Project description:Invasive cancers employ pericellular proteolysis to breach the extracellular matrix and basement membrane barriers and invade the surrounding tissue. Pro-invasive, pro-tumorigenic MT1-MMP is the primary mediator of proteolytic events on the cancer cell surface. Cellular MT1-MMP is synthesized as a latent zymogen. The latency of MT1-MMP is maintained by its N-terminal inhibitory prodomain. Our study reveals a critical mechanism underlying the activation pathway and subsequent execution of the tumor-promoting function of MT1-MMP. Evidence suggests that the prodomain undergoes intradomain cleavage at the PGD↓L50 cleavage site followed by the release of the degraded prodomain by furin cleavage of the R108RKR111↓Y112 site. These events, only if combined, cause the activation of MT1-MMP. The significance of these molecular events to the pro-tumorigenic function of MT1-MMP in malignancy remained, however, unidentified. To identify the functional importance of the PGD↓L50 intradomain cleavage in the activation and tumorigenic program of MT1-MMP, our current studies employed the cells which expressed the wild-type prodomain-based fluorescent biosensor and the mutant biosensor with the inactivated PGD↓L50 cleavage site (L50D mutant) and also the cells with the enforced expression the wild-type and mutant MT1-MMP. Using cell-based tests and orthotopic breast cancer xenografts in mice, we demonstrated that the intradomain cleavage of the PGD↓L50 sequence of the prodomain is essential for the pro-tumorigenic function of MT1-MMP. Our study contributes to the growing consensus for the design of selective, precisely focused MT1-MMP inhibitors in cancer. Analysis of global gene expression in orthotopic tumor and cultured breast cancer cells expressing wild-type and mutant Mt1-MMP forms

Project description:Gene expression profiling of elutriated monocytes cultured for 48 hours in RPMI-1640, 10% AB plamsa and one of the following: GMCSF (56IU/ml), IL-4 (2000 IU/ml), 15 kDa Granulysin (10 nM) Sources tested: monocytes form 3 donors tested at time 0, 4 hours, 12 hours, 24 hours, 48 hours

Project description:This SuperSeries is composed of the following subset Series: GSE3869: Effects of rraA deletion on transcription GSE3870: Effects of rraA overexpression on transcription Abstract: Ribonuclease E (RNase E) has a key role in mRNA degradation and the processing of catalytic and structural RNAs in E. coli. We report the discovery of an evolutionarily conserved 17.4 kDa protein, here named RraA (regulator of ribonuclease activity A) that binds to RNase E and inhibits RNase E endonucleolytic cleavages without altering cleavage site specificity or interacting detectably with substrate RNAs. Overexpression of RraA circumvents the effects of an autoregulatory mechanism that normally maintains the RNase E cellular level within a narrow range, resulting in the genome-wide accumulation of RNase E-targeted transcripts. While not required for RraA action, the C-terminal RNase E region that serves as a scaffold for formation of a multiprotein degradosome complex modulates the inhibition of RNase E catalytic activity by RraA. Our results reveal a possible mechanism for the dynamic regulation of RNA decay and processing by inhibitory RNase binding proteins. Refer to individual Series

Project description:Calpains are calcium (Ca2+) activated neutral proteases that are involved in several essential signaling pathways. One Calpain-specific proteolytic target is Junctophilin-2 (JP2), an important structural protein of Ca2+ release units required for the excitation-contraction coupling in cardiomyocytes. While downregulation of JP2 by Calpain cleavage in mouse models of heart failure has been reported previously, the precise molecular identity of the Calpain cleavage sites and the (patho-) physiological roles of the JP2 proteolytic products remain controversial. We systematically analyzed the JP2 cleavage fragments as function of Calpain-1 versus Calpain-2 proteolytic activities, revealing that both Calpain isoforms preferentially cleave mouse JP2 at R565 but subsequently also at three additional secondary Calpain cleavage sites. We identified the Calpain-specific primary cleavage products not only in mouse but also in human iPSC-derived cardiomyocytes (hiPSC-CMs). Knockout of RyR2 in hiPSC-CMs destabilized JP2 resulting in an increase of the Calpain-specifc cleavage fragments. The primary N-terminal cleavage product (NT1) accumulated in the nucleus of mouse and human cardiomyocytes in a Ca2+ dependent manner, closely associated with DNA-rich chromosomal regions, where NT1 is proposed to function as a cardioprotective transcriptional regulator in heart failure. Taken together, our data suggest that stabilizing NT1 by preventing secondary cleavage events by Calpain and other proteases could be an important therapeutic target for future studies.

