Andrea Franco scite author profile

Giant vesicles have attracted much attention as possible microreactors for the conduction of enzymatic reactions in an artificial, cell-sized compartment. In this context, we demonstrated in the first part of the present work that giant vesicles formed from 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine in an alternating electric field can be made more permeable to Ca(2+) ions or nucleotide triphosphates by addition of ethanol. This methodology is then applied in a second step whereby these giant vesicles are used as microreactors in which mRNA synthesis can occur. The macromolecules (the DNA template and the enzyme T7 RNA polymerase) are microinjected into a selected giant vesicle, while the substrate molecules (nucleotide triphosphates) are added from the external medium. The fact that mRNA synthesis can be detected is a further step towards our aim: the design of a microreactor that can be seen as a model for a protocell.

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Human Fc Receptor–Like 5 Binds Intact IgG via Mechanisms Distinct from Those of Fc Receptors

Franco

Damdinsuren

Ise

et al. 2013

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Fc receptor-like 5 (FCRL5) regulates BCR signaling and has been reported to bind aggregated IgG. Using surface plasmon resonance, we analyzed the interaction of native IgG samples with FCRL5, revealing a complex binding mechanism, where isotype is just one factor. FCRL5 bound IgG1 and IgG4 with approximately 1 μM KD, while the interaction with IgG3 was a magnitude weaker. However, IgG2 samples displayed a wide range of affinities, indicating that additional factors affect binding. We used a panel of 19 anti-FCRL5 mAbs with defined reactivity to identify domains involved in ligand binding. Six mAbs blocked IgG binding, indicating critical roles of FCRL5 domains 1 and 3, as well as epitopes at the domain 1/2 and domain 2/3 boundaries. We found that only glycosylated IgG containing both Fab arms and the Fc region bound with high affinity. Furthermore, the presence of sialic acid in the IgG carbohydrate altered FCRL5 binding. The interaction of IgG and FCRL5 consisted of two kinetic components, suggesting a complex binding mechanism. We established that the IgG-Fc and IgG-F(ab’)2 fragments bind FCRL5 independently but with low affinity, revealing the mechanism behind the two-step binding of whole IgG. This complex binding mechanism is distinct from that of Fc-receptors, which bind through the Fc. We propose that FCRL5 is a new type of receptor that recognizes intact IgG, possibly enabling B cells to sense immunoglobulin quality. Recognition of undamaged IgG molecules by FCRL5 could allow B cells to engage recently produced antibodies.

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CD21 and FCRL5 form a receptor complex with robust B-cell activating capacity

Franco

Kraus

et al. 2018

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The B-cell response to antigen is critically regulated by co-receptors. CD21 (complement receptor 2) amplifies the response to antigen linked to its ligands, specific C3 fragments. In contrast, human Fc receptor-like 5 (FCRL5), a novel IgG receptor, was reported to inhibit B-cell receptor (BCR) signaling. Here, we show that CD21 and FCRL5 physically associate, suggesting that immune complexes containing both C3 fragment and IgG could simultaneously engage the pre-assembled receptors. We found that activating signaling molecules such as CD19, active PLCγ2 and BTK were rapidly recruited to FCRL5 upon engagement, suggesting a novel activating function for FCRL5. We confirmed that FCRL5 through its ITIMs (immunoreceptor tyrosine-based inhibitory motif) inhibited BCR signaling in the absence of CD21 stimulation. In contrast, triple engagement of FCRL5, CD21 and the BCR led to a superior calcium response compared to CD21 and BCR co-stimulation, in both cell lines and tonsil B cells. Furthermore, the novel activating function was independent of established FCRL5 signaling motifs. While human peripheral B cells express either FCRL5 or CD21, we identified a sizable subset of tonsil B cells which co-express the two receptors. We propose that FCRL5 has dual signaling capacity, while CD21 co-engagement serves as molecular switch, converting FCRL5 from a negative to a positive co-receptor. In tissues, B cells that co-express FCRL5 and CD21 could robustly respond to IgG immune complexes loaded with C3 fragments.

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PAcM-AN: Poly(N-Acryloylmorpholine)-Conjugated Antisense Oligonucleotides

Bonora

Franco

Rossin

et al. 2000

Nucleosides, Nucleotides and Nucleic Acids

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Andrea Franco

Giant Vesicles as Microreactors for Enzymatic mRNA Synthesis

Human Fc Receptor–Like 5 Binds Intact IgG via Mechanisms Distinct from Those of Fc Receptors

CD21 and FCRL5 form a receptor complex with robust B-cell activating capacity

PAcM-AN: Poly(N-Acryloylmorpholine)-Conjugated Antisense Oligonucleotides

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