A T-cell receptor that recognizes short peptides derived from the prame antigen
A cell receptor and cell technology, applied in the field of TCR, can solve problems such as normal cell damage
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Embodiment 1
[0144] Example 1 Cloning of PRAME Antigen Short Peptide-Specific T Cells
[0145] Peripheral blood lymphocytes (PBL) from healthy volunteers with genotype HLA-A2402 were stimulated with a synthetic short peptide LYVDSLFFL (SEQ ID NO.9; Beijing Saibaisheng Gene Technology Co., Ltd.). The LYVDSLFFL short peptide was annealed with biotin-labeled HLA-A2402 to prepare pHLA haploids. These haploids were combined with PE-labeled streptavidin (BD Company) to form PE-labeled tetramers, and the tetramers and anti-CD8-APC double-positive cells were sorted. Sorted cells were expanded and subjected to secondary sorting as described above, followed by monoclonalization by limiting dilution. Monoclonal cells were stained with tetramers, and double-positive clones were screened.
Embodiment 2
[0146] Example 2 Obtaining the construction of TCR gene and carrier of PRAME antigen short peptide-specific T cell clone
[0147] The total RNA of the short antigen peptide LYVDSLFFL-specific and HLA-A2402-restricted T cell clones screened in Example 1 was extracted with Quick-RNATMiniPrep (ZYMO research). The cDNA was synthesized using clontech's SMART RACE cDNA amplification kit, and the primers used were designed at the C-terminal conserved region of the human TCR gene. The sequence was cloned into T vector (TAKARA) for sequencing. It should be noted that this sequence is complementary and does not contain introns. After sequencing, the sequence structures of the TCR α chain and β chain expressed by the double-positive clone are shown in Figure 1 and Figure 2, respectively. Figure 1a , Figure 1b , Figure 1c , Figure 1d , Figure 1e and Figure 1f They are the amino acid sequence of TCRα chain variable domain, the nucleotide sequence of TCRα chain variable domain, ...
Embodiment 3
[0157] Example 3 Expression, refolding and purification of PRAME antigen short peptide-specific soluble TCR
[0158] In order to obtain a soluble TCR molecule, the α and β chains of the TCR molecule of the present invention may only include their variable domains and part of the constant domains respectively, and a cysteine residue is introduced into the constant domains of the α and β chains respectively To form an artificial interchain disulfide bond, the positions of the introduced cysteine residues are Thr48 of TRAC*01 exon 1 and Ser57 of TRBC2*01 exon 1; the amino acid sequence and nucleotides of the α chain sequence as Figure 3a and Figure 3b As shown, the amino acid sequence and nucleotide sequence of its β chain are as follows Figure 4a and Figure 4b The introduced cysteine residues are shown in bold and underlined letters. The target gene sequences of the above TCRα and β chains were synthesized and inserted into the expression vector pET28a+ (Novagene ...
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