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A practical approach to T-cell receptor cloning and expression

Although cloning and expression of T-cell Receptors (TcRs) has been performed for almost two decades, these procedures are still challenging. For example, the use of T-cell clones that have undergone limited expansion as starting material to limit the loss of interesting TcRs, must be weighed agains...

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Published in:PloS one 2011-11, Vol.6 (11), p.e27930
Main Authors: Wälchli, Sébastien, Løset, Geir Åge, Kumari, Shraddha, Johansen, Jorunn Nergård, Yang, Weiwen, Sandlie, Inger, Olweus, Johanna
Format: Article
Language:English
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Summary:Although cloning and expression of T-cell Receptors (TcRs) has been performed for almost two decades, these procedures are still challenging. For example, the use of T-cell clones that have undergone limited expansion as starting material to limit the loss of interesting TcRs, must be weighed against the introduction of mutations by excess PCR cycles. The recent interest in using specific TcRs for cancer immunotherapy has, however, increased the demand for practical and robust methods to rapidly clone and express TcRs. Two main technologies for TcR cloning have emerged; the use of a set of primers specifically annealing to all known TcR variable domains, and 5'-RACE amplification. We here present an improved 5'-RACE protocol that represents a fast and reliable way to identify a TcR from 10(5) cells only, making TcR cloning feasible without a priori knowledge of the variable domain sequence. We further present a detailed procedure for the subcloning of TcRα and β chains into an expression system. We show that a recombination-based cloning protocol facilitates simple and rapid transfer of the TcR transgene into different expression systems. The presented comprehensive method can be performed in any laboratory with standard equipment and with a limited amount of starting material. We finally exemplify the straightforwardness and reliability of our procedure by cloning and expressing several MART-1-specific TcRs and demonstrating their functionality.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0027930