Mouse and human granzyme B have distinct tetrapeptide specificities and abilities to recruit the bid pathway

Livia Casciola-Rosen, Margarita Garcia-Calvo, Herbert G. Bull, Joseph W. Becker, Tonie Hines, Nancy A. Thornberry, Antony Rosen

Research output: Contribution to journalArticlepeer-review

Abstract

Granzyme B is an important mediator of cytotoxic lymphocyte granule-induced death of target cells, accomplishing this through cleavage of Bid and cleavage and activation of caspases as well as direct cleavage of downstream substrates. Significant controversy exists regarding the primary pathways used by granzyme B to induce cell death, perhaps arising from the use of different protease/substrate combinations in different studies. The primary sequence of human, rat, and mouse granzymes B is well conserved, and the substrate specificity and crystal structure of the human and rat proteases are extremely similar. Although little is known about the substrate specificity of mouse granzyme B, recent studies suggest that it may differ significantly from the human protease. In these studies we show that the specificities of human and mouse granzymes B differ significantly. Human and mouse granzyme B cleave species-specific procaspase-3 more efficiently than the unmatched substrates. The distinct specificities of human and mouse granzyme B highlight a previously unappreciated requirement for Asp192 in the acquisition of catalytic activity upon cleavage of procaspase-3 at Asp175. Although human granzyme B efficiently cleaves human or mouse Bid, these substrates are highly resistant to cleavage by the mouse protease, strongly indicating that the Bid pathway is not a major primary mediator of the effects of mouse granzyme B. These studies provide important insights into the substrate specificity and function of the granzyme B pathway in different species and highlight that caution is essential when designing and interpreting experiments with different forms of granzyme B.

Original languageEnglish (US)
Pages (from-to)4545-4552
Number of pages8
JournalJournal of Biological Chemistry
Volume282
Issue number7
DOIs
StatePublished - Feb 16 2007

ASJC Scopus subject areas

  • Biochemistry
  • Molecular Biology
  • Cell Biology

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