The anaphase-promoting complex or cyclosome (APC/C) is the ubiquitin ligase that regulates mitosis by targeting specific proteins for degradation at specific times under the control of the spindle ...assembly checkpoint (SAC). How the APC/C recognizes its different substrates is a key problem in the control of cell division. Here, we have identified the ABBA motif in cyclin A, BUBR1, BUB1, and Acm1, and we show that it binds to the APC/C coactivator CDC20. The ABBA motif in cyclin A is required for its proper degradation in prometaphase through competing with BUBR1 for the same site on CDC20. Moreover, the ABBA motifs in BUBR1 and BUB1 are necessary for the SAC to work at full strength and to recruit CDC20 to kinetochores. Thus, we have identified a conserved motif integral to the proper control of mitosis that connects APC/C substrate recognition with the SAC.
•The conserved ABBA motif that binds to APC/C coactivators is identified•The ABBA motifs of cyclin A and BUBR1 bind the same site on CDC20•The ABBA motif is required for rapid cyclin A degradation in prometaphase•The ABBA motifs in BUBR1 and BUB1 are required for a fully functional SAC
Di Fiore et al. identify an interaction motif, “ABBA,” common to both BubR1, a spindle assembly checkpoint (SAC) protein, and cyclin A, a mitotic regulator. This motif mediates binding of these proteins to the APC/C activator Cdc20 and is required for SAC function and timely cyclin A degradation.
The anaphase-promoting complex/cyclosome (APC/C) is the ubiquitin ligase essential to mitosis, which ensures that specific proteins are degraded at specific times to control the order of mitotic ...events. The APC/C coactivator, Cdc20, is targeted by the spindle assembly checkpoint (SAC) to restrict APC/C activity until metaphase, yet early substrates, such as cyclin A, are degraded in the presence of the active checkpoint. Cdc20 and the cyclin-dependent kinase cofactor, Cks, are required for cyclin A destruction, but how they enable checkpoint-resistant destruction has not been elucidated. In this study, we answer this problem: we show that the N terminus of cyclin A binds directly to Cdc20 and with sufficient affinity that it can outcompete the SAC proteins. Subsequently, the Cks protein is necessary and sufficient to promote cyclin A degradation in the presence of an active checkpoint by binding cyclin A-Cdc20 to the APC/C.
The Spindle Assembly Checkpoint (SAC) ensures genomic stability by preventing sister chromatid separation until all chromosomes are attached to the spindle. It catalyzes the production of the Mitotic ...Checkpoint Complex (MCC), which inhibits Cdc20 to inactivate the Anaphase Promoting Complex/Cyclosome (APC/C). Here we show that two Cdc20-binding motifs in BubR1 of the recently identified ABBA motif class are crucial for the MCC to recognize active APC/C-Cdc20. Mutating these motifs eliminates MCC binding to the APC/C, thereby abolishing the SAC and preventing cells from arresting in response to microtubule poisons. These ABBA motifs flank a KEN box to form a cassette that is highly conserved through evolution, both in the arrangement and spacing of the ABBA-KEN-ABBA motifs, and association with the amino-terminal KEN box required to form the MCC. We propose that the ABBA-KEN-ABBA cassette holds the MCC onto the APC/C by binding the two Cdc20 molecules in the MCC-APC/C complex.
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•The N-terminal half of BubR1 contains two ABBA motifs that bind Cdc20•The motifs are required for the MCC to bind and inhibit active APC/C-Cdc20•These ABBA motifs are essential for the spindle assembly checkpoint•The ABBA motifs flank a KEN box to form a cassette highly conserved in evolution
Di Fiore et al. show that two ABBA motifs in BubR1 are crucial for the Spindle Assembly Checkpoint because they are needed for the Mitotic Checkpoint Complex (MCC) to bind and inhibit the Anaphase Promoting Complex/Cyclosome (APC/C). Their results show how the MCC inhibits active APC/C.
Abstract
Background
Improving cancer immunotherapy long-term clinical benefit is a major priority. It has become apparent that multiple axes of immune suppression restrain the capacity of T cells to ...provide anti-tumour activity including signalling through PD1/PD-L1 and LAG3/MHC-II.
Methods
CB213 has been developed as a fully human PD1/LAG3 co-targeting multi-specific Humabody composed of linked V
H
domains that avidly bind and block PD1 and LAG3 on dual-positive T cells. We present the preclinical primary pharmacology of CB213: biochemistry, cell-based function vs. immune-suppressive targets, induction of T cell proliferation ex vivo using blood obtained from NSCLC patients, and syngeneic mouse model anti-tumour activity. CB213 pharmacokinetics was assessed in cynomolgus macaques.
Results
CB213 shows picomolar avidity when simultaneously engaging PD1 and LAG3. Assessing LAG3/MHC-II or PD1/PD-L1 suppression individually, CB213 preferentially counters the LAG3 axis. CB213 showed superior activity vs. αPD1 antibody to induce ex vivo NSCLC patient T cell proliferation and to suppress tumour growth in a syngeneic mouse tumour model, for which both experimental systems possess PD1 and LAG3 suppressive components. Non-human primate PK of CB213 suggests weekly clinical administration.
Conclusions
CB213 is poised to enter clinical development and, through intercepting both PD1 and LAG3 resistance mechanisms, may benefit patients with tumours escaping front-line immunological control.
