A breakdown of your burning nAb questions

Allele Biotechnology just released its latest batch of nAbs (nano antibodies), the first wave on a long list of new antibodies to come! You might have a few questions about how these “antibodies of the future”, as we call them, can help your research:  What can I use them for?  How much should I use?  And how do they work compared to a traditional antibody? 
 
To answer these questions, we need to first discuss some antibody basics.  Conventional antibodies (your typical mouse or rabbit derived antibody) have a “Y” shape and tightly bind targeted antigens as a result of two factors.  The first is affinity between each monomer Fab fragment and the antigen.  The second is the fact that traditional antibodies are di-valent, i.e. they have two identical binding sites for each antigen, which is known as avidity. 
 
When developing a nano-antibody, we screen and select our clones to have extremely high affinity as a monomer.  This is because nAbs are mono-valent VHH fragments. The intrinsic high affinity VHHs possess for their antigens can make up for the lack of multivalency (avidity).  As a result, nAb binding is often superior to conventional antibody binding, which leads to superior performance in a variety of biological assays (immunoprecipitation, immune-staining, FACS staining, immunofluorescent imaging, etc.). 
 
Each nAb is roughly one tenth (1/10) the size of a traditional antibody.  The small size and stable conformation of nano-antibodies enable pinpointed localization of target antigens and allow access to antigen and cellular regions generally restrictive to larger antibodies. As a result of this smaller size, when measured by weight 1mg of a nAb is equivalent to 5 – 10mg of a traditional antibody (the lower end takes di-valency into account).  When substituting a nAb for a traditional antibody you can use as little as one tenth (1/10) the amount by weight. 
 
There are a couple of different ways to use nAbs.  The first is immobilizing the nano-antibody on a resin (i.e. magnetic-agarose resin) for immunoprecipitation.  The nano-antibody will not be released from the resin upon elution so you will not have contaminating bands.  The second method is direct labeling with a fluorescent dye or hapten.  nAb’s are compatible with standard NHS-ester amine chemistry binding.  This enables single or multiple fluorophore labeling per antibody.  Moving forward, additional platforms will be released that allow for a more flexible and adaptable labeling system, allowing you to harness nAbs for any biological assay you can imagine.  Have some suggestions? Don’t hesitate to let us know by emailing at nAb@allelebiotech.com. Or call 858-587-6645 and ask for a nAb expert.

Tags: nAb, nano-antibody, nanobody, VHH

Press Release: Allele Biotech Takes Major Step into Nano Antibody Leadership Position

SAN DIEGO–(BUSINESS WIRE)–Allele Biotechnology & Pharmaceuticals Inc., a San Diego based life sciences company with a focus on novel technology development, releases the first group of a brand new class of antibodies against crucial biological targets to the research market. This week, Allele launches nano-antibodies isolated from llamas against human bFGF, P16, VEGF, and TNFa, which are all important targets in the field of cancer biology.

Nano-Antibodies (also known as nAb™, Nanobodies®, Single Domain Antibodies, Camelid Antibodies and VHH antibodies) represent the future in antibody technology of Allele’s interest. “Camelid antibodies have been an area of intense research activities at Allele because they have desirable features that no other antibody has. These tiny antibodies outperform conventional antibodies in many ways and thrive in extreme conditions, eventually they will occupy a significant portion of the antibody reagent market,” said Dr. Jiwu Wang, CEO and founder of Allele Biotechnology. This first wave of novel reagents has been meticulously tested for immunohistochemistry (IHC) in human cancer tissues; some of these antibodies also performed well in cross-species reactivity in mouse and rat while others are highly suitable for advanced applications such as flow cytometry and antigen immunoprecipitation.

This is the first release in a long-term effort to generate and commercialize hundreds of nano-antibody derived capture tools. “Our nano-antibody project is based on years of internal technology development partially funded by the National Institute of Drug Abuse of the NIH,” according to Allele’s Marketing Director, Abbas Hussain. “The nAb product line will shortly encompass a wide range of high value targets that are applicable to both basic and clinically relevant research. It will also feature cutting edge conjugation technologies that enable fluorescent imaging and electron microscopy techniques being developed at Allele.”

Since the ability to generate monoclonal antibodies was discovered in 1975, antibodies have been used in virtually every branch of biomedical research and development. In the past decade there has been a shift toward harnessing antibody technology for therapy, as illustrated by large number of antibody-based drugs on the market today. Allele’s nAb development has been one of the targets of investment from Yifang Ventures and Yuan Capital.

“Nanobodies® is a trademark of Ablynx; nAb as nano antibodies is under copyright of Allele Biotechnology, all rights reserved.”
Contacts

Allele Biotechnology & Pharmaceuticals Inc.
Abbas Hussain, 858-587-6645
Director of Sales & Marketing
6404 Nancy Ridge Dr.
San Diego, CA 92121
abbashussain@allelebiotech.com

Tags: nAb, nano-antibody, nanobody, VHH