Mireille Pellis scite author profile

Protein conformation is critically linked to function and often controlled by interactions with regulatory factors. Here we report the selection of camelid-derived single-domain antibodies (nanobodies) that modulate the conformation and spectral properties of the green fluorescent protein (GFP). One nanobody could reversibly reduce GFP fluorescence by a factor of 5, whereas its displacement by a second nanobody caused an increase by a factor of 10. Structural analysis of GFP-nanobody complexes revealed that the two nanobodies induce subtle opposing changes in the chromophore environment, leading to altered absorption properties. Unlike conventional antibodies, the small, stable nanobodies are functional in living cells. Nanobody-induced changes were detected by ratio imaging and used to monitor protein expression and subcellular localization as well as translocation events such as the tamoxifen-induced nuclear localization of estrogen receptor. This work demonstrates that protein conformations can be manipulated and studied with nanobodies in living cells.

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Identification of a Universal VHH Framework to Graft Non-canonical Antigen-binding Loops of Camel Single-domain Antibodies

Saerens

Pellis

Loris

et al. 2005

Journal of Molecular Biology

213

235

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Dual Beneficial Effect of Interloop Disulfide Bond for Single Domain Antibody Fragments

Govaert

Pellis

Deschacht

et al. 2012

Journal of Biological Chemistry

128

100

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Background:The presence of cystines connecting antigen-binding loops in single domain antibodies is puzzling. Results: Cysteines forming such cystine are substituted, and the performance of functional antibody fragments is determined. Conclusion: An interloop disulfide bond stabilizes the domain and rigidifies the long third antigen-binding loop, leading to stronger antigen interaction. Significance: This beneficial effect explains in vivo antibody maturation favoring antibodies with an interloop disulfide bond.

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Identification of potent nanobodies to neutralize the most poisonous polypeptide from scorpion venom

Abderrazek

Hmila

Vincke

et al. 2009

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Scorpion venom, containing highly toxic, small polypeptides that diffuse rapidly within the patient, causes serious medical problems. Nanobodies, single-domain antigen-binding fragments derived from dromedary heavy-chain antibodies, have a size that closely matches that of scorpion toxins. Therefore these nanobodies might be developed into potent immunotherapeutics to treat scorpion envenoming. Multiple nanobodies of sub-nanomolar affinity to AahII, the most toxic polypeptide within the Androctonus australis hector venom, were isolated from a dromedary immunized with AahII. These nanobodies neutralize the lethal effect of AahII to various extents without clear correlation with the kinetic rate constants kon or koff, or the equilibrium dissociation constant, KD. One particular nanobody, referred to as NbAahII10, which targets a unique epitope on AahII, neutralizes 7 LD50 of this toxin in mice, corresponding to a neutralizing capacity of approx. 37000 LD50 of AahII/mg of nanobody. Such high neutralizing potency has never been reached before by any other monoclonal antibody fragment.

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Mireille Pellis

Modulation of protein properties in living cells using nanobodies

Identification of a Universal VHH Framework to Graft Non-canonical Antigen-binding Loops of Camel Single-domain Antibodies

Dual Beneficial Effect of Interloop Disulfide Bond for Single Domain Antibody Fragments

Identification of potent nanobodies to neutralize the most poisonous polypeptide from scorpion venom

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