Kenny Bravo Rodriguez scite author profile

SMAC/DIABLO and HTRA2 are mitochondrial proteins whose amino-terminal sequences, known as inhibitor of apoptosis binding motifs (IBMs), bind and activate ubiquitin ligases known as inhibitor of apoptosis proteins (IAPs), unleashing a cell’s apoptotic potential. IBMs comprise a four-residue, loose consensus sequence, and binding to IAPs requires an unmodified amino terminus. Closely related, IBM-like N termini are present in approximately 5% of human proteins. We show that suppression of the N-alpha-acetyltransferase NatA turns these cryptic IBM-like sequences into very efficient IAP binders in cell lysates and in vitro and ultimately triggers cellular apoptosis. Thus, amino-terminal acetylation of IBM-like motifs in NatA substrates shields them from IAPs. This previously unrecognized relationship suggests that amino-terminal acetylation is generally protective against protein degradation in human cells. It also identifies IAPs as agents of a general quality control mechanism targeting unacetylated rogues in metazoans.

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An allosteric HTRA1-calpain 2 complex with restricted activation profile

Rey

Breiden

Lux

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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Significance Classic serine proteases are synthesized as inactive precursors that are proteolytically processed, resulting in irreversible activation. We report an alternative and reversible mechanism of activation that is executed by an inactive protease. This mechanism involves a protein complex between the serine protease HTRA1 and the cysteine protease calpain 2. Surprisingly, activation is restricted as it improves the proteolysis of soluble tau protein but not the dissociation and degradation of its amyloid fibrils, a task that free HTRA1 is efficiently performing. These data exemplify a challenge for protein quality control proteases in the clearing of pathogenic fibrils and suggest a potential for unexpected side effects of chemical modulators targeting PDZ or other domains located at a distance to the active site.

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High resolution analysis of proteolytic substrate processing

Schillinger

Koci

Rodriguez

et al. 2022

Preprint

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Proteolysis is a key catalytic event in protein and thus cellular homeostasis. Despite the importance and wide implications of proteolytic processing and degradation, methods describing the degradation of folded proteins at high temporal and spatial resolution are not well established. However, this information is required to obtain a deep mechanistic understanding of proteolytic events and their consequences. Here, we describe an integrated method comprising time-resolved mass spectrometry, circular dichroism spectroscopy and bioinformatics to reveal the sequential degradation and unfolding of the model substrate annexin A1 by the human serine protease HTRA1. This workflow represents a general strategy for obtaining precise molecular insights into protease-substrate interactions that can be conveniently adapted to studying other posttranslational modifications such as phosphorylation in dynamic protein complexes.

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