Figure 8.
Figure 8. Proteasome-mediated digestion of HA-3T and HA-3M. The 25-mer HA-3 peptides were cleaved with J-Y–derived immunoproteasomes as described in “Patient, materials, and methods.” Correct C-terminal cleavage was observed for both HA-3T (panel A, m/z 938.46+2) and HA-3M (panel B, m/z 953.41+2). Arrows indicate the correct cleavage product. Destruction of the HA-3T peptide could not be observed, as no peptide ion with m/z 565.32+2 (DAVLQRDLVT) was detectable (C). The HA-3M peptide was cleaved behind P2 of the HA-3 9-mer as indicated by the presence of DAVLQRDLVM (panel D, m/z 580.322+). (E) Proteasome inhibitor PSI was able to inhibit antigen-specific lysis of HA-3+ EBV-BLCL HoRe significantly. Target cell lysis was restored after adding exogenous HA-3T peptide.

Proteasome-mediated digestion of HA-3T and HA-3M. The 25-mer HA-3 peptides were cleaved with J-Y–derived immunoproteasomes as described in “Patient, materials, and methods.” Correct C-terminal cleavage was observed for both HA-3T (panel A, m/z 938.46+2) and HA-3M (panel B, m/z 953.41+2). Arrows indicate the correct cleavage product. Destruction of the HA-3T peptide could not be observed, as no peptide ion with m/z 565.32+2 (DAVLQRDLVT) was detectable (C). The HA-3M peptide was cleaved behind P2 of the HA-3 9-mer as indicated by the presence of DAVLQRDLVM (panel D, m/z 580.322+). (E) Proteasome inhibitor PSI was able to inhibit antigen-specific lysis of HA-3+ EBV-BLCL HoRe significantly. Target cell lysis was restored after adding exogenous HA-3T peptide.

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