Marcus R. Duvall scite author profile

We sought to specifically regulate the binding of human C1q, and thus the activation of the first complement component, via the construction of a single chain antibody variable binding region fragment (scFv) targeting the C1q globular heads. Here we describe details of the construction, expression and evaluation of this scFv, which was derived from a high affinity hybridoma (Qu) specific for the C1q globular heads. The scFv was comprised of the Qu variable-heavy chain domain (VH) linked to the Qu variable-light chain domain (VL) and was termed scFv-QuVHVL. When mixed with either purified C1q or with human serum as a source of C1, scFv-QuVHVL bound to C1q and competitively restricted the interaction of C1q or C1 with immobilized IgG or with IgG1 antibody-coated cells, and prevented the activation of native C1 in human serum as determined by analyses of C1-mediated C4 deposition and fluid phase C4 conversion. However scFv-QuVHVL could be manipulated to become a C1 activator when it was irreversibly immobilized onto microtiter ELISA plates, prior to contact with human serum complement. This functional dichotomy can be a useful tool in selectively elucidating, differentiating, inducing or inhibiting specific roles of human C1q and the classical complement pathway in complement-mediated physiological processes. We project that once fully humanized, fluid phase scFv-QuVHVL could become a useful therapeutic in limiting inadvertent host tissue damage elicited by the classical complement pathway.

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A novel platform to produce human monoclonal antibodies

Duvall

Bradley

Fiorini

2011

mAbs

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A new technology has been developed that allows human antibodies to be quickly generated against virtually any antigen. Using a novel process, naïve human B cells are isolated from tonsil tissue and transformed with efficiency up to 85%, thus utilizing a large portion of the human VDJ/VJ repertoire. Through ex vivo stimulation, the B cells class switch and may undergo somatic hypermutation, thus producing a human "library" of different IgG antibodies that can then be screened against any antigen. Since diversity is generated ex vivo, sampling immunized or previously exposed individuals is not necessary. Cells producing the antibody of interest can be isolated through limiting dilution cloning and the human antibody from the cells can be tested for biological activity. No humanization is necessary because the antibodies are produced from human B cells. By eliminating immunization and humanization steps, and screening a broadly diverse library, this platform should reduce both the cost and time involved in producing therapeutic monoclonal antibody candidates.

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Different Approaches for Obtaining Antibodies from Human B Cells

Duvall¹,

Fiorini²

2014

CDDT

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Antibodies have emerged as powerful therapeutics effective for treating a number of human conditions and diseases. While early successes utilized small animals to generate therapeutic antibodies, human antibodies are now preferred in order to limit anti-antibody immune responses. Antibodies with human amino acid sequences can be generated in a number of ways, such as humanizing antibodies from other species or expressing human antibodies in transgenic animals. This review focuses on methods for obtaining antibodies directly from human B cells. These methods use both antigen exposed and non-exposed ("naïve") humans as B cell sources, and apply various technologies to isolate desired antibodies; including cell line generation, single cell isolation, display technologies, and B cell library generation.

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Specific inhibition of the classical complement pathway with an engineered single-chain Fv to C1q globular heads decreases complement activation by apoptotic cells

Duvall

Boackle

2010

Immunobiology

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Back-burning to cure HIV: Temporary depletion of all CD4+ cells and elimination of the extracellular reservoir with HIV Immunotoxin Therapy

Zanin

Duvall

2009

Medical Hypotheses

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Marcus R. Duvall

Highly specific inhibition of C1q globular-head binding to human IgG: A novel approach to control and regulate the classical complement pathway using an engineered single chain antibody variable fragment

A novel platform to produce human monoclonal antibodies

Different Approaches for Obtaining Antibodies from Human B Cells

Specific inhibition of the classical complement pathway with an engineered single-chain Fv to C1q globular heads decreases complement activation by apoptotic cells

Back-burning to cure HIV: Temporary depletion of all CD4+ cells and elimination of the extracellular reservoir with HIV Immunotoxin Therapy

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