay between HGAL and Grb2 proteins regulates B-cell receptor signaling

Jiang

Lacaria

et al. 2019

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Human germinal center (GC)–associated lymphoma (HGAL) is an adaptor protein expressed in GC B cells. HGAL regulates cell motility and B-cell receptor (BCR) signaling, processes that are central for the successful completion of the GC reaction. Herein, we demonstrate phosphorylation of HGAL by Syk and Lyn kinases at tyrosines Y80, Y86, Y106Y107, Y128, and Y148. The HGAL YEN motif (amino acids 107-109) is similar to the phosphopeptide motif pYXN used as a binding site to the growth factor receptor–bound protein 2 (Grb2). We demonstrate by biochemical and molecular methodologies that HGAL directly interacts with Grb2. Concordantly, microscopy studies demonstrate HGAL-Grb2 colocalization in the membrane central supramolecular activation clusters (cSMAC) following BCR activation. Mutation of the HGAL putative binding site to Grb2 abrogates the interaction between these proteins. Further, this HGAL mutant localizes exclusively in the peripheral SMAC and decreases the rate and intensity of BCR accumulation in the cSMAC. Furthermore, we demonstrate that Grb2, HGAL, and Syk interact in the same complex, but Grb2 does not modulate the effects of HGAL on Syk kinase activity. Overall, the interplay between the HGAL and Grb2 regulates the magnitude of BCR signaling and synapse formation.

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αvβ3 integrin expression increases elasticity in human melanoma cells

Lacaria

Lange

Goldmann

et al. 2020

Biochemical and Biophysical Research Communications

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Integrin avb3 a5b1 and aIIbb3 M21 human melanoma cell Atomic force microscopy Micro-constrictions Cell elasticity a b s t r a c t Living cells interact with the extracellular matrix (ECM) transducing biochemical signals into mechanical cues and vice versa. Thanks to this mechano-transduction process, cells modify their internal organization and upregulate their physiological functions differently. In this complex mechanism integrins play a fundamental role, connecting the extracellular matrix with the cytoskeleton. Cytoskeletal rearrangements, such as the increase of the overall contractility, impact cell mechanical properties, the entire cell stiffness, and cell deformability. How cell mechanics is influenced via different integrins and their interaction with ECM in health and disease is still unclear. Here, we investigated the influence of avb3 integrin expression on the mechanics of human melanoma M21 cells using atomic force microscopy and micro-constriction. Evidence is provided that (i) avb3 integrin expression in human melanoma cells increases cell stiffness in both adherent and non-adherent conditions; (ii) replacing avb3 with aIIbb3 integrin in melanoma cells, cell stiffness is increased under adherent, while decreased under nonadherent conditions; (iii) avb3 integrin cell stiffening is also maintained when cells adhere to fibronectin, but this phenomenon does not strongly depend on the fibronectin concentration. In all, this study sheds light on the role of avb3 in regulating cellular mechanics.

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Leda Lacaria

A microfluidic method generating monodispersed microparticles with controllable sizes and mechanical properties

Interplay between HGAL and Grb2 proteins regulates B-cell receptor signaling

αvβ3 integrin expression increases elasticity in human melanoma cells

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