The Anaphase Promoting Complex/Cyclosome (APC/C) in complex with its co‐activator Cdc20 is responsible for targeting proteins for ubiquitin‐mediated degradation during mitosis. The activity of ...APC/C–Cdc20 is inhibited during prometaphase by the Spindle Assembly Checkpoint (SAC) yet certain substrates escape this inhibition. Nek2A degradation during prometaphase depends on direct binding of Nek2A to the APC/C via a C‐terminal MR dipeptide but whether this motif alone is sufficient is not clear. Here, we identify Kif18A as a novel APC/C–Cdc20 substrate and show that Kif18A degradation depends on a C‐terminal LR motif. However in contrast to Nek2A, Kif18A is not degraded until anaphase showing that additional mechanisms contribute to Nek2A degradation. We find that dimerization via the leucine zipper, in combination with the MR motif, is required for stable Nek2A binding to and ubiquitination by the APC/C. Nek2A and the mitotic checkpoint complex (MCC) have an overlap in APC/C subunit requirements for binding and we propose that Nek2A binds with high affinity to apo‐APC/C and is degraded by the pool of Cdc20 that avoids inhibition by the SAC.
Identification of a kinesin as novel APC/C ubiquitination substrate offers insight into molecular determinants of differential degradation timing during early mitosis.
The CpG-rich promoter of the retinoblastoma tumor suppressor gene (Rb-1) is normally unmethylated. However, aberrant methylation of CpG dinucleotides within the Rb-1 promoter has been depicted in ...certain tumors, which determines transcriptional inactivity of the gene and absence of the pRb retinoblastoma protein. Here we have concentrated on an E2F-binding site in the Rb-1 promoter. We show that the E2F site is required for cell-cycle regulated Rb-1 transcription in non-transformed cells. The function of the E2F site is associated with its ability to interact with several activating factors of the E2F family. In contrast, in vitro methylation of two tandemly arranged CpGs in the E2F recognition site prevents binding by E2F factors, and determines instead the recruitment of the general repressor methylcytosine-binding protein 2 (MeCP2). These results suggest that the interaction of MeCP2 with the methylated version of the E2F site may represent a step towards Rb-1 promoter inactivity in tumor cells.
The GTPase Ran regulates nucleocytoplasmic transport in interphase and spindle organisation in mitosis via effectors of the importin beta superfamily. Ran-binding protein 1 (RanBP1) regulates guanine ...nucleotide turnover on Ran, as well as its interactions with effectors. Unlike other Ran network members that are steadily expressed, RanBP1 abundance is modulated during the mammalian cell cycle, peaking in mitosis and declining at mitotic exit. Here, we show that RanBP1 downregulation takes place in mid to late telophase, concomitant with the reformation of nuclei. Mild RanBP1 overexpression in murine cells causes RanBP1 to persist in late mitosis and hinders a set of events underlying the telophase to interphase transition, including chromatin decondensation, nuclear expansion and nuclear lamina reorganisation. Moreover, the reorganisation of nuclear pores fails associated with defective nuclear relocalisation of NLS cargoes. Co-expression of importin beta, together with RanBP1, however mitigates these defects. Thus, RanBP1 downregulation is required for nuclear reorganisation pathways operated by importin beta after mitosis.
Ubiquitin-mediated proteolysis is critical for the alternation between DNA replication and mitosis and for the key regulatory events in mitosis. The anaphase-promoting complex/cyclosome (APC/C) is a ...conserved ubiquitin ligase that has a fundamental role in regulating mitosis and the cell cycle in all eukaryotes. In vertebrate cells, early mitotic inhibitor 1 (Emi1) has been proposed as an important APC/C inhibitor whose destruction may trigger activation of the APC/C at mitosis. However, in this study, we show that the degradation of Emi1 is not required to activate the APC/C in mitosis. Instead, we uncover a key role for Emi1 in inhibiting the APC/C in interphase to stabilize the mitotic cyclins and geminin to promote mitosis and prevent rereplication. Thus, Emi1 plays a crucial role in the cell cycle to couple DNA replication with mitosis, and our results also question the current view that the APC/C has to be inactivated to allow DNA replication.
Measuring Proteolysis in Mitosis Lindon, Catherine; Fiore, Barbara Di
Methods in molecular biology (Clifton, N.J.),
01/2009, Letnik:
545
Book Chapter, Journal Article
The targeted destruction of key regulators helps to drive the cell cycle. Here we describe a quantitative assay to measure destruction of different regulators in mitotic cells. This assay uses ...GFP-tagged substrates and time-lapse fluorescence microscopy of single cells to pinpoint the timing of destruction of different substrates at different stages in mitosis.
The Ran GTPase has important roles in nucleocytoplasmic transport, cell cycle progression, nuclear organization and nuclear envelope (NE) assembly. In this review, we discuss emerging evidence that ...implicate the Ran GTPase system in mitotic control in mammalian cells. Recent work indicates that members of the Ran network control two fundamental aspects of the mammalian mitotic apparatus: (i) centrosome and spindle pole function, and (ii) kinetochore function. It is also emerging that, after NE breakdown, specific Ran network components assemble in local combinations at crucial sites of the mitotic apparatus. In the light of these findings, the original notion that nucleotide-bound forms of the Ran GTPase are distributed along a unique "gradient" in mitotic cells should be re-examined. Available data also suggest that the Ran system is deregulated in certain cellular contexts: this may represent a favoring condition for the onset and propagation of mitotic errors that can predispose cells to become genetically unstable and facilitate neoplastic growth.
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