Ana Cauerhff scite author profile

Antibodies are important tools for experimental research and medical applications. Most antibodies are composed of two heavy and two light chains. Both chains contribute to the antigen-binding site which is usually Xat or concave. In addition to these conventional antibodies, llamas, other camelids, and sharks also produce antibodies composed only of heavy chains. The antigen-binding site of these unusual heavy chain antibodies (hcAbs) is formed only by a single domain, designated VHH in camelid hcAbs and VNAR in shark hcAbs. VHH and VNAR are easily produced as recombinant proteins, designated single domain antibodies (sdAbs) or nanobodies. The CDR3 region of these sdAbs possesses the extraordinary capacity to form long Wngerlike extensions that can extend into cavities on antigens, e.g., the active site crevice of enzymes. Other advantageous features of nanobodies include their small size, high solubility, thermal stability, refolding capacity, and good tissue penetration in vivo. Here we review the results of several recent proofof-principle studies that open the exciting perspective of using sdAbs for modulating immune functions and for targeting toxins and microbes.

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Recent trends in biocatalysis engineering

Illanes

Cauerhff

Wilson

et al. 2012

Bioresource Technology

247

122

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Single domain antibodies from llama effectively and specifically block T cell ecto‐ADP‐ribosyltransferase ART2.2in vivo

Koch-Nolte¹,

Reyelt²,

Schößow³

et al. 2007

FASEB j.

102

103

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The purpose of our study was to develop a tool for blocking the function of a specific leukocyte ecto-enzyme in vivo. ART2.2 is a toxin-related ecto-enzyme that transfers the ADP-ribose moiety from NAD onto other cell surface proteins. ART2.2 induces T cell death by activating the cytolytic P2x7 purinoceptor via ADP-ribosylation. Here, we report the generation of ART2.2-blocking single domain antibodies from an immunized llama. The variable domain of heavy-chain antibodies (VHH domain) represents the smallest known antigen-binding unit generated by adaptive immune responses. Their long CDR3 endows VHH domains with the extraordinary capacity to extend into and block molecular clefts. Following intravenous injection, the ART2.2-specific VHH domains effectively shut off the enzymatic and cytotoxic activities of ART2.2 in lymphatic organs. This blockade was highly specific (blocking ART2.2 but not the related enzymes ART1 or ART2.1), rapid (within 15 min after injection), and reversible (24 h after injection). Our findings constitute a proof of principle that opens up a new avenue for targeting leukocyte ecto-enzymes in vivo and that can serve as a model also for developing new antidotes against ADP-ribosylating toxins.

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Ana Cauerhff

Single domain antibodies: promising experimental and therapeutic tools in infection and immunity

Recent trends in biocatalysis engineering

Single domain antibodies from llama effectively and specifically block T cell ecto‐ADP‐ribosyltransferase ART2.2in vivo

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