Dorothy Hudig scite author profile

Granzyme B is a protease involved in the induction of rapid target cell death by cytotoxic lymphocytes. Definition of the substrate specificity of granzyme B allows for the identification of in vivo substrates in this process. By using the combinatorial methods of synthetic substrate libraries and substrate-phage display, an optimal substrate for granzyme B that spans over six subsites was determined to be Ile-Glu-Xaa-(Asp2Xaa)-Gly, with cleavage of the Asp2Xaa peptide bond. Granzyme B proteolysis was shown to be highly dependent on the length and sequence of the substrate, supporting the role of granzyme B as a regulatory protease. Arginine 192 was identified as a determinant of P3-Glu and P1-Asp substrate specificity. Mutagenesis of arginine 192 to glutamate reversed the preference for negatively charged amino acids at P3 to positively charged amino acids. The preferred substrate sequence matches the activation sites of caspase 3 and caspase 7 and thus is consistent with the role of granzyme B in activation of these proteases during apoptosis. The caspase substrate poly(ADP)-ribose polymerase is cleaved by granzyme B in a cell-free assay at two sites that resemble the granzyme B specificity determined by the combinatorial methods. Many caspase substrates contain granzyme B cleavage sites and are proposed as potential granzyme B targets, suggesting a redundant function with certain caspases.

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Sensitization of Tumor Cells to NK Cell-Mediated Killing by Proteasome Inhibition

Hallett

et al. 2008

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Bortezomib is a proteasome inhibitor that has direct antitumor effects. We and others have previously demonstrated that bortezomib could also sensitize tumor cells to killing via the death ligand, TRAIL. NK cells represent a potent antitumor effector cell. Therefore, we investigated whether bortezomib could sensitize tumor cells to NK cell-mediated killing. Preincubation of tumor cells with bortezomib had no effect on short-term NK cell killing or purified granule killing assays. Using a 24-h lysis assay, increases in tumor killing was only observed using perforin-deficient NK cells, and this increased killing was found to be dependent on both TRAIL and FasL, correlating with an increase in tumor Fas and DR5 expression. Long-term tumor outgrowth assays allowed for the detection of this increased tumor killing by activated NK cells following bortezomib treatment of the tumor. In a tumor purging assay, in which tumor:bone marrow cell mixtures were placed into lethally irradiated mice, only treatment of these mixtures with a combination of NK cells with bortezomib resulted in significant tumor-free survival of the recipients. These results demonstrate that bortezomib treatment can sensitize tumor cells to cellular effector pathways. These results suggest that the combination of proteasome inhibition with immune therapy may result in increased antitumor efficacy.

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Granzymes (lymphocyte serine proteases): characterization with natural and synthetic substrates and inhibitors

Kam

Hudig

Powers

2000

Biochimica et Biophysica Acta (BBA) - Protein Structure and Mol

140

112

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Interaction between a Ca²⁺-Binding Protein Calreticulin and Perforin, a Component of the Cytotoxic T-Cell Granules

Andrin

Burns

et al. 1998

Biochemistry

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Calreticulin is a component of cytotoxic T-lymphocyte and NK lymphocyte granules. We report here that granule-associated calreticulin terminates with the KDEL endoplasmic reticulum retrieval amino acid sequence and somehow escapes the KDEL retrieval system. In perforin knock-out mice calreticulin is still targeted into the granules. Thus, calreticulin will traffic without perforin to cytotoxic granules. In the granules, calreticulin and perforin are associated as documented by (i) copurification of calreticulin with perforin but not with granzymes and (ii) immunoprecipitation of a calreticulin-perforin complex using specific antibodies. By using calreticulin affinity chromatography and protein ligand blotting we show that perforin binds to calreticulin in the absence of Ca2+ and the two proteins dissociate upon exposure to 0.1 mM or higher Ca2+ concentration. Perforin interacts strongly with the P-domain of calreticulin (the domain which has high Ca2+-binding affinity and chaperone function) as revealed by direct protein-protein interaction, ligand blotting, and the yeast two-hybrid techniques. Our results suggest that calreticulin may act as Ca2+-regulated chaperone for perforin. This action will serve to protect the CTL during biogenesis of granules and may also serve to regulate perforin lytic action after release.

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Dorothy Hudig

Definition and Redesign of the Extended Substrate Specificity of Granzyme B

Sensitization of Tumor Cells to NK Cell-Mediated Killing by Proteasome Inhibition

Granzymes (lymphocyte serine proteases): characterization with natural and synthetic substrates and inhibitors

Interaction between a Ca²⁺-Binding Protein Calreticulin and Perforin, a Component of the Cytotoxic T-Cell Granules

Contact Info

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Resources

About

Dorothy Hudig

Definition and Redesign of the Extended Substrate Specificity of Granzyme B

Sensitization of Tumor Cells to NK Cell-Mediated Killing by Proteasome Inhibition

Granzymes (lymphocyte serine proteases): characterization with natural and synthetic substrates and inhibitors

Interaction between a Ca2+-Binding Protein Calreticulin and Perforin, a Component of the Cytotoxic T-Cell Granules

Contact Info

Product

Resources

About

Interaction between a Ca²⁺-Binding Protein Calreticulin and Perforin, a Component of the Cytotoxic T-Cell Granules