Project description:Calpains are calcium (Ca2+) activated neutral proteases that are involved in several essential signaling pathways. One Calpain-specific proteolytic target is Junctophilin-2 (JP2), an important structural protein of Ca2+ release units required for the excitation-contraction coupling in cardiomyocytes. While downregulation of JP2 by Calpain cleavage in mouse models of heart failure has been reported previously, the precise molecular identity of the Calpain cleavage sites and the (patho-) physiological roles of the JP2 proteolytic products remain controversial. We systematically analyzed the JP2 cleavage fragments as function of Calpain-1 versus Calpain-2 proteolytic activities, revealing that both Calpain isoforms preferentially cleave mouse JP2 at R565, but subsequently also at three additional secondary Calpain cleavage sites. We identified the Calpain-specific primary cleavage products not only in mouse but also in human iPSC-derived cardiomyocytes (hiPSC-CMs). Knockout of RyR2 in hiPSC-CMs destabilized JP2 resulting in an increase of the Calpain-specifc cleavage fragments. The primary N-terminal cleavage product (NT1) accumulated in the nucleus of mouse and human cardiomyocytes in a Ca2+ dependent manner, closely associated with DNA-rich chromosomal regions, where NT1 is proposed to function as a cardioprotective transcriptional regulator in heart failure. Taken together, our data suggest that stabilizing NT1 by preventing secondary cleavage events by Calpain and other proteases could be an important therapeutic target for future studies.

Project description:Calpain mediated cleavage transforms the full-length junctophilin 2 (JP2) from a structural protein into a transcriptional regulator (JP2 N-terminal trancate - JP2NT). We used affymetrix Genechip to reveal the differentially expressed transcripts induced by overexpression of JP2NT and JP2 in adult cultured mouse cardiomyocytes.

Project description:A comparison of the embryonic transcriptome of wild type embryos (sggisoD-DS-SFS ) with embryos harbouring mutated DEVD caspase recognition sites ( sggisoD-cI-DS-SFS ) in a major shaggy isoforms class to examine the role of caspase cleavage in sgg function. The unique N-terminal exon undegoing caspase cleavage is tagged with DsRED at its N-terminus and StrepII-Flag-StrepII upstream of caspase cleavage sites for the wild type and caspase insensitive variant versions.

Project description:Nrg1 proteins can be cleaved by gamma secretase in the synaptic membrane. Following cleavage the c-terminal domain of Nrg1 translocates to the nucleus. Which genes are regulated by this signaling is unclear. Here we investigated which genes are regulated.

Project description:Cardiac troponin T (cTnT) is a highly cardiospecific protein commonly used in the diagnosis of acute myocardial infarction (AMI), but is subject to proteolytic degradation upon its release in the circulation. In this study, a targeted mass spectrometry assay was developed to detect peptides which are differentially present within the different degradation products. cTnT was spiked in human serum and incubated at 37 °C to induce proteolytic degradation. Isolation and fractionation of cTnT and its fragments from serum were performed using immunoprecipitation and SDS-PAGE. Bands migrating to 37 kDa (intact cTnT), 29 kDa (primary fragment), and 19, 18, and 16 kDa (secondary fragments) were excised, digested, and subsequently analysed using targeted selected ion monitoring on a UHPLC-coupled quadrupole-Orbitrap mass spectrometer. Sixteen precursor ions from a total of 11 peptides unique to cTnT were targeted. Precursor ions were detectable up until 1200 ng/L cTnT, which is a typical cTnT concentration after AMI. With tandem-MS and relative quantification, we proved the formation of cTnT fragments upon incubation in human serum and identified differentially present peptides in the fragment bands, indicative of N- and C-terminal proteolytic cleavage. These findings are of importance for the development of future cTnT assays, calibrators and quality control samples.

Project description:A systematic and comparative study of the proteolysis products generated by purified human 26S and 20S proteasome following the in vitro cleavage of non-modified (naked), mono-ubiquitinated and poly-ubiquitinated cyclin B.