Calpains are a family of calcium activated cysteine proteases which participate in a wide range of cellular functions including migration, invasion, autophagy, programmed cell death, and gene expression. Calpain-1 and calpain-2 isoforms are ubiquitously expressed heterodimers composed of isoform specific catalytic subunits coupled with an obligate common regulatory subunit encoded by capns1. Here, we report that conditional deletion of capns1 disrupted calpain-1 and calpain-2 expression and activity, and this was associated with delayed tumorigenesis and altered signaling in a transgenic mouse model of spontaneous HER2+ breast cancer and effectively blocked tumorigenesis in an orthotopic engraftment model. Furthermore, capns1 knockout in a tumor derived cell line correlated with enhanced sensitivity to the chemotherapeutic doxorubicin and the HER2/EGFR tyrosine kinase inhibitor lapatinib. Collectively, these results indicate pro-tumorigenic roles for calpains-1/2 in HER2+ breast cancer and provide evidence that calpain-1/2 inhibitors could have anti-tumor effects if used either alone or in combination with chemotherapeutics and targeted agents.
Calpain-1 and -2 are Ca-activated intracellular cysteine proteases that regulate a wide range of cellular functions through the cleavage of their protein substrates. Unlike degradative proteases, calpains make limited, transformative cleavages, typically in accessible sequences linking discrete subdomains, to irreversibly alter substrate functions. The biological roles of calpain and their interplay with calcium signaling are of significant biomedical interest as biomarkers and potential therapeutic targets in a growing number of diseases including Alzheimer's, cancer and fibrosis. Unfortunately, many of the colorimetric and fluorimetric assays that have been developed to study calpain activity suffer from low sensitivity and/or poor calpain specificity. To address the need for a highly sensitive and calpain-specific substrate suitable for in vitro and in vivo calpain activity analysis, we have developed a protein FRET probe. We inserted the optimized calpain cleavage sequence PLFAAR between cyan fluorescent protein (CFP) and yellow fluorescent protein (YFP) and modulated its flanking sequences for optimal calpain cleavage. We demonstrate greater sensitivity and calpain-specificity of an optimal 16-residue PLFAAR-based FRET substrate compared to a standard α-spectrin-based probe. The 16-residue PLFAAR protein FRET substrate is not significantly cleaved by trypsin, chymotrypsin, cathepsin-L or caspase-3, and is highly sensitive to both calpain-1 and -2. After transfection of the substrate gene into breast cancer cells the PLFAAR protein FRET product was cut in lysed wild-type cells but not in those with a calpain knock-out phenotype. Blockage of substrate cleavage in the lysates by endogenous and exogenous calpastatin was observed, and was overcome by adding extra calpain.
The nimO predicted protein of Aspergillus nidulans is related structurally and functionally to Dbf4p, the regulatory subunit of Cdc7p kinase in budding yeast. nimOp and Dbf4p are most similar in their C-termini, which contain a PEST motif and a novel, short-looped Cys2-His2 zinc finger-like motif. DNA labelling and reciprocal shift assays using ts-lethal nimO18 mutants showed that nimO is required for initiation of DNA synthesis and for efficient progression through S phase. nimO18 mutants abrogated a cell cycle checkpoint linking S and M phases by segregating their unreplicated chromatin. This checkpoint defect did not interfere with other checkpoints monitoring spindle assembly and DNA damage (dimer lesions), but did prevent activation of a DNA replication checkpoint. The division of unreplicated chromatin was accelerated in cells lacking a component of the anaphase-promoting complex (bimEAPC1), consistent with the involvement of nimO and APC/C in separate checkpoint pathways. A nimO deletion conferred DNA synthesis and checkpoint defects similar to nimO18. Inducible nimO alleles lacking as many as 244 C-terminal amino acids supported hyphal growth, but not asexual development, when overexpressed in a ts-lethal nimO18 strain. However, the truncated alleles could not rescue a nimO deletion, indicating that the C terminus is essential and suggesting some type of interaction among nimO polypeptides.
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